civil engineering dissertation topics uk

44-207-097-1871

Dissertation Writing Tools

1. Complete Dissertation Writing Guide - eBook
2. Dissertation Templates Pack
3. Research Methodology Handbook
4. Academic Writing Checklist
5. Citation Style Guide
6. Time Management for Dissertation Writing
7. Literature Review Toolkit
8. Grammar and Style Guide
9. Dissertation Proposal Template
10.Five Pre-written Full Dissertation Papers

civil engineering dissertation topics uk

Civil Engineering Dissertation Topics Research Ideas

Exploring Diverse Avenues: Inspiring Civil Engineering Dissertation Topics Civil Engineering, as a field, encompasses a vast array of disciplines ranging from structural engineering to transportation systems. Students pursuing their dissertation in this domain often find themselves in search of captivating topics that not only intrigue them but also contribute meaningfully to the field. With the […]

Table of Contents

Exploring Diverse Avenues: Inspiring Civil Engineering Dissertation Topics

Civil Engineering, as a field, encompasses a vast array of disciplines ranging from structural engineering to transportation systems. Students pursuing their dissertation in this domain often find themselves in search of captivating topics that not only intrigue them but also contribute meaningfully to the field.

With the plethora of possibilities available, narrowing down a suitable topic can be a daunting task. Hence, this article aims to provide a comprehensive list of captivating Civil Engineering Dissertation Topics for exploration.

Introduction

Civil Engineering Dissertation Topics play a pivotal role in shaping the future of the discipline. These topics serve as the foundation for groundbreaking research and innovation, driving advancements in infrastructure, sustainability, and technology.

From investigating novel materials for construction to optimizing transportation networks, the realm of possibilities within Civil Engineering is vast and dynamic.

Categories of Civil Engineering Dissertation Topics

Structural engineering.

Utilization of advanced materials in earthquake-resistant structures.
Innovative approaches to enhance the durability of bridges.
Structural health monitoring techniques for infrastructure resilience.
Sustainable design principles for high-rise buildings.
Rehabilitation strategies for aging infrastructure.

Geotechnical Engineering

Soil stabilization techniques for expansive soils.
Assessment of slope stability in urban environments.
Geotechnical considerations in underground construction projects.
Application of geosynthetics in civil engineering projects.
Investigation of liquefaction susceptibility in seismic regions.

Transportation Engineering

Optimization of traffic signal control systems using AI algorithms.
Integration of autonomous vehicles into transportation networks.
Sustainable urban transportation planning strategies.
Impact assessment of transportation infrastructure on the environment.
Intelligent transportation systems for congestion management.

Environmental Engineering

Remediation of contaminated sites using innovative technologies.
Assessment of the environmental impact of construction materials.
Wastewater treatment and reuse strategies for sustainable water management.
Green infrastructure solutions for stormwater management.
Carbon footprint analysis in construction projects.

Water Resources Engineering

Hydrological modeling for flood risk assessment.
Optimization of reservoir operation for water supply management.
Climate change adaptation strategies for water resources planning.
Groundwater contamination modeling and remediation techniques.
River morphology dynamics and its implications on infrastructure.

Construction Management

Application of Building Information Modeling (BIM) in construction projects.
Lean construction techniques for improving project efficiency.
Risk management in mega construction projects.
Sustainable construction practices: Challenges and opportunities.
Digitalization and automation in construction project management.

Urban Planning

Smart city development: Integration of technology and infrastructure.
Urban regeneration strategies for revitalizing deteriorating neighborhoods.
Transit-oriented development for sustainable urban mobility.
Affordable housing solutions in rapidly growing cities.
Urban resilience planning for climate change adaptation.

Materials Engineering

Development of eco-friendly construction materials.
Nanotechnology applications in civil engineering materials.
Recycling and reuse of construction and demolition waste.
Durability assessment of concrete structures in aggressive environments.
Novel approaches to enhance the strength and ductility of steel.

Coastal Engineering

Coastal erosion management strategies.
Impact of sea-level rise on coastal infrastructure.
Design and optimization of coastal protection structures.
Beach nourishment techniques for shoreline stabilization.
Numerical modeling of wave-structure interactions.

Earthquake Engineering

Performance-based seismic design of buildings.
Retrofitting strategies for vulnerable structures.
Seismic hazard assessment using advanced techniques.
Soil-structure interaction in seismic analysis.
Post-earthquake damage assessment and recovery planning.

Infrastructure Asset Management

Life cycle assessment of infrastructure assets.
Implementation of predictive maintenance techniques.
Decision support systems for infrastructure asset management.
Asset management in the context of smart cities.
Risk-based prioritization of maintenance activities.

Energy Efficiency in Buildings

Passive design strategies for energy-efficient buildings.
Integration of renewable energy systems in building design.
Building energy simulation and optimization.
Indoor environmental quality and energy performance correlation.
Net-zero energy buildings: Challenges and opportunities.

Tunnel Engineering

Tunnel construction in challenging geological conditions.
Fire safety measures in tunnel design and operation.
Ventilation system optimization for tunnel safety.
Monitoring and maintenance of tunnel infrastructure.
Tunneling techniques for urban underground transportation.

Pavement Engineering

Evaluation of sustainable pavement materials.
Pavement performance modeling and prediction.
Rehabilitation strategies for deteriorating pavements.
Climate resilience in pavement design and maintenance.
Recycling techniques for asphalt pavement materials.

Remote Sensing and GIS Applications in Civil Engineering

Satellite-based monitoring of infrastructure assets.
GIS-based spatial analysis for urban planning.
LiDAR applications in terrain modeling and mapping.
Remote sensing for monitoring natural hazards and disasters.
Integration of drone technology in civil engineering applications.

Engineering Dissertation Topics Ideas and Examples
Engineering Research Papers
Engineering Research Proposal

Civil Engineering Dissertation Topics span a broad spectrum of disciplines, each offering unique opportunities for research and innovation. By delving into these topics, students can contribute significantly to the advancement of the field, addressing contemporary challenges and shaping the future of infrastructure development.

The diverse range of topics outlined in this article provides a starting point for students to explore areas of interest and embark on a rewarding research journey.

In conclusion, the realm of Civil Engineering Dissertation Topics is rich with potential, waiting to be explored by enthusiastic researchers eager to make a lasting impact on the field.

Whether it’s addressing the challenges of urbanization , advancing construction materials, or optimizing transportation systems, there’s no shortage of opportunities for groundbreaking research in Civil Engineering.

Civil Engineering Dissertation Topics Brief Service

Are you struggling to find the perfect Civil Engineering Dissertation Topic? Our team offers customized topic briefs tailored to your interests and academic requirements. Fill out the form below to receive personalized recommendations and kickstart your dissertation journey.

Paid Topic Mini Proposal (500 Words)

You will get the topics first and then the mini proposal which includes:

An explanation why we choose this topic.
2-3 research questions.
Key literature resources identification.
Suitable methodology including raw sample size and data collection method
View a Sample of Service

Note: After submiting your order please must check your email [inbox/spam] folders for order confirmation and login details.If email goes in spam please mark not as spam to avoid any communication gap between us.

Get An Expert Dissertation Writing Help To Achieve Good Grades

By placing an order with us, you can get;

Writer consultation before payment to ensure your work is in safe hands.
Free topic if you don't have one
Draft submissions to check the quality of the work as per supervisor's feedback
Free revisions
Complete privacy
Plagiarism Free work
Guaranteed 2:1 (With help of your supervisor's feedback)
2 Instalments plan
Special discounts

Best Civil Engineering Dissertation Topics You Should Explore Right Now!

35+ Great Civil Engineering Dissertation Ideas

Criteria for good civil engineering dissertation topics, 35+ ideal civil engineering dissertation topics for students in 2022, get your dissertation done faster with professional writers, list of great dissertation ideas in civil engineering.

Eiffel Tower to Burj Khalifa and many others are the creations of human beings that are contributions of civil engineering. When students are enrolled in this profession, they are asked to undergo various tough courses in which they have to write a paper on civil engineering dissertation topics .

However, many students get stuck in the topic selection process and due to this, they lose their marks. Sometimes, their topic is rejected by the professor. They lose hope that they won’t find a good topic for their dissertation. The students often search the whole internet, read books, PDF, and do many more things to get the best idea. But still, they find to get the perfect one for their civil engineering paper.

Are you also going through the same situation? If yes, then you do not have to worry now. In this blog, you would find some of the unique ideas for the dissertation. But first, let’s know about the criteria by which you can search for good civil engineering dissertation ideas .

Whenever you decide the topic for your dissertation, make sure you ask some questions to yourself and then finalize the idea.

1. Whether the dissertation topic is interesting enough or not, make sure you get the answer for capturing the attention of the reader towards the paper. A topic you feel interesting should be chosen only.

2. Whether the information is enough or not, the dissertation is written by you, so the information should be sufficient to write in your own words.

3. Whether the topic can achieve the targets or not when you are writing the dissertation, you should know that the target is achieved by the information written in the paper.

These are the questions you need to focus on while selecting the topic. But if you are still unable to select a topic, here is the list of unique civil engineering dissertation ideas that you should explore right now.

1. How can large metropolitan areas be reformed or restructured to help control the increasing rate of air pollution? Describe in detail.

2. How do civil engineering advances aid in the way disaster management can improve in high-disaster (e.g., earthquake, flooding, hurricane, etc.) areas?

3. How do these innovations pave the way for tremendous change in how civil engineering is viewed? Describe the innovations of geotechnical applications.

4. This engineering technology is being used in locations where geology plays a larger role in terms of unstable ground. What other uses can there be in the uses of flexible pavement?

5. What advancements in the last two decades had the greatest effect on how cities are redeveloped?

6. How have recent events concerning the disaster recovery response time affected the way civil engineering is advancing?

7. What are the most effective methods for removing arsenic from cities’ groundwater? What challenges are there for rural areas?

8. Recent strides have been made to use different and natural materials for buildings. How does bamboo fair in all of this?

9. Analyze the efficiencies of the destruction and razing of large city structures and their effect on traffic, safety, etc.

10. How have highway collapse and failure disasters in the last twenty years affected the way engineers look towards design improvement?

11. How to build a school that has everything a student needs ( playground for kids, a tennis or football field for bigger students, etc ) at a low cost?

12. Why regulation for a canal or a tank sluice that is automatic and only needs regular maintenance?

13. How grain or other products storage at a very low cost is done?

14. How the irrigation low-cost system works.? Describe each step in detail.

15. What is centrifugal irrigation efficiency?

16. Describe the erosion resistance bricks or constructing materials that will resist through time.

17. Rural settlements, how can you turn them into efficient productions for the national economy.

18. Rural houses. How cheap can you build one?

19. What are those problems that a civil Engineer has to deal with in remote areas?

20. How to meet the need for residential space for a lot of people in small areas with the help of civil engineering?

21. Is it possible to make a fully earthquake-resistant home in hilly areas?

22. Compare the experiences that a civil engineer meets in his profession while designing a structure in two different geographical areas.

23. How to check the damage of roads due to land sliding?

24. What should be the structure of the transportation path in those areas which are prone to land sliding?

25. How the construction of a bridge differs in two different topographical conditions?

26. Describe the way through which a good disaster-resistant building could be designed by a civil engineer.

27. Design of a public office and infrastructure versus office building, comment as professional civil engineering.

28. Why it is not suggested to build a structure on soft soil? Describe in detail.

29. Is it possible for a civil engineer to design the map of a building of infrastructure without visiting the site?

30. What observations are made by civil engineers during a site visit?

31. Explain the infrastructure development by civil engineering in different landforms like pleasure, plains, hills, etc.

32. What is the best way to make people understand the importance of building a home with the help of civil engineers?

33. Find out the example where traditional building methods have proved them successful over civil engineering.

34. How did the existence of civil engineers become popular?

35. Which is more challenging for civil engineers, building infrastructure in hill areas or plains?

36. What are the best ways to observe the quality of soil for infrastructure development?

Until now, you must get a decent idea for your civil engineering dissertation. After getting the civil engineering dissertation topic, are you facing a problem in writing the paper? If yes, then you do not have to worry now. The experts of the Assignment Desk are there to help you with your paper writing. We will write the document faster than ever.

Our professional writers will make sure that they draft the dissertation without any mistakes. Also, we will provide the best services at an affordable range. For instance, if your cart reaches $1000, you will get 10% off on your document when you buy dissertation . When you have assignments in bulk and because of that your cart reaches $1000, then you would get 10% off for asking help from the experts. Other than this, there are many offers due to which students take help from our assignment writers.

Moreover, not only the offers, there are many freebies that every student likes; those are:

Plagiarism Report
Proofreading
Title formation
Bibliography

So, after getting these many benefits, what are you waiting for? Hurry up!

Share Your Requirements Now for Customized Solutions.

Delivered on-time or your money back

Our Services

Assignment Writing Service
Essay Writing Help
Dissertation Writing Service
Coursework Writing Service
Proofreading & Editing Service
Online Exam Help
Term paper writing service
Ghost Writing Service
Case Study Writing Service
Research Paper Writing Service
Personal Statement Writing Service
Resume Writing Service
Report Writing Service

To Make Your Work Original

Check your work against paraphrasing & get a free Plagiarism report!

Check your work against plagiarism & get a free Plagiarism report!

Quick and Simple Tool to Generate Dissertation Outline Instantly

Get citations & references in your document in the desired style!

Make your content free of errors in just a few clicks for free!

Generate plagiarism-free essays as per your topic’s requirement!

Generate a Compelling Thesis Statement and Impress Your Professor

FREE Features

Topic Creation USD 3.87 FREE
Outline USD 9.33 FREE
Unlimited Revisions USD 20.67 FREE
Editing/Proofreading USD 28 FREE
Formatting USD 8 FREE
Bibliography USD 7.33 FREE

Get all these features for

USD 80.67 FREE

RELATED BLOGS

A Comprehensive List of 35+ Trending Brexit Dissertation Topics

Know the Difference Between Managerial Accounting and Financial Accounting

Grab Amazing Easter Deals and Offers on Assignments

Here Are the Top 40+ Engaging Persuasive Essay Topics

Interesting 40+ Early Childhood Studies Dissertation Ideas

How Inductive vs Deductive Research Differs From Each Other?

Professional assignment writers.

Choose a writer for your task among hundreds of professionals

Please rotate your device

We don't support landscape mode yet. Please go back to portrait mode for the best experience

We use cookies to ensure that we give you the best experience on our website. If you continue to use this site we will assume that you are happy with it. Know more

Calculate the Price

Professional Academic Help at Pocket-Friendly Prices!

Estimated Price

Engineering Dissertation Topics

A dissertation (or a final year project report) is a comprehensive technical report of the research work carried out. A dissertation must present some new, original concepts that lead to further research. The core area of a dissertation consists of a hypothesis (or a research question) upon which an investigation is conducted and, in most cases, inevitably leads to further research. A dissertation must be focused, concise and must address the research topics at every level. Also, along with research, a dissertation is expected to present complete evidence of research work in the form of research methods. Sometimes it’s hard to even know where to start. Herein, many engineering research areas, currently being sought after in the industry and academia, are suggested, including electronics, sensors technology, environmental engineering, supply chain engineering, computer science engineering, electrical engineering and civil engineering, to help you start your research.

Electronics and Communication Dissertation Topics

Sensors Technology Dissertation Topics

Environmental engineering dissertation topics, supply chain engineering dissertation topics, supply chain management dissertation topics, computer science engineering dissertation topics, electrical engineering dissertation topics, civil engineering dissertation topics, management related engineering dissertation topics, electronics and communications dissertation topics.

Over the past decade the rise of electronic communication has been revolutionised; it is the fastest growing technology. There are numerous areas of research in this field; however, the most demanding ones are highlighted below.

Defining the boundaries of electrical signals for current electronics (communication) systems.
The limitation of fibre optic communication systems and the possibility of further improving their efficiency.
Developing the embedded communication system for the national grid to optimise energy usage.
Improvement of inter-symbol interference in optical communications.
A study of the various forms of errors and the development of an equalisation technique to reduce the error rates in data.
Gaussian pulse analysis and the improvement of this pulse to reduce errors.
Realising the potential of RFID in the improvement of supply chain.
Radiation in integrated circuits and electronic devices.
Design of high speed communication circuits that effectively cut down signal noise.
Spectral sensing research for water monitoring applications and frontier science and technology for chemical, biological and radiological defence.
Nano-structured membranes for preparative purifications of biopharmaceuticals.

The rise of smart technology has been revolutionising sensor technologies, and there is a high demand to make more efficient and compact sensors. The following topics are a few areas that researchers are currently working in to realise further potentials.

Design and development of a pressure sensor for a solar thermal panel.
An investigation into wind speed and direction sensors to optimise the operations of wind turbines.
Utilising MEMS for profiling airflow around large building structures.
Development of micro sensors to measure oil flow rate in tanks.
Development and implementation of micro sensors to study pressure of the blood stream.
Development of sensors to measure heat generated from solar panels.
Sensing and controlling the intensity of light in LEDs.
Research and computational simulation of a natural olfactory biosensor.
Development of glucose biosensors using nanotechnology.

We are living in the age of technology where the driving force is to reduce the environmental impact of engineering products. Many countries have been undertaking projects supporting the environment and aiming to reduce carbon emissions. The following engineering dissertation topics are of utmost interest for researchers in the industry.

Analysing the impact of aviation industry on the environment and the potential ways to reduce it.
The environmental cost of the so called green energy, ‘wind energy’.
An analysis of factors that hinder the realising of cutting-edge technology for reducing carbon emissions from automobiles.
Design and development of a system for measuring the carbon index of an energy intensive company.
Process improvement techniques to identify and remove waste in the automotive industry.
Process mapping techniques to identify bottle necks for supply chain industry.
A study of compressor operations on a forging site and mapping operations to identify and remove energy waste.
Improving processes to reduce kWh usage and reduce inefficiencies.
Developing a compact device to measure energy use for a household.
In the forging industry how can changing burners within furnaces help organisations achieve energy efficiency?
How can gas consumption be reduced and efficiency introduced to reduce kWh usage?
How can voltage reduction devices help organisations achieve efficiency in electricity usage?
What are carbon credits and how can organisations generate them?
There are some organisations that use water excessively, with bills totalling more than £25,000. Identify the main reasons for such water usage and investigate better ways to introduce water efficiency and create savings.
Identify the ways by which efficient control systems using information systems can be introduced to study the energy usage in a machining factory.
A project to set up ways to measure natural gas flow ultrasonically and identify waste areas.
How can water conductivity probes help determine water quality and how can water be reused?

Supply chain plays an important role in the manufacturing business sector. It is important that the supply chain is well supported by efficient methods and processes. Your engineering dissertation topics could be about:

Highlighting the difference between the supply chain engineering and management for a company to improve output.
Analysing the key factors in process planning and optimisation of supply chain for a manufacturing company.
Developing a supply chain template for a small but thriving online business.
How can organisations achieve success by reducing bottlenecks in supply chain?
Just-in-time – is it really valid? Measurement of losses within just-in-time process implementation.
How can process efficiency be introduced to reduce waste within the manufacturing process?
Supplier relationship is an important factor for the success of just-in-time. How can organisations ensure successful transactions?
Research to identify efficient logistics operations within a supply chain.
Research to introduce efficiency within information systems and support timely transfer of knowledge and information.
The effect of globalisation on supply chain engineering/management for large multi-national companies.
Research studying the impact of culture on supply chain industries: identification of factors that generate inefficiencies with the supply chain.

Supply chain management involves the administration, management, control and supervision of the movement of goods and services from supplier to manufacturer to wholesaler to retailer and to the end consumer. Supply chain management involves coordinating and integrating these elements using an effective and efficient approach and methodology. Supply chain management is important for businesses to ensure there is minimum waste, drive innovation thereby creating integrated value chains. Supply chain management plays an important and central role in the success of a business. Please find a list of topics on supply chain management that may be useful for your engineering dissertation:

A detailed investigation into the need and use of dynamic staff to determine and rectify supply chain problems with a specific focus on the construction industry.
Research into eco-friendly and sustainable practices in supply chain management.
Research to develop a learning organisation and its impact on supply chain management.
Research to measure and develop intellectual capital within the supply chain industry.
A detailed study of innovative forecasting and demand planning strategies for supply chain management
Research study to create measurements to study the impact of learning organisation on performance measurement in supply chain industry
Impact of training on knowledge performance index within supply chain industry.
The behaviour of Carbon index with the implementation of a learning organisation.
Developing a framework for supply chain management in densely populated urban cities
Detailed investigation and analysis taking into account supply chain and logistical strategies for perishable goods.
The influence and impact of emerging e-commerce technologies on supply chain management.

Computer science engineering focuses on the key elements of computer programming and networking with a focus on gaining knowledge of the design, implementation and management of information systems. Information systems play a major role in computer science engineering and an integral component to the successful operations of organisations. The management of information technology systems is a major element for organisations. The following could be used for an engineering dissertation as well as a computing dissertation:

How can organisations ensure that information system is effectively used to maintain process efficiency?
How can learning organisations influence the development of information systems?
The role of risk management in information technology systems of organisations.
Research to identify and reduce e-waste using information technology strategies and systems.
Current status and research on E-waste in the United Kingdom
Development of measurement systems to measure e-waste.
A detailed review of the role of information technology in improving productivity and transforming organisations.
An investigation into the use of information technology as a tool for sustained competitive advantage.
A high-level investigation and detailed review into best practices for the implementation of information technology in modern day organisations.

Electrical engineering is focused on the design, development, testing, supervision and the manufacturing of electrical equipment. Electrical engineers design the electrical systems of automobiles, aircrafts, power generation equipment, communications systems, radar and navigational systems. The design and development of these electrical components are key and central to modern day life. There are several topics within this area that you could research for your electrical engineering dissertation:

Development of a system to study the efficiency of motors in order to reduce kWh usage
Setting up of a control system to monitor the process usage of compressors.
Develop a scheme to normalise compressor output to kWh.
Research to investigate, develop and introduce schemes to ensure efficient energy consumption by electrical machines.
Research to study transformer losses and reduce energy loss.
Research to study metering techniques to control and improve efficiency.
Research to introduce smart metering concepts to ensure efficient use of electricity.
Integration of smart metering pulsed outputs with wireless area networks and access real-time data.
Developing effective strategies and methodical systems for pay as you go charging for electric vehicles
A detailed review and investigation into the key issues and challenges facing rechargeable lithium batteries
Trends and challenges in electric vehicles technologies
Smart charging of electric vehicles on the motorway

The main emphasis of civil engineering in recent times is focused on sustainable development of quality, durable structures that deliver value for money, maximise the benefits from innovation and meets the specifications of the end users. Construction of sustainable houses has been a top priority within civil engineering. The following research topics are being actively undertaken and may be a good area for you to base your research on your own engineering dissertation:

Development of sustainable homes making use of renewable energy sources.
The use of sustainable materials for construction: design and delivery methods.
The role of environmental assessment tools in sustainable construction
The use of warm mix asphalt in road construction
Research to study properties of concrete to achieve sustainability.
Development of waste reduction strategy to achieve sustainable concepts
High-level review of the barriers and drivers for sustainable buildings in developing countries
Research to study the impact of sustainability concepts on organisational growth and development.
Sustainable technologies for the building construction industry
Building Information Modelling in the construction industry
Research regarding micromechanics of granular materials.
Research to study and develop water treatment processes.
Research to set up remote sensing applications to assist in the development of sustainable construction techniques.
High-level strategies, best practice guidelines and methodologies for sustainable construction.
State of the art practice for recycling in the construction industry.
Key factors and risk factors associated with the construction of high rise buildings.
An investigation into health and safety in the construction industry.

Engineering management is the application of the practice of management to the practice of engineering. Engineering management integrates problem-solving, engineering, technological developments and advancements in organizational structure, administrative, and planning abilities of management in order to oversee the operational performance of complex engineering driven enterprises. These two topics go hand in hand and support each other quite well. It is important that both sides are well balanced. The following research topics could be useful for your engineering dissertation:

Steps to conduct management of change to ensure smooth process improvement.
Research to sustainably manage a project team.
Research to study the management of engineering projects and various risks involved with them.
Research to identify process improvement plans to support business strategies.
Efficient supply chain management to ensure and develop key motivational skills within staff members.
How leadership can help efficiency within a learning organisation.
Developing an integrated approach to strategic management in organisations.
Creating and sustaining competitive advantage in engineering organisations.
Developing frameworks for sustainable assessments taking into account eco-engineering measures.
The role of engineers in managing development in emerging countries.

What is a Civil Engineering Dissertation?

Steps to select superior civil engineering dissertation ideas, how to write a civil engineering dissertation, civil engineering dissertation topics, civil engineering dissertation topics undergraduate, structural civil engineering thesis topics, best research topics for civil engineering students, native assignment help - the best shot to grab a perfect civil engineering dissertation topics.

Civil Engineers are the technical professionals who design and look after the construction of many infrastructures like buildings, dams, canals etc. Engineers search for smart and sustainable ways that benefit the general public in today's fast-paced world. Civil engineering also has a lot of research scope and students are keen to find the most perfect civil engineering dissertation topic for a bright future.

Hunting a topic that is prime in the professor's eyes and fits right in your hectic schedule is difficult. We have prepared a list of topics that will sparkle your civil engineering dissertation and you’ll have to search no more. Before we dive into that let’s discuss how you can form a good topic and use it to write better dissertations.

Follow these steps to design the most suitable topic for yourself.

Analyze the latest innovations : While searching for civil engineering dissertation topics, you need to stay updated about discoveries and research. Because current theories are more relatable, you will stay interested and can carry forward with research.
Review related publications : When you find your topic of study, you need to collect what other authors have to say. Go through related articles and create a roadmap to your new topic. Analyze these papers for areas that have the potential to form your new topic.
Create a list : It's normal to have not one but many topic ideas in your mind. Keep a record of all the topics that you find suitable. You can also create a comparison table, it will help you to reach a final decision.
Take advice from professors : If you are facing issues in deciding what’s best for your dissertation, you can always take advice. Discuss your research intent and ideas you have in your mind and ask which topic will create more impact.
Check feasibility : No matter how great your civil dissertation topic is, if you can't make the time and effort required, it’s not worth it. Your topic should be impactful but less complicated which promises positive and impressive outcomes.
Browse for content availability : A popular topic will have many publications compared to others. It benefits you as you’ll have so many references to look up to.
Scope in future : A civil engineering topic that is capable of flourishing in future is welcomed by professors. That way you can carry the research in your professional life as well. That is why you need to see a bigger picture when you choose your civil engineer dissertation topic.

Writing a civil engineering dissertation can be pricky but not when you take each step with utmost care. Here are some guiding points for you.

The theory should be well-rehearsed : Your dissertation topic should be like your best friend. You should know every basic concept related to it. Revise the theory before you start your research and thesis writing so that you can smoothly conduct your research.
Create a research proposal : The foremost thing you need to prepare for your research proposal. It states the reason for choosing that topic in your dissertation. You should also explain how you think your research and practical analyses can add to the research.
Collect valuable Literature : Before diving into your findings, you need to present what other researchers concluded and how you used that information. When students don’t write..
Mention methodologies : Next you need to mention all the methods you used in your research. You need to conduct practical so that you can collect data to prove your research.
Include Observations and Visual Proof : Simultaneously with your methodology you need to represent your observations and images. This is a very proficient way of showing progress in your research.
Write an impressive conclusion : After you have mentioned every detail in your thesis you need to end it with a remarkable conclusion. This part is very important and should address all the learning and results you generated from the research.
Revisit for mistakes and make changes : With the completion of writing the thesis, you need to check it completely for mistakes. Never forget this very important step or it will harm your grade.
1. Enhancing Coastal Protection: Evaluating the Effectiveness of Coastal Defense Strategies for UK Shorelines
2. Heritage Conservation in Infrastructure Projects: Balancing Preservation with Modernization in Historic UK Cities
3. Flood Resilience in Urban Areas: A Case Study of Flood-Prone Cities in the UK
4. Sustainable Drainage Systems (SuDS) Implementation: Overcoming Challenges in Urban and Rural UK Settings
5. Revitalizing Aging Infrastructure: Strategies for Renovation and Rehabilitation of UK Bridges and Tunnels
6. Low-Carbon Construction Materials: Assessing the Feasibility and Adoption Rates in the UK Construction Industry
7. Decentralized Water Supply Systems: Exploring Opportunities and Barriers to Implementation in UK Communities
8. Railway Infrastructure Modernization: Enhancing Capacity and Efficiency of UK Rail Networks
9. Urban Regeneration and Social Inclusion: Integrating Infrastructure Development with Community Engagement in Deprived Areas of the UK
10. Climate-Resilient Housing: Designing Sustainable and Adaptable Homes for the UK's Changing Climate
1. Utilizing 3D Printing Technology in Civil Engineering: Feasibility and Applications in the UK Construction Industry
2. Assessing the Environmental Impact of Urbanization on River Systems: Case Study of a UK City
3. Investigating the Effectiveness of Green Roofs in Mitigating Urban Heat Island Effect: A Study in UK Urban Areas
4. Integration of Renewable Energy Systems into Building Design: Challenges and Opportunities for UK Construction Projects
5. Sustainable Transportation Solutions for UK Cities: Promoting Cycling and Pedestrian Infrastructure
6. Implementing Smart Grid Systems for Energy-Efficient Buildings: Case Study of UK Residential Developments
7. Evaluating the Potential of Modular Construction Techniques in Affordable Housing Projects in the UK
8. Enhancing Resilience of UK Infrastructure to Extreme Weather Events: Case Study Analysis
9. Incorporating Nature-Based Solutions in Urban Planning: Benefits and Challenges for UK Cities
10. Investigating the Feasibility of Floating Structures for Coastal Infrastructure Development: A Case Study in the UK
1. Advanced Composite Materials in Bridge Construction: Exploring Carbon Fiber Reinforced Polymers (CFRP) for Sustainable Infrastructure in the UK
2. Seismic Retrofitting of Historical Buildings in the UK: Preservation and Structural Integrity
3. Timber Structures in Urban Construction: Feasibility and Sustainability Assessment for UK Building Codes
4. Performance-Based Design of High-Rise Buildings in Seismic Zones: Case Study of UK Cities
5. Innovative Structural Health Monitoring Techniques for Aging Infrastructure: Applications in the UK
6. Integrating Additive Manufacturing in Concrete Construction: Opportunities and Challenges for the UK Construction Industry
7. Modular Construction Techniques for Multi-Storey Buildings: Optimization and Structural Performance in the UK Context
8. Dynamic Analysis of Footbridges: Enhancing Pedestrian Safety and Comfort in UK Urban Environments
9. Sustainable Reinforced Concrete Design: Carbon Footprint Reduction Strategies for UK Construction Projects
10. Parametric Design and Optimization of Steel Structures: Towards Efficient and Cost-Effective Solutions for the UK's Infrastructure Needs
1. Sustainable Urban Drainage Systems (SuDS): Investigating the Effectiveness of SuDS in Managing Stormwater Runoff in UK Cities
2. Climate-Resilient Infrastructure Design: Developing Strategies to Enhance the Resilience of UK Infrastructure to Climate Change Impacts
3. Smart Transportation Systems: Utilizing IoT and AI for Optimizing Traffic Management and Safety in UK Urban Areas
4. Renewable Energy Integration in Infrastructure: Assessing the Feasibility of Incorporating Solar and Wind Power into UK Civil Engineering Projects
5. Digital Twin Technology for Infrastructure Management: Implementing Digital Twins for Monitoring and Optimizing Performance of UK Infrastructure Assets
6. Circular Economy in Construction: Promoting Sustainable Practices and Minimizing Waste in the UK Building Industry
7. Resilient Coastal Engineering: Developing Innovative Solutions for Coastal Protection and Adaptation to Rising Sea Levels in the UK
8. BIM (Building Information Modeling) for Infrastructure Projects: Enhancing Collaboration and Efficiency in UK Civil Engineering Projects through BIM Implementation
9. Green Building Design and Certification: Evaluating the Environmental and Economic Benefits of Green Building Certifications in UK Construction
10. Community-Centric Infrastructure Development: Engaging Local Communities in the Planning and Design of UK Infrastructure Projects to Ensure Social Equity and Well-being

If you are exhausted from finding a suitable topic for a Civil Engineering Dissertation, feel welcome to visit Online Assignment Help . At our services, you will get expertise who will end all your dissertation problems and serve you with the best topic. We have PhD scholars with vast experience in academic writing. You can visit our website and a smooth interaction from our end is promised at a given point of the day.

Get your doubts & queries resolved anytime, anywhere.

Receive your order within the given deadline.

Get original assignments written from scratch.

Highly-qualified writers with unmatched writing skills.

Contact us for instant assignment help from expert writers in the UK!

Hi! We're here to answer your questions! Send us message, and we'll reply via WhatsApp

Pleae enter your phone number and we'll contact you shortly via Whatsapp

We will contact with you as soon as possible on whatsapp.

Ph.D. Writers For Best Assistance

Plagiarism Free

No AI Generated Content

offer valid for limited time only*

someone has bought

Get instant access to student account

Don't have an account? Sign Up

Already have an account? Sign In

Civil Engineering Dissertation Topics and Ideas

Get full help in disseration with 25% off.

Dissertation Dissertation Topics Dissertation-Abstract Dissertation Proposal Dissertation- Analysis Chapter Dissertation- Conclusion Chapter Dissertation- Introduction Chapter Dissertation- Literature Review Chapter Dissertation- Methodology Chapter Dissertation Editing and Proof Reading Essay Admission Essay Scholarship Essay Case Study Annotated Bibliography Assignment Book Report/Review Case Analysis Course Work Information and Communication/ Computer Technology Reaction Paper Research Paper Research Proposal Statistics Project Term Paper Thesis Thesis Proposal Laboratory Report Movie Review Multiple Choice Questions Power Point Presentation Article Speech Other

Engineering Dissertation Topics >
Civil Engineering Dissertation Topics and Ideas >
Table of Contents

Structure Your Dissertation Well With Some Cutting-Edge Civil Engineering Dissertation Topics

Civil Engineering is the disciple of engineering that is more focuses on the designing and construction as well as the maintenance of the infrastructure and environment. It is amongst the most important and sought-after subfields in the engineering category and serves a lot to the development of a society.

Whether it is the pipeline extending from your home or the school that you attended, Civil Engineering is everywhere. In fact, civil engineering has now been further divided into miscellaneous sub-categories owing to its growing importance.

Students of Civil Engineering have to prepare Civil Engineering dissertation ideas so they can graduate with ease. As such, they have to work on a civil engineering thesis topic as well.

Get An Immediate Response

Discuss your requirments with our writers

Get Free Customize Topics Now!

Select Your Academic Level Undergraduate Masters PhD Other

What is the Importance of Civil Engineering Dissertation Topics?

As with every other degree, the degree of Civil Engineering requires you to submit a dissertation so that your institute can judge your research skills and see what you have learned during your years in the degree.

The structure of a dissertation is such that, students have to work hard during the research and writing process both. It is not a simple essay that is easily written within a few hours. In fact, a dissertation can take on months and even years in the case of doctorate level degrees. Generating good PhD topics in civil engineering is not as easy.

The difficulty level is due to a number of factors, which include its structure as well.

What is the structure of a dissertation?

Acknowledgements
Introduction
Literature Review
Methodology
Analysis/Findings
Recommendations
References/Bibliography

As you can see, a dissertation is quite long and goes through tons of processes and research. The first and foremost is finalising your dissertation topic, which is definitely not easy either.

How to finalise a dissertation topic?

Read across areas of your interest
Pick some areas that you like
See what kind of research gaps exist
Check if you can contribute something
Make up around five topics at the least
Do not go too broad on the topics
Do not go too specific on the topics either
Ensure that there is enough room for research
Crosscheck if the topic has not been covered before
Consult a professional in finalising the topic

Again, the process is not as easy as it looks, if you do not put in any research. At undergraduate level, you are mostly left to your own and do not get the spoon-feeding that you do in high school. The same goes for graduate and doctorate programs.

Your topic has to be unique and something that has not been vastly covered before. At undergraduate level, you do not have to be entirely unique because the topic does not call for a new kind of contribution.

While choosing your topic, you should retain balance between being too broad and being too specific, so as to give yourself enough room for research. Do not just go with one topic and try your hand at least five.

If the process seems too overwhelming, a good solution is getting help from someone who is experienced, like a senior or a professional who works with dissertations.

Check out these Free Civil Engineering Dissertation Topics!

Finally, what you were waiting for! The ultimate and perhaps the best free Civil Engineering Dissertation Examples and Topics that will help you in conjuring up ideas for your dissertation.

Please note that these dissertation topics are meant to give you ideas and you can use them to make up new similar topics as well. These are free topics that we have developed with the help of our experts in Civil Engineering.

The free civil engineering topics for you!

An outlook of the world of Civil Engineering after the COVID-19 pandemic. How has life changed for the Civil Engineers in UK? What consequences have Civil Engineers faced after the COVID-19 pandemic?
An-depth study on sustainable technologies and construction materials.
Identifying the methods for making stronger bridges in hilly areas and regions. An in-depth research.
What kind of problems does a Civil Engineer have to deal with remote regions and areas? A case study of the Himalayas.
How can Civil Engineers work towards homes in hilly areas that are resistant to earthquakes?
Discussing the structure of transportation paths that are prone to land sliding. What are the newer and better methods for doing so?
The differences in the construction of bridges according to their topographical conditions. An in-depth discussion.
What are some ways that Civil Engineers can design buildings that are resistant to different kinds of natural disasters?
An in-depth discussion into the examples of methods of constructing traditional buildings that have proved successful in the field of Civil Engineering.
Discussing the importance of Civil Engineering in the construction of a home. Why do people continue to ignore its importance?
Exploring the best methods for the observation of the quality of the soil during the development of infrastructure.
How has the existence of Civil Engineers evolved and achieved popularity during the past century? A case study of the Great Britain.
What is the role of Hydrologic Forecasting in countering Climate Change in the North East regions of the world? How can Water Supply Systems contribute to it?
How does the seismic behaviour of concrete frames with jacketed columns manifest itself?
Exploring the influence that driver behaviour has in the speed selection process and other types of outcomes.
How have the lives of contractors and builders been affected due to the COVID-19 pandemic in terms of business? What can they do to procure tender opportunities continue businesses?
A detailed research for studying the properties of concrete for the purpose of achieving sustainability.

Still Having Trouble with Civil Engineering Dissertation Topics? Get our Help!

As we mentioned before, finalising a civil engineering dissertation topic by yourself can prove to be rather overwhelming. It is best that you have some support from a senior who has gone through the process before, or some professional that works with dissertations.

Lucky for you, Dissertation Writing Help is here with its team of writers and editors that are skilled in Civil Engineering and can help you in selecting the perfect topic for you!

All you have to do is, start chatting with a Live Chat Agent and ask regarding our services. Or, you can drop an email or phone us if you are short on time. Our customer support team will respond to you on all three places!

What are you waiting for now? Do not lose your chance for the perfect civil engineering dissertation topics and get in touch with us right away!

Frequently Asked Questions

Dissertation Queries
Order Queries

What are your payment methods?

Unlike other services, our payment methods are completely safe and globally authorized. Our payment methods include Credit Cards, Debit Cards, Secure merchants, and registered bank accounts. All the payment methods totally secured with 3M data security system. For any queries, you can contact us on the live chat anytime you want.

How do I track my dissertation order?

It is very easy to track your order on DissertationWritingHelp. When you place an order and it is confirmed, you will be given an order code. Later on, you can use that order code to track your order through the live chat feature available on our website.

How do I place an order for my dementia nursing dissertation?

Buying a dissertation is now easier than ever before. You can contact us using the live chat feature any time you want. Our highly qualified consultants are available to cater to all your needs 24/7. You can get complete guidance related to placing a dissertation online through our live chat. Besides that, you can contact us through the email or our contact number as well.

Is buying a dissertation online legal?

It is totally legit and safe to buy a dissertation online. You can contact us and place an order easily and get your dissertation written at a very cheap price. Your dissertation will be completely authentic written by our professional dissertation experts. We keep all of your data very confidential with high-grade encryption software. You don’t have to worry about anything after buying a dissertation from DissertationWritingHelp.

Can plagiarism get my dementia nursing dissertation rejected?

Yes! Plagiarism is one of the major factors for a dissertation to be rejected. You have to avoid copying anything from any source. If you are citing any existing research, make sure to give the author/researcher proper credits. If you are having a problem writing a plagiarism-free dissertation then you should reach out to us. We have field professionals available to help you write a top-notch dissertation at the best prices.

Are these dementia nursing dissertation topics free to use?

Absolutely! You can grab Unlimited dissertation topics from us anytime you want for free! If you are having trouble choosing the topic or if you want a customized topic you can reach out to us anytime you want; we offer dementia thesis topics and dissertation topics free of cost. Our trained team of dissertation writers is available to help you out 24/7!

Disclaimer: Kindly note that the work we provide is not the final version, it is research based work which you have to incorporate and edit according to your university requirements.

Dissertation Services

Dissertation Writing Service
Dissertation Assistance Service
Dissertation Consulting Service
Buy Dissertation
Dissertation Abstract Writing Services
Dissertation Formatting Service
Buy Dissertation Methodology
Dissertation Case Study Service
Pay For Dissertation
Dissertation Chapter Writing Services
Dissertation Conclusion Services
Dissertation Data Analysis Services
Dissertation Discussion Writing Services
Dissertation Introduction Writing Service
Dissertation Outline Service
Online Dissertation Help
Write My Dissertation
Do My Dissertation
Help With Thesis Writing Service
Dissertation Writing England
Dissertation Writing Service London
Dissertation Writing Northern Ireland
Dissertation Writing Scotland
Dissertation Writing Wales
Personal Statement Writing Service

Dissertation Subjects

Marketing Dissertation
Digital Marketing Dissertation
Law Dissertation Help
Economics Dissertation
Accounting Dissertation
Business Management Dissertation
Nursing Dissertation
Psychology Dissertation
Social Media Marketing Dissertation
English Literature Dissertation Help
Finance Dissertation
History Dissertation
HRM Dissertation
IT Dissertation
Linguistics Dissertation Help
Supply Chain Management Dissertation Help
Health And Social Care Dissertation

Dissertation Levels

Buy Master Dissertation
MBA Dissertation Writing Service
Buy PhD Dissertation
Masters Dissertation Proposal Help
MBA Dissertation Proposal Help
PhD Data Collection Services
PhD Dissertation Proposal Help
PhD Qualitative Data Analysis Services
Master Thesis Help
PhD Thesis Writing Help
PhD Dissertation Editing
Finance Dissertation Editing
Digital Marketing Dissertation Editing
Accounting Dissertation Editing
Sociology Dissertation Editing
English Literature Dissertation Editing
Economics Dissertation Editing
Linguistics Dissertation Editing
Business Management Dissertation Editing
Psychology Dissertation Editing
Marketing Dissertation Editing
Academic Poster Designing Services
Dissertation PowerPoint Presentation Service
Dissertation Presentation Writing Services
Literature Review Writing Service
Primary Data Collection Service
Qualitative Data Dissertation Services
Research Data Collection Service
Secondary Data Collection Help
DISSERTATION SERVICES
DISSERTATION SUBJECTS
DISSERTATION LEVELS
Buy MBA Dissertation
PhD Dissertation Editing Services

Hire a Writer

Get an expert writer for your academic paper

Check Samples

Take a look at samples for quality assurance

Dissertation Topics

Free customised dissertation topics for your assistance

Civil Engineering Dissertation Topics
Accounting Dissertation Topics (8)
Banking & Finance Dissertation Topics (10)
Business Management Dissertation Topics (35)
Economic Dissertation Topics (1)
Education Dissertation Topics (12)
Engineering Dissertation Topics (9)
English Literature Dissertation Topics (3)
HRM Dissertation Topics (3)
Law Dissertation Topics (13)
Marketing Dissertation Topics (9)
Medical Dissertation Topics (7)
Nursing Dissertation Topics (10)
Other Topics (10)
Supply Chain Dissertation Topics (2)
Biomedical Science (1)
Business Management Research Topics (1)
Computer Science Research Topics (1)
Criminology Research Topics (1)
Economics Research Topics (1)
Google Scholar Research Topics (1)
HR Research Topics (1)
Law Research Topics (1)
Management Research Topics (1)
Marketing Research Topics (1)
MBA Research Topics (1)
Medical Research Topics (1)
How To (22)

Get a native to improve your language & writing

Enjoy quality dissertation help on any topic

Qualitative & Quantitative data analysis

Perfect Civil Engineering Dissertation Topics You Wanted All Along

Date published June 28 2020 by Jacob Miller

Get Free Customize Topics Now

Academic Level Undergraduate Masters PhD Others

A good engineering dissertation topic can be the defining factor between you either acing your dissertation and becoming a valedictorian or you passing with bare minimum marks.

Civil engineering is a very vast field, due to which you can easily become overwhelmed when considering the perfect civil engineering dissertation topics. This is the reason our team of most talented academic writers in UK have made a list of the best engineering dissertation ideas you can find online.

How “Dissertation Proposal” Can Help You!

Our top dissertation writing experts are waiting 24/7 to assist you with your university project, from critical literature reviews to a complete masters dissertation.

Tour Our World-Class Civil Engineering Dissertation Ideas, Custom Tailored For You

These free civil engineering dissertation ideas are just the tip of the iceberg. Our senior dissertation specialists are just a click away from providing you with a list of winning engineering dissertation topics.

Consult Our Writers to Discuss Your Needs

View different varieties of dissertation topics and samples on multiple subjects for every educational level

Since the topic is the first thing that a reader will see and read, therefore it is recommended to spend a good amount of time on brainstorming for perfect civil engineering dissertation topics. For this you should read as much literature as you can. More topics you will have, the better the chances of landing on an ideal topic for your dissertation.

We at ‘Dissertation Proposal’ have senior expert writers that are readily available to assist you in your quest of finding the best engineering dissertation topics. Saving your precious time that can be utilized elsewhere in dissertation writing.

Not at all, all the dissertations follow almost the same formatting rules. Although it is a good practice to check which formatting rules your college or university accepts. Some common formatting rules are:

Size of the paper should be A4
The font of the dissertation should be “Times New Roman”
Font size should be between 10 and 12.
1.5 line spacing between each line
3.5 cm margin on the left (or the side the dissertation is going to be binded from)
2.5 cm margin for all other sides
Pagination i.e. except for the title page, every other page in the dissertation should be assigned a number (even the ones left blank).

Pro Tip: Check the document formatting again when converting to or from other file formats e.g. word à pdf or vice versa. There may be conversion glitches.

Our writers are masters of formatting the perfect dissertation for their customers. Being mindful of these small but impactful details is what makes us better than the rest in the market.

Like any other dissertation, the civil engineering dissertation can be anywhere from

100 pages to 300 pages long
or between 10000 to 15000 words

Although there is no fixed limit to any of it. The pages and words can vary according to the field of study and the title of the topic.

Depending on the

type of research involved

A dissertation can take from a few months to a few years to complete.

Our industry leading academic writers are so efficient in writing dissertations, that they always deliver on the assigned date and have never ever missed a deadline.

Yes, there is a slight difference between the weightage of engineering dissertation and other dissertations. The word count needs to be adjusted according to the weightage.

Dissertation weightage for other disciplines:

Introduction: 15%

Literature Review: 15%

Methodology: 35%

Result: 15%

Discussion: 2%

Conclusion: 15%

Reference: 3%

Dissertation weightage for engineering disciplines

Introduction: 3% - 10%

Literature Review: 8% - 30%

Methodology: 8% - 20%

Result: 15% - 60%

Discussion: 0%-10%

Conclusion: 1%

Reference: 2%

Only our market professional writers have the ability to be considerate and adjust the weightage and word counts for all the different types of dissertations.

Civil and Offshore Engineering Research Group

Civil Engineering Theses

Civil Engineering

Mainly soils.

Reinforced Soil
In-situ Testing
Sedimentation and Consolidation of Soft Clays
Unsaturated and Gassy Soils
Flow of Granular Materials
Environmental Applications

Mainly Structures

Structural Dynamics
Structural glass
Deployable Structures

Soils and Structures

Offshore Foundations and Structures
Tunnelling and Trenchless Technology
Finite Element Analysis
Distinct Element Modelling
Computational Hydraulics
Wind Engineering

Tidal Power

Alphabetical list.

Note 1: some theses may be listed under more than one heading Note 2: the degree that in other Universities is usually called "Ph.D." is in Oxford called "D.Phil."

REINFORCED SOIL

Unpaved roads.

Love, J.P. (1985) D.Phil. "Model Testing of Geogrids in Unpaved Roads" Download from the ORA website
Burd, H.J. (1986) D.Phil. "A Large Displacement Finite Element Analysis of a Reinforced Unpaved Road" Download from the ORA website
Fannin, R.J. (1986) D.Phil. "Geogrid Reinforcement of Granular Layers on Soft Clay - a Study at Model and Full Scale" Download from the ORA website
Brocklehurst, C.J. (1993) D.Phil. "Finite Element Studies of Reinforced and Unreinforced Two-Layer Soil Systems" Download from the ORA website

Other reinforced soil applications

Dyer, M.R. (1985) D.Phil. "Observation of the Stress Distribution in Crushed Glass with Applications to Soil Reinforcement" Download from the ORA website
Palmeira, E.M. (1987) D.Phil. "The Study of Soil Reinforcement Interaction by Means of Large Scale Laboratory Tests" Download from the ORA website
Pedley, M.J. (1990) D.Phil. "The Performance of Soil Reinforcement in Bending and Shear" Download from the ORA website
Tei, K. (1993) D.Phil. "A Study of Soil Nailing in Sand" Download from the ORA website

OFFSHORE FOUNDATIONS AND STRUCTURES

Gue, S.S. (1984) D.Phil. "Ground Heave Around Driven Piles in Clay" Download from the ORA website
Evans, K.M. (1987) D.Phil. "A Model Study of the End Bearing Capacity of Piles in Layered Calcareous Soils" Download from the ORA website
Coop, M.R. (1987) D.Phil. "Axial Capacity of Driven Piles in Clay" Download from the ORA website
Chaudhry, A.R. (1994) D.Phil. "Static Pile-Soil-Pile Interaction in Offshore Pile Groups" Download from the ORA website
Dash, S.R. (2010) D.Phil. "Lateral Pile-Soil Interaction in Liquefiable Soils" abstract | thesis (7.34MB, pdf)
Beuckelaers, W.J.A.P (2017) D.Phil. "Numerical Modelling of Laterally Loaded Piles for Offshore Wind Turbines" Download from the ORA website

Shallow foundations, jack-up units

de Santa Maria, P.E.L. (1988) D.Phil. "Behaviour of Footings for Offshore Structures under Combined Loads" Download from the ORA website
Bell, R.W. (1991) M.Sc. "The Analysis of Offshore Foundations Subjected to Combined Loading" Download from the ORA website
Martin, C.M. (1994) D.Phil. "Physical and Numerical Modelling of Offshore Foundations Under Combined Loads" Download from the ORA website
Thompson, R.S.G. (1996) D.Phil. "Development of Non-Linear Numerical Models Appropriate for the Analysis of Jack-up Units" Download from the ORA website
Ngo Tran, C.L. (1996) D.Phil. "The Analysis of Offshore Foundations Subjected to Combined Loading" Download from the ORA website
Mangal, J.K. (1999) D.Phil. "Partially Drained Loading of Shallow Foundations on Sand" Download from the ORA website
Cassidy, M.J. (1999) D.Phil. "Non-Linear Analysis of Jack-up Structures Subjected to Random Waves" Download from the ORA website
Byrne, B.W. (2000) D.Phil. "Investigations of Suction Caissons in Dense Sand" Download from the ORA website
Nguyen-Sy, L. (2005) D.Phil. "The Theoretical Modelling of Circular Shallow Foundation for Offshore Wind Turbines" Download from the ORA website
Villalobos Jara, F.A. (2006) D.Phil. "Model Testing of Foundations for Offshore Wind Turbines" Download from the ORA website
Hazell, E. (2008) D.Phil. "Numerical and Experimental Studies of Shallow Cone Penetration in Clay" Download from the ORA website
Cotter, O. (2009) D.Phil. "The Installation of Suction Cassion Foundations for Offshore Renewable Energy Structures" abstract | thesis (18.8Mb, pdf)
Sandford, R. (2012) D.Phil. "Lateral buckling of High-Pressure/High Temperature On-Bottom Pipelines" abstract | thesis (27.7mb, pdf)

IN-SITU TESTING

May, R.E. (1987) D.Phil. "A Study of the Piezocone Penetrometer in Normally Consolidated Clay" Download from the ORA website
Teh, C.I. (1987) D.Phil. "An Analytical Study of the Cone Penetration Test" Download from the ORA website
Nyirenda, Z.M. (1990) D.Phil. "Piezocone Studies in Lightly Overconsolidated Soil" Download from the ORA website
Schnaid, F. (1990) D.Phil. "A Study of the Cone- pressuremeter Test in Sand" Download from the ORA website
Yu, H.S. (1990) D.Phil. "Cavity Expansion Theory and its Application to the Analysis of Pressuremeters" Download from the ORA website
Nutt, N.R.F. (1993) D.Phil. "Development of the Cone Pressuremeter" Download from the ORA website
Smith, M.G. (1993) D.Phil. "A Laboratory Study of the Marchetti Dilatometer" Download from the ORA website
Yao, M. (1996) M.Sc. "A Study of the Effect of Length to Diameter Ratio on the Results of Pressuremeter Tests" Download from the ORA website

UNSATURATED AND GASSY SOILS

Nageswaran, S . (1983) D.Phil. "Effects of Gas Bubbles on the Sea-Bed Behaviour" Download from the ORA website
Wheeler, S.J. (1986) D.Phil. "Stress-Strain Behaviour of Soils Containing Gas Bubbles" Download from the ORA website
Gardner, T.N. (1988) D.Phil. "The Acoustic Properties of Gassy Soil" Download from the ORA website
Thomas, S.D. (1988) D.Phil. "The Consolidation Behaviour of Gassy Soil" Download from the ORA website
Sharma, R.S. (1998) D.Phil. "Mechanical Behaviour of Unsaturated Highly Expansive Clays" Download from the ORA website

SEDIMENTATION AND CONSOLIDATION OF SOFT CLAYS

Lee, K. (1979) D.Phil. "An Analytical and Experimental Study of Large Strain Consolidation" Download from the ORA website
Been, K. (1980) D.Phil. "Stress-Strain Behaviour of a Cohesive Soil Deposited Under Water" Download from the ORA website
Elder, D. McG. (1985) D.Phil. "Stress-Strain and Strength Behaviour of Very Soft Soil Sediment" Download from the ORA website
Bowden, R.K. (1988) D.Phil. "Compression Behaviour and Shear Strength Characteristics of a Natural Silty Clay Sedimented in the Laboratory" Download from the ORA website
Lee, M. (2000) M.Sc. "An Experimental and Analytical Study of Electrokinetic Consolidation" Download from the ORA website
Bartholomeeusen, G. (2003) D.Phil. "Compound Shock Waves and Creep Behaviour in Sediment Beds" Download from the ORA website
Lintern, D.G. (2003) D.Phil. "Influences of Flocculation on Bed Properties for Fine-Grained Cohesive Sediment" Download from the ORA website

TUNNELLING AND TRENCHLESS TECHNOLOGY

Pipejacking and pipebursting.

Ripley, K.J. (1989) D.Phil. "The Performance of Jacked Pipes" Download from the ORA website
Swee, J.L.K. (1991) D.Phil. "Pipebursting: Model Tests" abstract
Norris, P. (1992) D.Phil. "The Behaviour of Jacked Concrete Pipes During Site Installation" Download from the ORA website
Zhou, J.-Q. (1998) D.Phil. "Numerical Analysis and Laboratory Test of Concrete Jacking Pipes" Download from the ORA website
Marshall, M.A. (1998) D. Phil. "Pipe-Jacked Tunnelling: Jacking Loads and Ground Movements" Download from the ORA website
Psomas, S (2001) M.Sc. "Properties of Foam/Sand Mixtures for Tunnelling Applications" Download from the ORA website
Pena Duarte , M (2007) D.Phil. "Foam as a Soil Conditioner in Tunnelling: Physical and Mechanical Properties of Conditioned Sands" Download from the ORA website
Schupp, J. (2009) D.Phil. "Upheaval buckling and flotation of buried offshore pipelines" abstract | thesis (251mb, pdf)
Li, Y. (2015) M.Sc. "Lateral Buckling of On-bottom Pipelines in Sand" Download from the ORA website

Tunnelling (general)

Chow, L. (1994) M.Sc. "The Prediction of Surface Settlements Due to Tunnelling in Soft Ground" Download from the ORA website
Kim, S.-H. (1996) D.Phil. "Model Testing and Analysis of Interactions between Tunnels in Clay" Download from the ORA website
Liu Gang (1997) D.Phil. "Numerical Modelling of Damage to Masonry Buildings Due to Tunnelling" Download from the ORA website
Augarde, C.E. (1997) D.Phil. "Numerical Modelling of Tunnelling Processes for Assessment of Damage to Buildings" Download from the ORA website
Bloodworth, A.G. (2002) D.Phil. "Three-Dimensional Analysis of Tunnelling Effects on Structures to Develop Design Methods" Download from the ORA website
Pickhaver, J.A. (2006) D.Phil. "Numerical Modelling of Building Response to Tunnelling" Download from the ORA website

FLOW OF GRANULAR MATERIALS

Saperstein, L.W. (1967) D.Phil. "The Dynamics of Granular Solids" Download from the ORA website
Wilson, J. (1970) D.Phil. "Forces Exerted on Solid Bodies Moving Through Cohesionless Soils" abstract

ENVIRONMENTAL APPLICATIONS

Harbottle, M.J. (2003) D.Phil. "The Use of Electrokinetics to Enhance the Degradation of Organic Contaminants in Soils" Download from the ORA website
O'Mahoney, M.M. (1990) D.Phil. "Recycling of Materials in Civil Engineering" Download from the ORA website
Nguyen, G.D. (2005) D.Phil. "A Thermodynamic Approach to Constitutive Modelling of Concrete using Damage Mechanics and Plasticity Theory" Download from the ORA website

STRUCTURAL DYNAMICS

Falati, S. (1999) D.Phil. "The contribution of non-structural components to the overall dynamic behaviour of concrete floor slabs" Download from the ORA website
Williams, D.M. (2000) D.Phil. "Numerical Modelling of Real Time Sub-Structure testing" Download from the ORA website
Neild, S.A. (2001) D.Phil. "Using Non-Linear Vibration Techniques to Detect Damage in Concrete Bridges" Download from the ORA website
Clément, D.E. (2002) D.Phil. "Seismic Analysis of Knee Elements for Steel Frames" Download from the ORA website
Grey, M. (2006) M.Sc "Finite Element Seismic Analysis of Guyed Masts" Download from the ORA website
Bonnet, P.A. (2006) D.Phil "The Development of Multi-Axis Real-Time Substructure Testing" Download from the ORA website
Sim, J.H.H. (2006) D.Phil. "Human-Structure Interaction in Cantilever Grandstands" Download from the ORA website
Ehland, A. (2009) D.Phil. "Vibrations of precast and partially prestressed floor systems under moving loads" abstract | thesis (15.59Mb, pdf)
Ojaghi, M. (Makhzan Ojaghi, S. M.) (2010) D.Phil. "The Development of Real-Time Distributed Hybrid Testing for Earthquake Engineering" abstract
Nhleko, S. (2011) D.Phil. "Human-induced Lateral Excitation of Assembly Structures" Download from the ORA website
Whittle, J. (2011) D.Phil. "Strategic Placement of Viscous Dampers for Seismic Structural Design" Download from the ORA website
Claff, D.E. (2015) D.Phil. "Pedestrian-Induced Lateral Excitation of Footbridges" Download from the ORA website
Del Gobbo, G.M. (2017) D.Phil. "Placement of Fluid Viscous Dampers to Reduce Total-Building Seismic Damage" Download from the ORA website
Basagiannis, C.A. (2018) D.Phil. "Seismic Design and Evaluation of Moment Resisting Frames using Elastmeric Dampers" Download from the ORA website

STRUCTURAL GLASS

Crompton, P.R. (1999) M.Sc. "Assessment of Design Procedures for Structural Glass Beams" Download from the ORA website
Porter, M.I. (2001) D.Phil. "Aspects of Structural Design with Glass" Download from the ORA website

DEPLOYABLE STRUCTURES

Lengyel, A. (2002) D.Phil. "Analogy between Equilibrium of Structures and Compatibility of Mechanisms" Download from the ORA website
Chen, Y. (2003) D.Phil. "Design of Structural Mechanisms" Download from the ORA website
Kuribayashi, K. (2004) D.Phil. "A Novel Foldable Stent Graft" Download from the ORA website
Melin, N. (2004) D.Phil. "Application of Bennett Mechanisms to Long-Span Shelters" Download from the ORA website
Ma, J. (2011) D.Phil. "Thin-Walled Tubes with Pre-folded Origami Patterns as Energy Absorption Devices" abstract | thesis (3.08mb, pdf)
Gattas, J.M. (2013) D.Phil. "Quasi-Static Impact of Foldcore Sandwich Panels" Download from the ORA website
Li, Y. (2016) D.Phil. "Thin-Walled Structures for Energy Absorption" Download from the ORA website
Cao, Y. (2017) M.Sc. "Rigid origami of thick panels and deployable membranes" Download from the ORA Website
Zhang, B. (2017) D.Phil. "Bistable and Mutli-stable Thin-Walled Structures" Download from the ORA website
Xia, Y. (2017) D.Phil. "Novel Self-Expanding Stent Retractors for Neuroendoscopy" Download from the ORA website

FINITE ELEMENT ANALYSIS

A number of other theses make use of Finite Element Analysis, but the following concentrate principally on this area of work.

Liu, G. (1997) D.Phil. "Numerical Modelling of Damage to Masonry Buildings Due to Tunnelling" Download from the ORA website
Bloodworth, A.G. (2002) D.Phil. "Three Dimensional Analysis of Tunnelling Effects on Structures to Develop Design Methods" Download from the ORA website
Likitlersuang, S. (2003) D.Phil. "A Hyperplasticity Model For Clay Behaviour: An Application To Bangkok Clay" Download from the ORA website
Dong, Y. (2014) D.Phil. "Advanced Finite Element Analysis of Deep Excavation Case Histories" Download from the ORA website
Dunne, H.P. (2017) D.Phil. "Finite Element Limit Analysis of Offshore Foundations on Clay" Download from the ORA website
Yiu, W.N. (2018) D.Phil. "Finite Element Analysis of Short-Term and Long-Term Building Response to Tunnelling" Download from the ORA website

DISTINCT ELEMENT MODELLING

Boon, C.W. (2013) D.Phil. "Distinct Element Modelling of Jointed Rock Masses: Algorithms and their Verification" Download from the ORA website
Modenese, C. (2013) D.Phil "Numerical Study of the Mechanical Properties of Lunar Soil by the Discrete Element Method" Download from the ORA website
Zhao, T. (2014) D.Phil "Investigation of Landslide-Induced Debris Flows by the DEM and CFD" Abstract | Thesis (6.65Mb, pdf)

COMPUTATIONAL HYDRAULICS

Kaar, E.T. (1991) D.Phil. "Curvilinear Systems Modelling of Pollutant Transport in Shallow Waters" abstract
Akponasa, G.A. (1992) D.Phil. "Solution of the Contravariant Shallow Water Equations Using Boundary-Fitted Coordinate Systems" abstract
Greaves, D.M. (1995) D.Phil. "Numerical modelling of laminar separated flows and inviscid steep waves using adaptive hierarchical meshes" abstract
Saalehi, A. (1996) D.Phil. "Quadtree-based finite element modelling of laminar separated flow past a cylinder" abstract
Cruz Leon, S. (1997) D.Phil. "Numerical Solution of the Shallow Water Equations on Quadtree Grids" abstract
Chern, M.-J. (1999) D.Phil. "3-D pseudospectral model of free surface and viscous flows"
Park, K.-Y. (1999) D.Phil. "Quadtree grid numerical model of nearshore wave-current interaction"
Turnbull, M. (1999) D.Phil. "The numerical modelling of steep waves interacting with structures" Download from the ORA website
Ohl, C. (2000) D.Phil. "Free surface disturbances and non-linear run-up around offshore structures" Download from the ORA website

WIND ENGINEERING

Gumley, S.J. (1981) D.Phil. "Tubing Systems for the Measurement of Fluctuating Pressures" abstract
Green, D.W. R. (1983) D.Phil. "A Wind Tunnel Study of Flow Over Hills" abstract
Rutledge, K.W. (1984) D.Phil. "Wind Tunnel Modelling of Buoyant Plumes" Download from the ORA website
Letchford, C.W. (1987) D.Phil. "Pneumatic Averaging and its Application in Wind Engineering" abstract
Tasker, M.N. (1987) D.Phil. "The Effect of Heat Transfer on the Dispersion of Cold Dense Gases" abstract
Parkinson, H.G. (1987) D.Phil. "Measurements of Wind Flow Over Models of a Hill" abstract
Minson, A.J. (1993) D.Phil. "Use of Laser Doppler Anemometer Measurements near Model Buildings to Determine Wind Loading on Building Attachments" abstract
Marwood, R. (1996) D.Phil. "An Investigation of Conical Roof-Edge Vortices" Download from the ORA website
Marshall, B. J. (1999) D.Phil. "Wind Flow Structures and Wind Forces in Forests" Download from the ORA website
Nelmes, S.J. (1999) D.Phil. "Design of Shetlerbelts" abstract
Draper, S. (2011) D.Phil. Tidal Stream Energy Extraction in Caostal Basins" abstract | Thesis (8.38mb, pdf)
McAdam, R. (2011) D.Phil. "Studies into the Technical Feasibility of the Transverse Horizontal Axis Water Turbine" Download from the ORA website
Consul, C.A. (2011) D.Phil. "Hydrodynamcis Analysis of a Tidal Cross-Flow Turbine" Download from the ORA website
Ferrer, E. (2012) D.Phil. "A high order Discontinuous Galerkin - Fourier incompressible 3D Navier-Stokes solver with rotating sliding meshes for simulating cross-flow turbines" Download from the ORA website
Belloni, C. (2013) D.Phil. "Hydrodynamics of Ducted and Open-Centre Tidal Turbines" abstract | thesis (1.5Mb, pdf)
Serhadlioglu, S. (2014) D.Phil. "Tidal Stream Resource Assessment of Anglesey Skerries and the Bristol Channel" Download from the ORA website
Fleming, C.F. (2014) D.Phil. "Tidal Turbine Performance in the Offshore Environment" Download from the ORA website
Vogel, C.R. (2014) D.Phil. "Theoretical Limits to Tidal Stream Energy Extraction" abstract | thesis (4.88Mb, pdf)
Schluntz, J. (2014) D.Phil. "Tidal Tubine Array Modelling" Download from the ORA website
Hunter, W. (2015) D.Phil. "Actuator Disk Methods for Tidal Turbine Arrays" abstract | thesis (5.8mb, pdf)
Cooke, S. (2016) D.Phil "Enhanced array design for tidal power generation" Download from the ORA website
Gao, C. (2017) M.Sc. "Analysis of storm surge and tidal resonance in the Bristol channel" abstract | thesis (4.65Mb, pdf)
Muchala, S. (2017) D.Phil. "Impact of Tidal Turbine Support Structures on Realizable Turbine Farm Power" Download from the ORA website
Wimshurst, A . (2018) D.Phil. "Tip Flow Corrections for Horizontal Axis Wind and Tidal Turbine Rotors" Download from the ORA website

Theses from other Universities

The following theses from other Universities are also available:

Houlsby, G.T. (1981) Ph.D., Cambridge University "A study of plasticity theories and their applicability to soil" Thesis (Cambridge Univeristy repository)
Williams, M.S. (1988) Ph.D., Bristol University "The cutting of unbonded prestressing tendons during demolition"

Obtaining copies of theses

Copies of most theses are available as pdf files for downloading.

You will need Adobe Reader to view the PDF files. If you don't already have Adobe Reader, you can download it from the Adobe website by clicking on the image below and following the instructions provided by Adobe.

Buy Dissertation UK
Dissertation Writing
Law Dissertation Writing
Dissertation Conclusion Writing
Dissertation Introduction Writing
Dissertation Methodology Help
Dissertation Proposal Writing
Dissertation Statistics Help
Pay For Dissertation
Qualitative Data Dissertation
Write My Dissertation UK
Dissertation Abstract Writing
Dissertation Literature Review Help
Dissertation Discussion Writing
Dissertation Writing Service in London

Best Civil Engineering Dissertation Topics, Ideas & Suggestions

Home » Ideas » Science Dissertation Topics » Best Civil Engineering Dissertation Topics, Ideas & Suggestions

Updated: December 9, 2023

It's fast and risk-free

A world which is full of possibilities for innovation and practical relevance exists to be uncovered when researching suitable dissertation topics in civil engineering. Learners get the opportunity to explore various engaging research topics from the development of environment-friendly urban surroundings to the development of the building engineering process.

An interesting area of study is how to boost durability and performance in urban areas through the use of advanced pieces of equipment. Use dissertation help services online to gain insight into the world of civil engineering. From the innovative study of material to ecological development, our expert guidance will lead via creative ideas that will have a good impact in the future.

List Of Civil Engineering Dissertation Topics In the UK

Studying the ever-evolving discipline of civil engineering pushes the boundaries and creates new possibilities. Science dissertation topics help you to embark on a path of discovery, analysis and significant improvements to the physical world alongside our assistance.

It may seem like you’re driving into new territory but worry not- as we’ve got you back. Our team of experts have compiled a wide range of excellent dissertation topic ideas. These science dissertation topics rapidly evolving fields of civil engineering that will help you advance in your academics.

Whether you are looking for fresh ideas or enhancement in the performance of your dissertation topic, our expert guide is available on the site. Do reach out to us for any query and we are open to new suggestions as well.

1. Evaluating the Effects of Big City Development and Demolition of Buildings on Noise Pollution: A Comprehensive Study

The aim of this study is to conduct a comprehensive for evaluating the effects of big city development and demolition of buildings on noise pollution. Following are the research objectives that are formulated to be achieved in this study:

To study the concept of big city development and demolition of buildings
To determine the factors promoting the demolition of buildings for infrastructure improvement
To evaluating the effects of big city development and demolition of buildings on noise pollution

2. Analysing the Role of Activated Flash Binder in Adjustments of Pavement and Cracking Control and Maintenance in Concrete

This study intends to analyse the role of activated flash binder in adjustments of pavement and cracking control and maintenance in concrete. In order to achieve this aim, following research objectives are formulated to be achieved:

To study the importance of activated flash binder in the construction
To determine the factors causing cracks in concrete and affecting the concrete performance
To examine the use of activated flash as a binder in pavement adjustments to allow acceptable tension reinforcing stresses to control cracking

3. Demonstrating the Role of Concrete in attaining Sustainability of Construction Projects: A Literature Review

The aim of the study is conduct a literature review for demonstrating the role of concrete in attaining sustainability. Following research objectives will help researcher to attain this main aim of the study:

The study the concept of sustainability in the construction industry
To determine the role of concrete in attaining sustainability of construction projects
To evaluate the effects of concrete performance and attributes on sustainability of construction projects

4. Exploring how Waste Reduction Approaches help Civil Engineers to promote Development of Sustainable Buildings in Developing Economies

This study is specifically determined to explore the role of waste reduction approaches in assisting civil engineers to promote development of sustainable buildings in developing economies.

To study the concept of sustainable buildings in developing economies
To determine the parameters that are essential to be considered while designing sustainable buildings
To explore the role of waste reduction approaches in assisting civil engineers to promote development of sustainable buildings in developing economies.

5. Significance of Building Information Modelling (BIM) in Automating the Process of Construction

This research is aimed at evaluating the significance of building information modelling (bim) in automating the process of construction. To achieve this aim, following research objectives have been formulated:

To study the innovation of BIM in construction
To determine the patterns or methods that BIM apply to advance the process of construction
To evaluate the significance of building information modelling (bim) in automating the process of construction

6. Demonstrating how Stormwater can be managed on the basis of Green Infrastructure

The aim of the study is to demonstrate how stormwater can be managed on the basis of green infrastructure. The objectives of the study are:

To study the concept of green infrastructure
To analyse the impact of stormwater on construction sites and projects
To evaluate the role of green infrastructure in managing the issue of stormwater

7. Analysing the Strategies used to Develop Rural Housing at Low Cost through improving Infrastructure Management

This research is aimed at analysing the strategies that can be used to develop rural housing at low cost through improving infrastructure management. The objectives that are formulated to be achieved in this study are:

To study the concept of rural housing
To determine the policies that have been developed to improved lives of people living in rural regions
To analyse the impact of strategies used to develop rural housing at low cost on infrastructure management

8. Examining the Impact of Workers and Contractors Shortages on Project Management of Civil Engineering Projects due to COVID-19 pandemic

This study is determined to examine the impact of workers and contractors shortages on project management of civil engineering projects due to covid-19 pandemic. The objectives of the study are:

To study the notion of project management in civil engineering projects
To determine the challenges faced by civil engineers while managing projects during COVID-19
To evaluate impact of workers and contractors shortages on project management of civil engineering projects due to covid-19 pandemic and strategies used to overcome this issue

9. Role of Steelwork Connection in Stimulating the Deflection in the Fire: A Systematic Review

The aim of this study is to conduct a systematic review for analysing the role of steelwork connection in stimulating the deflection in the fire. Following are the research objectives that are formulated to be achieved in this study:

To study the importance of deflection in the fire
To determine the factors that promote the usage of steelwork in the construction
To analyse the role of steelwork connection in stimulating the deflection in the fire

10. Studying the Characteristics and Mechanics of Granular Materials used in the Construction of Earth-Rock-Filled Dams

The purpose of this study is to identify the mechanics and characteristics of granular materials used in the construction of earth-rock-filled dams. The objectives of the study are:

To study the importance of granular materials in construction
To determine the mechanics and characteristics of granular materials in the construction of earth-rock-filled dams
To evaluate the impact of mechanics of granular materials on the functionality and performance of earth-rock-filled dams

11. Exploring the Distinction between Sustainable Manufacturing and Lean Manufacturing of Materials used in Construction Projects: A Comparative Study.

The aim of this study is to conduct a comparative study for exploring the distinction between sustainable manufacturing and lean manufacturing of materials used in construction projects. Following are the objectives that are formulated to be achieved in this study:

To study the concept of sustainable manufacturing and lean manufacturing
To evaluate the characteristics of sustainable manufacturing and lean manufacturing materials used in the construction projects
To analyse the difference between sustainable manufacturing and lean manufacturing materials and their impact on performance of construction projects

12. Does Concrete Properties and Quality affect the Construction of Civil Engineering Projects? An Investigative Study

This research is aimed at conducting an investigative study to analyse the concrete properties and quality and their effects on construction of civil engineering projects. To achieve this aim, following research objectives have been formulated:

To determine the types and uses of concrete in construction
To determine the properties and quality parameter of concrete that should be present while using in construction projects
To analyse effects of concrete properties and quality on construction and performance of civil engineering projects

13. Importance of Renewable Energy Sources in reducing Shortages of Electricity in Developing Countries

The aim of this study is to evaluate the importance of renewable energy sources in reducing shortages of electricity in developing countries. Following are the objectives that are formulated to be achieved in this study:

To study the concept of renewable energy sources
To determine the factors causes shortages of electricity in developing countries
To analyse the importance of renewable energy sources in reducing shortages of electricity in developing countries

14. Analysing the Effects of Seismic Design of Cold Formed Steel Structures on Construction of Residential Buildings

This research is aimed at analysing the effects of seismic design of cold formed steel structures on construction of residential buildings. To achieve this aim, following research objectives have been formulated:

To study the concept of seismic design in construction
To determine the factors considered while designing cold formed steel structures
To analyse the effects of seismic design of cold formed steel structures on construction of residential buildings

15. Evaluating the Mechanical Behaviour and Characteristics Bearings of Bridges Constructed with Concrete

The aim of this study is to evaluate the mechanical behaviour and characteristics bearings of bridges constructed with concrete. Following are the objectives that are formulated to be achieved in this study:

To analyse the uses of bearings while constructing bridges
To determine the mechanical behaviour and characteristics bearings of bridges constructed with concrete
To evaluate the impact of bearings of bridges and their behaviour on performance of bridges constructed with concrete

16. A Critical Analysis of Barriers and Challenges Civil Engineer experience while Constructing Large-Scale Green Roof in Residential Projects

This study intends to critically analyse the barriers and challenges civil engineer experience while constructing large-scale green roof. The objectives of the study are:

To study the concept of green roofing in construction
To determine the barriers and challenges that civil engineer may experience while constructing large-scale green roof in residential projects
To analyse the impact of large-scale green roof on improvement of designing and constructing residential projects

17. Exploring the Importance of Electric Bicycles Development in Reducing Ecological Footprints and Contamination

This study is aimed at exploring the importance of electric bicycles development in reducing ecological footprints and contamination. To achieve this aim, following research objectives have been formulated:

To study the innovation of electric bicycles development
To determine the factors that cause ecological footprints and contamination
To explore the importance of electric bicycles development in reducing ecological footprints and contamination

18. Analysing the Role of BIM in Enhancing Visualisation and Designing of Construction Projects: A Review

This study is determined to analyse the role of BIM in enhancing visualisation and designing of construction projects. The objectives of the study are:

To study the concept of BIM in the construction projects
To determine the attributes of BIM that help construction managers to modulate the designing of construction projects
To analyse the role of BIM in enhancing visualisation and designing of construction projects

19. Determining the Relationship between Collaboration and Risk Management in BIM Projects

The aim of this study is to determine the relationship between collaboration and risk management in BIM projects. In order to achieve this aim, following objectives are formulated:

To study the concept of risk management in BIM projects
To determine the relationship between collaboration and risk management in BIM projects
To analyse the impact of collaboration and risk management on the effectiveness and completion of BIM projects

20. Role of Computational Modelling and Mechanics in Proposing Innovative Strategies for Bridge Designs and Construction

This research study is aimed at evaluating the role of computational modelling and mechanics in proposing innovative strategies for bridge designs and construction. The objectives of the study are:

To study the innovations of computational modelling and mechanics in the construction
To identify the strategies that are introduced to innovatively design and construct bridges
To evaluate the role of computational modelling and mechanics in proposing innovative strategies for bridge designs and construction

Best Civil Engineering Dissertation Topics, Ideas & Suggestions. (2024, March 14). Retrieved from DissertationHelpServices website: https://dissertationhelpservices.uk/civil-engineering-dissertation-topics/.

Best Civil Engineering Dissertation Topics, Ideas & Suggestions. (2024, March 14). DissertationHelpServices. https://dissertationhelpservices.uk/civil-engineering-dissertation-topics/

Works Cited

“Best Civil Engineering Dissertation Topics, Ideas & Suggestions.” DissertationHelpServices, 14 Mar. 2024, dissertationhelpservices.uk/civil-engineering-dissertation-topics/.

Bibliography

DissertationHelpServices. “Best Civil Engineering Dissertation Topics, Ideas & Suggestions,” March 14, 2024. https://dissertationhelpservices.uk/civil-engineering-dissertation-topics/.

“Best Civil Engineering Dissertation Topics, Ideas & Suggestions.” 2024. DissertationHelpServices. March 14, 2024. https://dissertationhelpservices.uk/civil-engineering-dissertation-topics/.

Reference list

DissertationHelpServices. (2024). Best Civil Engineering Dissertation Topics, Ideas & Suggestions. [online] Available at: https://dissertationhelpservices.uk/civil-engineering-dissertation-topics/.

Have Any Question in Mind Let’s Discuss Together

Be advised that this service is completely legal and does not infringe any college/university law. The paper received from our company may be used as a source for a deeper comprehension on the subject, or as a source for your own academic research. Please be also aware on how to cite any taken insights. To review rules on rephrasing please refer to your institution plagiarism policy. Site management.

Useful Links

The Library : Civil Engineering

Top tips from your academic librarians.

Book an appointment with your Academic Librarians who can help you find resources including journal articles, statistics and more.
Use the Skills for Learning website for step-by-step guidance on how to plan and manage your workload, and how to structure your dissertation.
Search Discover for books on how to write your dissertation.
Look at the Discover FAQs to get the most out of using this resource.

You may also wish to explore our page on Dissertations and the Skills for Learning pages on Finding Information and Literature Reviews .

Writing your report

Writing your dissertation

What other help is available?

Skills for Learning offers support on a variety of academic writing skills: report writing, writing skills for international students, literature reviews and time management advice. See the Skills for Learning website for step by step guidance on how to plan and manage your workload, and how to structure your dissertation.

They also run workshops, bookable via MyHub, on topics such as:

Word for dissertations and reports
Statistics 2 - analysing your data
Intermediate SPSS

Collections of dissertations and theses

The DART-Europe portal offers free access to full text European doctoral theses - over 1 million open access research theses from over 500 universities in 29 European countries.

Accessibility information.

27/11/23 Please see the latest from The British Library as EThOS remains unavailable due to a cyberattack. As a precaution, the British Library has recommended that if you have a password for British Library services that you use for other websites or services, that you change it on those other accounts.

Access to ALL theses produced by UK Higher Education for researchers Worldwide. You can search the EThOS database without having to register. You do, however, need to register and log in if you want to download a thesis from EThOS or to order digitisation of a thesis.

Provides access to 5 million citations to dissertations and theses from around the world, with nearly 3 million full text dissertations available for download. Please note that, despite global coverage, much of the content is North American.

Accessibility statement for ProQuest

Within Leeds Beckett

You can search the University repository for past Leeds Beckett research and the Thesis and Research Data Repository (Figshare) contains online postgraduate research theses/dissertations from Leeds Beckett students.

The Library also has some hard copies of old dissertations and theses. You can consult these to see how previous students conducted and presented their work.

Search on Discover for dissertations and theses held in the Library:

Your Academic Librarians

[Contact the Library - Floating Box]

Contact the Library

0113 812 1000

University Disclaimer
Accessibility

Edinburgh Research Archive

ERA Home
Engineering, School of

Engineering thesis and dissertation collection

By Issue Date Authors Titles Subjects Publication Type Sponsor Supervisors

Search within this Collection:

Recent Submissions

Operational data mining for offshore wind farm maintenance , dynamics of rigid and soft particles in a cross-slot flow at finite inertia , using machine learning for long-term track bed behaviour analysis and maintenance scheduling optimisation , developing a multi-scale parallelised coupled system for wave-current interactions at regional scales , uav-aided hybrid rf-optical wireless networks , turbulence in real-sea conditions and its impacts on tidal energy devices , investigating the role of mechanical and structural properties of scaffolds for cartilage tissue engineering , additive manufacturing of polyaniline-based electrodes for energy storage and memristive devices , modelling and optimisation of monolithic solid-to-gas heat exchangers , nanostructured metal-organic frameworks with exceptional thermal and hydrothermal stability: synthesis, characterisation and applications in environmental remediation , water tunnel testing of highly-cambered plates and wings for downwind yacht sail applications , impedance-optical dual-modal imaging for tissue engineering , deep learning-enhanced 3d direct time-of-flight imaging , radical innovation for the wave energy sector: an investigation of the potential of direct conversion as an enabling technology , data-driven and machine learning-based approaches for mobile indoor positioning , intelligent ultrasound hand gesture recognition system , techno-economic assessment of solar panel integration onto a wave energy converter , reliable indoor optical wireless communication in the presence of fixed and random blockers , energy storage design and integration in power systems by system-value optimization , continuous flow synthesis of hypercrosslinked polymers (hcps) and its environmental impact evaluation .

Dissertation Services

Dissertation Writing Services
Buy Dissertation
Write My Dissertation
Do My Dissertation
Dissertation Proposal Help
Help With Thesis Writing Services
Literature Review Services
Research Proposal Writing Services

Dissertation Subjects

Marketing Dissertation
Economic Dissertation
Accounting Dissertation
Business Management Dissertation
Nursing Dissertation
Psychology Dissertation
Social Media Marketing Dissertation
Law Dissertation
English Literature Dissertation
Finance Dissertation
History Dissertation
IT Dissertation
Linguistics Dissertation
Supply Chain Management Dissertation
Digital Marketing Dissertation
HRM Dissertation

Dissertation Levels

Buy PHD Dissertation
Buy Master Dissertation
Buy Bachelor Dissertation
Buy MBA dissertation
Social Media Marketing Dissertation Topics
Google Scholar Research Topics
Economic Dissertation Topics
Medical Law Dissertation Topics
Marketing Dissertation Topics
Financial And Accounting Dissertation Topics
Business Management Dissertation Topics
Nursing Dissertation Topics
Child Nursing Dissertation Topics
Special Education Dissertation Topics
Business Dissertation Topics
Project Management Dissertation Topics
Criminal Law Dissertation Topics
Sociology Dissertation Topics
Political Economy Dissertation Topics
Company Law Dissertation Topics
Law Dissertation Topics
MSC Nursing Dissertation Topics
Pediatric Nursing Dissertation Topics
Critical Care Nursing Dissertation Topics
International Relations Dissertation Topics
Marketing Research Topics
Digital Marketing Dissertation Topics
MA English Literature Dissertation Topics
HRM Dissertation Topics
Primary Education Dissertation Topics
Fashion Marketing Dissertation Topics
Logistics Dissertation Topics
Educational Psychology Dissertation Topics
Supply Chain Management Dissertation Topics
Innovation Management Dissertation Topics
Family Law Dissertation Topics
Human Rights Law Dissertation Topics
Events Management Dissertation Topics
Employment Law Dissertation Topics
Real Estate Dissertation Topics
Civil Engineering Dissertation Topics
Tourism And Hospitality Dissertation Topics
Aerospace Engineering Dissertation Topics
Luxury Brand Dissertation Topics
Linguistic Research Topics
Mental Health Nursing Dissertation Topics
Graphic Designing Dissertation Topics
MBA Finance Dissertation Topics
Waste Management Dissertation Topics
Tax Law Dissertation Topics

></center></p><h2>+44 7588 418156</h2><p>Dissertation topics in civil engineering that will astonish your readers, topics for civil engineering dissertations and thesis, how “dissertation experts uk” can help you.</p><p>The goal of this exploratory study is to examine the effect that the dynamics of civil distribution systems have on the amount of civil pipe leakage that occurs in high-rise buildings. Due to the fact that leaks are currently observed in all civil distribution systems, this topic was chosen. However, researchers have been looking into specific kinds of systems that can significantly reduce civil leakage. Aside from this, the focus of this study has been on this particular topic because very few studies have looked at how civil distribution systems affect civil pipe leaks.</p><p>Secondary Goals This study’s secondary goals, which are listed below, can help achieve the study’s goal:</p><ul><li>To decide and assess factors responsible for significantly expanded spillage types.</li><li>To evaluate leakage techniques that focus on determining how much civil leaks from a high-rise building’s civil distribution pipe. Somebody can Do My Dissertation For Me? We are here to fulfil your requirements as per your course instruction.</li><li>To investigate leakage control models that have the potential to significantly aid in the effective control of current and future leakage levels.</li><li>To investigate the effects of leakage on the sustainability of high-rise buildings, their surroundings, and the health and safety concerns of the people who live there.</li></ul><p>The purpose of this study is to carry out an exploratory study using physical modelling to gain an understanding of urban flooding. One of the most widely used methods for comprehending urban flooding is physical modelling. As a result, the goal of this research is to assess the usefulness of physical modelling. The primary objective of this study is to accomplish the research objective, which is to carry out an exploratory study using physical modelling to comprehend urban flooding. The following are the research’s secondary goals:</p><ul><li>To evaluate flooding in cities.</li><li>To utilise physical modelling to comprehend urban flooding.</li><li>To evaluate the dangers of urban flooding using the dual drainage hydraulic.</li></ul><p>The study’s objective was to investigate the utilisation of a HYBRID ANAEROBIC BAFFLED REACTOR (HABR) to decrease Biological Oxygen Demand (BOD) and Chemical Oxygen Demand (COD) while simultaneously producing a high-quality byproduct from the spent wash of molasses. The review will be the exploratory condition examination, for example, the concrete of the arrangement, pH of the arrangement and the NPK amount existing in slime for the immediate use. Objectives: The wastewater treatment system used in the sugar industry will be the subject of the study. The point of the review can be accomplished through auxiliary targets. As a result, the following are the study’s secondary goals:</p><ul><li>To examine the variation in COD content in relation to various Hydraulic Retention Times (HRT).</li><li>To investigate the variation in BOD content in relation to various HRTs.</li><li>To investigate the variation in Total suspended Solid (TSS) content in relation to various HRTs.</li><li>To investigate the shift over the course of treatment in relation to various HRTs.</li><li>To obtain the reactor’s best HRTs.</li><li>To investigate the use of anaerobic digestion as a comprehensive strategy for lowering COD and BOD.</li></ul><p>The study’s objective is to compare the groundwater and surface water treatment processes. The exploration means to concentrate on the utilisation of bio-coagulant for the treatment. Objective: The achievement of the study’s goal is the primary objective. Secondary objectives, on the other hand, can help achieve the objective. As a result, the following are the study’s secondary goals:</p><ul><li>To examine the idea of treating groundwater.</li><li>To concentrate on the idea of surface civil treatment.</li><li>To examine the treatment’s use of a bio coagulant.</li><li>To contrast and contrast the differences between treating surface civil and treating groundwater.</li><li>To investigate the features of groundwater treatment.</li><li>To investigate the features of surface civil treatment.</li><li>To research how the turbidity level and the bacteriological pollutants can be decreased through regular coagulant which is locally accessible.</li><li>To determine ways to simplify the civil treatment procedure for household use.</li></ul><h2>Prices From</h2><p>Standard 2:2 | 1000 words | 10 days delivery, delivered on-time or your money back, guaranted features.</p><ul><li>Limitless Amendments</li><li>Bibliography</li><li>Plagiarism Report</li></ul><h2>Ready To Place Your Dissertation writing service Order</h2><ul><li>Info@dissertationexpertsuk.co.uk</li><li>+44 7450 001361</li></ul><h2>Click to Chat</h2><ul><li>56 Shoreditch High Street London, E1 6JJ United Kingdom</li><li>Follow us on Social Media</li></ul><h2>Quick links</h2><ul><li>Plagiarism Checker</li></ul><h2>Useful Resources</h2><ul><li>Privacy Policy</li><li>Terms and Conditions</li></ul><h2>PAYMENT & SECURITY</h2><p>Copyright 2024 dissertation experts uk.</p><p>Automated page speed optimizations for fast site performance</p><p><center><img style=

UKnowledge > College of Engineering > Civil Engineering > Theses & Dissertations

Theses and Dissertations--Civil Engineering

Theses/dissertations from 2024 2024.

EFFECT OF ADMIXTURES ON RAPID HARDENING, SELF-CONSOLIDATING CONCRETE , Haley Johnson

Quantitative Sustainable Design of Urban Tree Soil Cells for Stormwater Management , JaMaya Wilson

Theses/Dissertations from 2023 2023

DIGITAL TWINS FOR ANCILLARY TRANSPORTATION ASSET DATA MANAGEMENT , Ashtarout Ammar

Value Propositions, Adoption Factors, and Implementation Considerations: Building A Path Towards Construction Innovation , Makram Bou Bou Hatoum

CLUSTERING STATES TO IMPROVE THE STRATEGIC HIGHWAY SAFETY PLAN , Victoria Cambron

HISTORICAL AND FORECASTED KENTUCKY SPECIFIC SLOPE STABILITY ANALYSES USING REMOTELY RETRIEVED HYDROLOGIC AND GEOMORPHOLOGIC DATA , Daniel M. Francis

PREDICTION OF CHLORINE AND DISINFECTION BYPRODUCT CONCENTRATION IN WATER DISTRIBUTION SYSTEMS USING KYPIPE AND TTHM REGRESSION MODELS: APPLICATION TO TWO SYSTEMS IN KENTUCKY , Yogesh Gautam

Implementation of Digital Twins for Small Water Systems , Aidan Gill

DO TRANSPORTATION NETWORK COMPANIES AFFECT ROAD SAFETY OUTCOMES: A SPATIALLY DETAILED ANALYSIS IN SAN FRANCISCO , Vedant Shriniwas Goyal

QUALITY CONTROL METHODS THROUGH PRE-DETERMINATION OF FIELDS FOR usRAP PROJECTS , Zachary Heath

ESTIMATING THE EFFECTIVENESS OF INCENTIVES ON THE ADOPTION OF ELECTRIC VEHICLES , Michelle O. Imarah

Quantitative Microbial Risk Assessment (QMRA) For Urban Stormwater Reuse After Treatment Through A Bioretention System , ISAAC OLUK

Rollout of a Digital Comprehensive Safety Management System in a Large Public Agency: A Case Study with Kentucky Transportation Cabinet , Salena Pham

Theses/Dissertations from 2022 2022

DEVELOPMENT OF A DECISION-MAKING TOOL FOR PREDICTION OF RAINFALL-INDUCED LANDSLIDES , Faisal Shakib Ahmed

Identifying and Evaluating the Perceptions of Near-Miss Reporting within the Kentucky Transportation Cabinet , Seth Atkins

ADAPTING THROUGH ORGANIZATIONAL CHANGE IN CAPITAL PROJECTS ORGANIZATIONS , Mahmoud El Jazzar

Accuracy and Uncertainty in Traffic and Transit Ridership Forecasts , Jawad Mahmud Hoque

Induced Travel Demand: Measuring the Contribution of Additional Lane Miles on the Increase in U.S. Vehicle Miles Traveled from 1980 to 2019 , Brandon Ivanchak

EVALUATION OF SCORING METHODS FOR PRIORITIZING PEDESTRIAN AND BICYCLE PROJECTS , Daria Korostina

INVESTIGATION OF PFAS EXPOSURE RISKS IN KENTUCKY USING MAPPING TOOLS , Sweta Ojha

INCORPORATING SPEED INTO CRASH MODELING FOR RURAL TWO-LANE HIGHWAYS , Fahmida Rahman

GEOPHYSICS-BASED GROUND CONTROL AND EXCAVATION DESIGN METHODOLOGY BASED ON ACCEPTABLE DAMAGE , Jorge Romana Giraldo

UNDERSTANDING THE DIFFERENCES BETWEEN INDUSTRY OBJECTIVES AND INSTITUTIONAL LEARNING , Kristen Schell

OPTIMIZING THE POTENTIAL OF HIGHWAY SAFETY INVESTMENT , Riana Tanzen

Sewer Vapor Intrusion Pathway: Simulation of Indoor Piping Systems and Operation of AROMA-VOC Gas Analyzer , Hong Cheng Tay

Advanced Search

Notify me via email or RSS

Browse by Author

Collections
Disciplines

Author Corner

Submit Research

New Title Here

Below. --> connect.

Law Library
Special Collections
Copyright Resource Center
Graduate School
Scholars@UK

We’d like your feedback

Home | About | FAQ | My Account | Accessibility Statement

Privacy Copyright

University of Kentucky ®

An Equal Opportunity University Accreditation Directory Email Privacy Policy Accessibility Disclosures

Civil Engineering: Theses

Books & eBooks
Journals & Databases
Useful Websites
eTutorials & Guides
Write it Right – A guide to Harvard referencing system This link opens in a new window

Theses in the Library

There is a selection of Civil Engineering related theses in the library. They are shelved in subject and date order in cabinets in the library. Folders listing titles and authors are held at the Library Desk. Browse through these to find topics of interest to you. Alternatively, follow the guidelines in the video below to search for listings of titles and subject areas on the library catalogue.

Please note: Theses are for library use only.

DART-Europe

DART-Europe was founded in 2005 as a partnership of national and university libraries and consortia to improve global access to European research theses. The DART-Europe E-theses Portal is managed by UCL Library Services .

The DART-Europe partners help to provide researchers with a single European Portal for the discovery of Electronic Theses and Dissertations. Free access to 825,310 open access research theses from 619 Universities in 28 European countries.

EthOS - British Library

EThOS is the UK’s national thesis service which aims to maximise the visibility and availability of the UK’s doctoral research theses. It demonstrates the quality of UK research, and supports the UK Government’s open access principle that publications resulting from publicly-funded research should be made freely available for all researchers, providing opportunities for further research.

Research @THEA

Research@THEA

Research@THEA is a free electronic resource where you can search the collections of the Technological Universities (TU) research output in a single search. Alternatively you can opt to search the research from a single TU using the individual site details.

Open Access Theses & Dissertations

OATD.org aims to be the best possible resource for finding open access graduate theses and dissertations published around the world

Digital Commons Network

The Digital Commons Network brings together free, full-text scholarly articles from hundreds of universities and colleges worldwide. Curated by university librarians and their supporting institutions, the Network includes a growing collection of peer-reviewed journal articles, book chapters, dissertations, working papers, conference proceedings, and other original scholarly work.

BASE , one of the world's most voluminous search engines especially for academic web resources, is operated by Bielefeld University Library . BASE provides more than 240 million documents, including dissertations and theses from more than 8,000 content providers. You can access the full texts of about 60% of the indexed documents for free (Open Access).

With PQDT Open, you can read the full text of open access dissertations and theses free of charge (primarily North American in content).

<< Previous: Journals & Databases
Next: Useful Websites >>
Last Updated: Oct 13, 2023 10:08 AM
URL: https://lit.libguides.com/civilengineering

The Library, Technological University of the Shannon: Midwest

How it works

Sample Undergraduate Civil Engineering Full Dissertation

Here is a sample that showcases why we are one of the world’s leading academic writing firms. This assignment was created by one of our expert academic writers and demonstrated the highest academic quality. Place your order today to achieve academic greatness.

View a different grade

An Analysis of the Implications of Using Digital Engineering and Bim in the Design, Construction and Maintenance of Highway Infrastructure in the UK

Digital engineering in construction comprises all digital technologies and tools that are imperative for the construction project. One of the most advanced and commonly used digital technologies in the construction segment is BIM or Building Information Modelling.

BIM has been able to virtually assess all the important aspects of a construction project from planning designs to planning the resources and assessing the risks of the design and cost-effectiveness. Based on these aspects, the current study aimed to analyse the implications of digital engineering and BIM in the UK’s design, construction and maintenance of highway infrastructure.

To address the aim of the study, a survey was conducted amongst the employees associated with various highway infrastructure projects in the UK. The study included 68 employees associated with various highway infrastructure projects in the UK. Based on the current findings, it was indicated that all the implicative factors of using BIM and the advantages of using BIM in the projects are significant as the p-value was less than 0.05. Therefore, the usage of BIM is very important in highway construction projects and overall usage. Limitations and future scope of the study have also been presented.

Chapter 1: Introduction

Digital Engineering, “the targeted form of the digital transformation of engineering is emerging with different names globally, such as Industry 4.0. Digital engineering incorporates digital technologies such as IoT, smart cyber-physical systems, big data, AI, ML, robotics, virtual reality (VR), augmented reality (AR), digital twin, 3D printing, digital trust, and blockchain (Zimmerman, Gilbert, and Salvatore, 2019).

Digital engineering is a manifestation of digital transformation in the field of engineering. Digital Engineering in the construction segment, or Building Information Modelling (BIM), is much more than developing models. It emphasises harnessing the true potential of the construction industry and creating a platform for multiple applications by integrating digitisation and GIS.

This state-of-the-art digital technology enables the industry to integrate data about a building’s design, construction, and future function to develop the most efficient delivery methods (Zimmerman et al. 2019). In due course of time, the utility of BIM has only increased and using different modules, and the industry will be able to apply digital engineering solutions to many problems that otherwise have convoluted solutions (Smith, 2014).

Construction has started to use these engineering methods to develop connected systems of sensors, intelligent machines, mobile devices, and new software applications, all integrated on a central platform of building information modelling (BIM) (Shen et al. 2010). Their adoption has only increased in the past decade enabling companies to boost productivity, manage complexity, reduce project delays and cost overruns, and enhance safety and quality.

Rationale of the Study

Many incumbents in this fragmented industry have been struggling to adapt and benefit from BIM and digital technologies. A wide range of successful implementations highlights opportunities along the construction value chain (Shen et al. 2010). Digital engineering and BIM have allowed the commercial, infrastructure, and industrial sectors to showcase tremendous efficiency and productivity gains for the industry.

Digitalisation has fundamentally changed the industry, enabling efficiency and quality gains along the value chain and reshuffling the competitive league table of companies and countries. The key feature of the technology transformation is the software platform and control layer, which consists in large part of BIM.

As the successor to traditional computer-aided design (CAD), BIM now serves all stakeholders along the value chain, using virtual modelling and information to simulate any aspect of the asset’s life (He et al. 2012). Further up the architecture, new additive construction methods, such as 3-D printing, are becoming applicable even to large-scale building components and concrete structures (Merschbrock and Munkvold, 2015).

Companies can also use 3-D scanners to create digital models of complex buildings and thereby facilitate renovations, conduct quality assurance, and monitor the deterioration of materials. The application of digital technologies in specific use cases demonstrates the enormous opportunities along the value chain, from early conceptual design to the very end of an asset’s life cycle, in the demolition phase (He et al. 2012).

By applying the right technologies in the right way, construction companies can reduce the asset’s construction time and whole-life-cycle cost and enhance the quality of processes and improve safety, working conditions, and sustainability.” Therefore, it is important to understand how digital engineering and BIM have been applied to the highway infrastructure projects of the UK.

Aims and objectives

The research aims to analyse the implications of using digital engineering and BIM in the UK’s design, construction and maintenance of highway infrastructure.

The research objectives are;

To analyse the present methods of designing, constructing and maintaining highways

To evaluate the potential of digital engineering and BIM in construction projects

To investigate how digital engineering and BIM can be used in the UK for the design, construction and maintenance of highway infrastructure

Research Questions

The research questions of the study are;

What are the present methods of designing, constructing and maintaining highways?
What is the potential of digital engineering and BIM in construction projects?
How can digital engineering and BIM be used in the UK to design, construct and maintain highway infrastructure?

Research Structure

The current research structure has been segregated as introduction being chapter 1 with a brief background of the study report followed by chapter 2, the literature review. The literature review had presented an in-depth assessment of the theories and review of past literature. In chapter 3, the methodology used in collecting data and other processes has been presented, chapter 4 presented the data findings and the results. Lastly, chapter 5 is the conclusion chapter whereby the research objectives have been addressed.

Hire an Expert Dissertation Writer

Orders completed by our expert writers are

Formally drafted in the academic style
100% Plagiarism-free & 100% Confidential
Never resold
Include unlimited free revisions
Completed to match exact client requirements

Chapter 2: Literature Review

Introduction.

In this chapter, theoretical aspects of digital engineering and BIM has been presented based on the findings from the past literature papers and journal as well as relevant whitepapers and e-news. The in-depth description of the need and importance of digitalisation and its impact on the construction industry have been presented.

Building Information Modelling (BIM) and its Contribution to the Construction Industry

BIM or building information modelling is a form of digital engineering technology “whose role is to provide with the digital form of construction and asset operations. It combinescombines technology, process improvements and digital information to radically improve client and project outcomes and asset operations (Merschbrock and Munkvold, 2015).

BIM is a strategic enabler for improving decision-making for buildings and public infrastructure assets across the whole lifecycle. It applies to new build projects; crucially, BIM supports the renovation, refurbishment and maintenance of the built environment, the largest sector share.

BIM offers economic, environmental and social benefits across a range of different public stakeholders (Eadie et al. 2013). Social benefits can be delivered to the public infrastructure owner by utilising BIM effectively in public planning and consultation to build support for new or updated public infrastructure, such as highway placement, water containment features or public building refurbishment.

This public engagement can support public infrastructure that is well designed and aligned with the needs of the local community resulting in improved social outcomes such as better resource planning, greater use of public facilities or mapping and protection of architectural historic heritage (Merschbrock and Munkvold, 2015).

BIM can support environmental benefits, such as more accurate material ordering leading to less waste to landfill and optimised simulation of energy analysis leading to lower energy demands from the built environment (Latiffi et al. 2013). BIM allows to harness the value of data by using model information and new ways of working to better support new construction techniques, scheduling, cost, quality, coordination, fabrication, sequencing and facilities management to name but a few.

BIM also helps architects, engineers, and constructors visualise what is to be built in a simulated environment to identify any potential design, construction, or operational issues (Eadie et al. 2013). BIM technology provides an accurate virtual model of a building digitally constructed.

When completed, the building information model contains precise geometry and relevant data needed to support the design, procurement, fabrication, and construction activities required to realise the building (Khosrowshahi and Arayici, 2012).” Therefore, it may be implicated that the BIM assists in more effective and efficient infrastructure project design, construction and maintenance.

Existing Construction Methods

Information technology is one of the most important existing technologies that are used in every industry for different business operations as well as in the infrastructure and construction segment. It helps to improve the construction projects’ management system and better management of resources in designing infrastructures and other applications (Stark, Israel, and Wöhler, 2010).

Information sources are very important in the project success, especially in construction projects as it helps with resource management like cost assessment, schedule management, designing of infrastructure and assessment of the designs. Some of the major areas of IT application in the construction segment are resource assessment, procurement of resources, schedule management, construction flow management, cost maintenance, and project planning (Eadie et al. 2013).

One of the greatest contributions of IT in the construction industry is CAD or Computer-Aided Drafting, a widely used primary designing and infrastructure management tool. It helps in designing and assessing the designs but also helps in construction planning, organising, operation, and control. CAD has also evolved over the past few decades and has developed from designing from 2D to 3D images and now even helps in 4D imaging of the infrastructure (Stark et al. 2010).

The main purpose of using CAD is to assess the durability of a structure, types of materials that will improve the structure, animation of the design, and others, enabling complete assessments and predictions for the design. Another similar technology is a 3D studio, but unlike CAD it is limited to only designing and assessing the design in the construction project.

AutoCAD Architecture is another existing tool still used massively in all construction projects. They help design windows, doors, walls, and the entire building or an infrastructure roadmap (Khosrowshahi and Arayici, 2012). Similar other technologies are still being used in the construction segment even when new emerging technologies have improved the efficiencies in construction.

Implementation of BIM in the UK

Over the past decade, “construction projects have been completed and documented in Finland, Sweden, Norway, Germany, France, Singapore and Australia, demonstrating the capability of BIM in construction. Projects are demonstrated for more sustainable products than non-BIM usage (Eadie et al. 2013).

BIM tools and processes have been developed to considerably improve productivity in the industry and make it possible to manage the information generated and maintained throughout the lifecycle of buildings more efficiently. Research has shown that business and IT directors of the UK’s largest contractors and consultants are fully aware of the benefits of advancements in information and communication technologies.

The main barriers to implementation relate to organisational readiness to change (Dakhil, Underwood, and Alshawi, 2019). Amongst the construction companies in the UK that have adopted the BIM tool had implemented them in 3 stages; stage 1 being object-based modelling, stage 2 is model-based collaboration and stage 3 is network-based integration.

In stage 1, migration from 2D to 3D and object-based modelling and documentation occurs. The BIM model is made of real architectural elements that are represented correctly in all views. The BIM model is still single-disciplinary and the deliverables are mostly CAD-like documents, existing contractual relationships and liability issues persist (Eadie et al. 2013).

Stage 2 is about designing and managing a building is a highly complex process that requires smooth communication and collaboration among all project team members. This stage requires integrated data communication and data sharing between the stakeholders to support this collaborative approach.

The last stage comprises transition from collaboration to integration and reflects the real underlying BIM technology (Dakhil, Underwood, and Alshawi, 2019). At this stage, project lifecycle phases dissolve substantially and players interact in real-time to generate real benefits from increasingly virtual workflows.

So, BIM is seen as an efficient information management methodology within construction projects. Different BIM technologies available to date may provide different organisational capabilities; hence, stakeholders are required to assess currently available technologies on the market so that selection of suitable technology may intercept a future strategy (Eadie et al. 2015).

This may incorporate further services that the organisation is willing to provide in the future. Similarly, multiple tools may be required to achieve specific outcomes in some circumstances. Due to the variety of software and tools being used many different types of file formats are involved.

Given that such tools provide various features with different complexities, stakeholders should ensure forward compatibility with their goals. Quantity and quality management has been an important part of such product listings. Quantity data can also assist the appropriate site management feature, like site safety and minimising onsite storage.

Costing and scheduling can provide timely project completions with maximum profits/savings (Dakhil, Underwood, and Alshawi, 2019). From a UK perspective, The National Building Specification has conducted annual BIM reports and surveys, the latest 32 NBS BIM report 2015 depicts an expanding outlook, showing that BIM adoption in the UK has gained traction, 33 increasing its adoption level from 13% in 2010 to 40% in 2012 and continuing to 50% in 2014 a substantial increase 34 in a short period of time (Eadie et al. 2015).

In the UK alone, the lack of interoperability is estimated to cost £100 million a year due to waste processes of poorly structured information sharing. This suggests that since the raised awareness and utilisation of BIM in the UK, traditional methods are unable to innovate and adapt.

In some projects, however, it is still essential to adopt traditional 2D CAD drawings; especially for firms that have not invested in BIM, so that they can contribute to projects and make cost estimations. This way of working can still provide a positive cost improvement overall as both approaches are being utilised. For the companies that have adopted BIM methods, 2D CAD formats are compatible with BIM and can be imported and exported to the required software (Gledson and Greenwood, 2017).

The adoption of BIM has heightened since the UK government announced in 2011 that all construction projects are to be delivered utilising BIM, especially in 3D (Kumar, 2015). BIM utilisation can prove to be highly efficient as a means of providing an information-sharing environment among stakeholders and as a means of eliminating excessive printing and storing of documents. This is very positive for the design team as the data required is readily available to all involved and an overall view of the project’s development is also accessible.”

Emerging Digital Engineering Technologies for Infrastructure

Digital engineering comprises of industry 4.0 and in the construction industry, it is termed as Construction 4.0. One example of digital engineering is the application of blockchain, “which provides solutions to many current problems in construction information management (Tilson, Lyytinen, and Sørensen, 2010).

However, it is more likely that it will be built into generic IT infrastructure on top of which construction applications are built, rather than used directly by authors of construction-related software. It can potentially make construction processes less centralised, opening the need for research in that direction.

Industry 4.0 strives on the principle of creating a smart construction site, simulation and virtual storage of data allowing construction companies to arrange and evaluate data from different stages of the construction project and from end-users after completion of the construction project towards delivering a faster, more flexible construction project at a higher-quality and reduced cost (Klinc and Turk, 2019).

However, despite the advantage and benefits of applying industry 4.0 concepts for construction projects, few studies have been conducted globally towards examining the awareness of construction professionals for the application of the industry 4.0 concept in the construction segment.

The main idea of digital engineering is to create a digital construction site assisted by attaching internet-connected sensors like IoT on the equipment and each stage of the construction project to monitor progress coupled with drones and virtual simulation (Klinc and Turk, 2019).

This opinion recognises different digital technologies as the process of implementing modern technology to encourage the digitisation of the construction industry as well as the supply chain; thereby, leading to an increased performance of the” sector.

Table 1: List of emerging digital engineering tools

Chapter 3: Research Methodology

This “chapter of the study details the research methods, which are to be undertaken for the completion of the research regarding the implications of using digital engineering and BIM in the design, construction and maintenance of highway infrastructure in the UK.

Research Paradigm and Philosophy

The research paradigm depicts a verified and established model being used to investigate how the research problem can be addressed (Antwi and Hamza, 2015). The three types are methodological, epistemological and ontological. The research philosophy depicts the investigator’s ideas and thoughts regarding approaching the research to answer the research problem (Kumar, 2019).

Positivism research philosophy is related to the concept of learning the truth and science to gain adequate knowledge related to the subject area. A positivism research philosophy has been used in this investigation for or procuring transfers the knowledge about the challenges of training and progress of the workforce in the construction of the UK from verifiable sources using quantitative methods and their perceptions.

The research related to the challenges associated with executives in the construction sector would be conducted by gaining information from all the possible sources, which help the researcher to extract the truth about the subject with having factual details.

Research Design

Research design refers to the general planning that has demonstrated the stages for justifying the fulfilment of the research goal. The research design depicts the investigator’s overall plan for providing a solution to the research problem (Kumar, 2019). The exploratory research design has been used in this investigation to evaluate the perceptions of using digital engineering and BIM in the design, construction and maintenance of highway infrastructure in the UK.

Moreover, the information based on the strategies and planning against the challenges are also reflected through the following exploratory research design. Following a particular research design, the researcher would also identify the working fields in the construction sector and the loopholes of service from the end of employees or management that has affected the service quality.

Research Approach

Research approach has enabled the researcher to determine the progress pattern of the study through evaluating the evidence and formulating effective decisions. Following an inductive research approach, the connection between the research components is explored.

The inductive research approach would also help the researcher connect the study parameters for framing the justification and analysis against the particular research goal. The research would receive a new direction of the study by extracting quality details about the challenges in the construction sector from the secondary sources highlighted as the advantage of research. On the other hand, relying on factual details would also make contradictions related to the strategies associated with preventing the challenges. The assessment of the study would also be critical by following the approach.

Research Strategy

Research design is described through the activities that need to be incorporated for completing the study and publishing adequate information against the argument. The research strategy is mainly formulated based on the study pattern and the researcher’s capabilities, which has also indicated the completion of research in a systematic manner (Saunders and Lewis, 2012).

It involves the appropriate selection of research philosophy, approach and design, data collection method, and interpretation of collected data. The research related to the implications of using digital engineering and BIM in the construction sector would be progressed through a quantitative manner as the information of employees would be explored for extracting the details related to the issues of the employees.

Data Collection Methods

The data gathering method mainly focused on the approaches and techniques of collecting the information that will be analysed for exploring the study. The general research studies follow the primary and secondary data collection method (Saunders and Lewis, 2012).

The research on the perceptions of digital engineering and BIM usage in the design, construction and maintenance of highway infrastructure in the UK has been conducted through the following survey methodology. The secondary information has been collected from the journal articles, books, website articles and reports published by different companies. Primary data will be collected from the employees of different construction companies in the UK to help the researcher interpret the subject’s critical details.

Sampling Methods

Sampling is considered the approach applied in the statistical analysis where the predetermined observation numbers are extracted from a large population for any meaningful purpose. As the study would explore the perceptions of usage of digital engineering and BIM, purposive method from non-probability sampling has been incorporated which allowed the choice of targeting all employees from the construction industry in the UK to be chosen randomly for the survey.

Initially, a total of 120 questionnaires were received from the survey and after compilation and cleaning of the data only 68 questionnaires or responses were selected based on completely filled-in responses. Therefore, the same size of the study is 68 employees from the companies that are working on highway infrastructure projects in the UK.

Data Analysis

The data analysis section will demonstrate the system of assessing and evaluating the information by utilising analytical and legal reasoning. The interpretation of collected primary and secondary data would justify the execution of the goal of the research (Kumar, 2019). The quantitative data would be analysed through descriptive analysis which would explore the critical aspects of the faced challenges of employees in the construction sector.

Quantitative data gathered from the participants would be evaluated using the SPSS tool to justify the employees’ opinions about their perceptions of digital engineering and BIM usage. Different statistical tools have been conducted, like distribution analysis, frequency analysis, correlation, ANOVA testing and regression.

Ethical Considerations

Ethical aspects also need to be followed by the researcher to make the study reliable and validate for future recommendation. The research is based on identifying perceptions of digital engineering and BIM usage in the construction segment, especially highway infrastructure in the UK.

The employees are also not asked questions requiring personal data, which is included under the ethical principles. In contrast, the employees are already informed about the questions asked in the survey. The research would also follow the legal aspects of the Data Protection Act (1998) which has ensured the maintenance of security protocol for conducting the study.” The university however provided the ethical approval.

Chapter 4: Data Analysis

In this chapter, “the findings from the statistical assessments have been presented. The study conducted only statistical analyses and was segregated into the descriptive and inferential analysis. The descriptive assessments were presented in the form of frequency assessments and graphical presentations, whereas, the inferential part was presented through ANOVA, correlations, and regressions.

This chapter has further five more sections, the demographic part, the general description, reliability tests, hypothesis 1 testing and hypothesis 2 testing. In addition to these sections, there is also a summary section that concludes the findings from the statistical assessments.”

Descriptive Assessment

Based on the current findings, it was found that the majority of the participants of the study were technicians (18%), followed by 16% for civil engineers, 10% were highway contractors, 13% were also architects.

Figure 1: Occupation

Furthermore, it was also found that 24% of the total participants were maintenance contractors, 19% were building contractors and civil engineering contractors, and only a few were from government authorities or local authorities involved in the targeted highway projects.

Figure 2: Type of company

To assess the systems used in order to gather and store information on projects and programs of work, it was found that 34% of them use BIM whereas 18% still use symbology and 25% use the company’s own systems.

Figure 3: Type of systems used

Furthermore, the level for BIM usage used in the current highway projects has been assessed and 52% of them use level 2, which comprises basic BIM applications, followed by 19% using level 3, which includes iBIM, lifecycle management, and other advanced BIMs.

Figure 4: Level of BIM usage

Furthermore, the level of BIM do clients ask for on highway projects and programs was also assessed and 32% believe that customers demand level 2 application of BIM whereas 26% of them say that customers demand level 3 BIM applications.

Figure 5: Level of BIM demanded by clients

Furthermore, the participants of the study were also asked for their perceptions on the benefit of applying all levels of BIM on highway projects. It was noted that at least 72% of the total participants of the study indicated that there is a benefit of applying all levels of BIM on highway projects and programs. However, 9% of the participants also denied the same. This may indicate that they either have low information on the applications of BIM or have only used BUM for certain levels of construction work.

Figure 6: There is a benefit of BIM

In this section, the employees were asked for the type of technology used other than BIM in the highway project and 54% of the total state that they use 3D and 4D CAD tools, followed by 24% using 3D studios for the projects and 22% used other commercial applications.

Figure 7: Tools other than BIM in construction

Lastly, the implications to using BIM indicated that the majority of the participants perceived them to be all relevant and they were cost-effectiveness, environmental preservation, low carbon footprint, redesigning of existing infrastructure, mapping of the highways, assessment of raw materials, predictive assessment of the durability, risk assessment and efficiency of the project workflows. No relevance was however also mentioned for cost-effectiveness and Redesigning of existing infrastructure, whereas, for others, some also stated that it was irrelevant from BIM usage.

Figure 8: Advantages of using BIM

Hypothesis 1

In this section, the first hypothesis has been tested and interpreted using correlation tests, regression, and ANOVA tests. A correlation test was conducted to check the degree of relationship between the independent and the dependent variables because the Pearson correlation test was conducted (Gogtay and Thatte, 2017).

Furthermore, the ANOVA test was done to check the degree of variance amongst the responses or independent variables and its overall impact on the dependent variables. Finally, the regression test was conducted to check the independent variables’ impact on the dependent variable and explore if the null hypothesis is rejected or accepted.

The independent variables of the current hypothesis were It is the responsibility of the Government to ask for BIM on all highway projects and programs, The civil engineering/highways industry should take the lead in promoting BIM, BIM is solely the

responsibility of the client organisation, There is a need to raise the profile of BIM within the Civil / Highway engineering Industry, There is a need to raise the profile of BIM for the Public, Asset holding statutory authorities should introduce BIM on all Civil & highway maintenance Programs, The use of BIM systems should be mandatory for all new civil / highways infrastructure schemes.

There is a slow-up take in the use of BIM on highway schemes in the UK due to the cost of the systems. From the correlation test (table), it was observed that all the independent variables of the hypothesis had a high correlation value and positive at more than 0.8 and all the variables are significant at p<0.05.

All the factors like the responsibility of the Government to ask for BIM on all highway projects and programs, the civil engineering/highways industry should take the lead in promoting BIM, BIM is solely the responsibility of the client organisation, there is a need to raise the profile of BIM within the Civil / Highway engineering Industry, there is a need to raise the profile of BIM for the Public, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance Programs, the use of BIM systems should be mandatory for all new civil / highways infrastructure schemes, and there is a slow-up take in the use of BIM on highway schemes in the UK due to the cost of the systems were found to have a correlation value of more than 0.8.

Table 2: Correlation for hypothesis 1

Furthermore, the ANOVA test also found that over 95% of the responses lie in the regression line or 95% of the participants gave similar responses to the implementation of BIM. All the factors like the responsibility of the Government to ask for BIM on all highway projects and programs, The civil engineering/highways industry should take the lead in promoting BIM, BIM is solely the responsibility of the client organisation, there is a need to raise the profile of BIM within the Civil / Highway engineering Industry, there is a need to raise the profile of BIM for the Public, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance Programs, the use of BIM systems should be mandatory for all new civil / highways infrastructure schemes, and there is a slow-up take in the use of BIM on highway schemes in the UK due to the cost of the systems were found to have p<0.05 at 95% CI.

Table 3: Regression and ANOVA for hypothesis 1

Hypothesis 2

Again, in this section, hypotheses were tested for the impact of BIM to enhance operations in the construction industry based on opportunities of the same was assessed. Similar to the previous section, hypothesis 2 has been tested and interpreted with the help of correlation tests, regression, and ANOVA tests (Kim, 2017).

In this section, the significant aspects of using BIM in the construction segment have been assessed. The independent variables of the study are BIM aids collaboration and brings different sectors together, the application of BIM reduces the amount of time taken on the delivery & construction of highway schemes, the application of BIM reduces the amount of cost taken on the delivery & construction of highway schemes, the application of BIM increases the quality of delivery of civil / highway engineering projects, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance programs, use of BIM and the consideration of whole life costs should drive the use of innovative products, and the use of BIM improves highway maintenance therefore road safety in use.

From the correlation test (table), it was noticed that all the factors of BIM have a significant impact and its implementation in highway infrastructure. Therefore, factors like BIM aids

collaboration and brings different sectors together, the application of BIM reduces the amount of time taken on the delivery & construction of highway schemes, the application of BIM reduces the amount of cost taken on the delivery & construction of highway schemes, the application of BIM increases the quality of delivery of civil / highway engineering projects, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance programs, use of BIM and the consideration of whole life costs should drive the use of innovative products, and the use of BIM improves highway maintenance, therefore, road safety in use were all found to have significance in the application of BIM.

Table 4: Correlation for hypothesis 2

Furthermore, the ANOVA test findings suggested that at least 99% of the independent variables lie on the regression line and so 99% of the responses were also the same for factors of the significance of the application of BIM and its opportunities in the highway construction segment of the UK. From the regression assessment, in the table below, it was also found that the factors like BIM have a significant impact and their implementation in highway infrastructure. Therefore, factors like BIM aids collaboration and brings different sectors together, the application of BIM reduces the amount of time taken on the delivery & construction of highway schemes, the application of BIM reduces the amount of cost taken

on the delivery & construction of highway schemes, the application of BIM increases the quality of delivery of civil / highway engineering projects, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance programs, use of BIM and the consideration of whole life costs should drive the use of innovative products, and the use of BIM improves highway maintenance, therefore, road safety in use had a p-value less than 0.05 at 95%. Therefore, the null hypothesis is rejected and it may be stated that.

Table 5: Regression and ANOVA for hypothesis 2

Discussions

Two main areas of hypothetical models were chosen for the current study, one was the implications of implementation of BIM, and the other was the advantages of implementing BIM at highway infrastructure in the UK. With respect to implications of implementation of BIM, all the factors or opportunities for implementation were found to be significant, so it may be implicated from the findings that the UK government has a significant role in the implementation of BIM in the construction industry.

Apart from the government, it is also the responsibility of the client organisations and the construction contractors to implement BIM or demand for the same so that the projects are cost-effective and resilient. These findings can be related to the study by Kumar, (2015) who indicated that the UK government has made it mandatory for all the construction companies to implement since 2011 and therefore, it may be stated that government is one of the most important motivators in implementation of BIM for highway infrastructure projects.

Furthermore, it was also found from the second model that there are multiple advantages of using BIM as perceived by the participants. The most relevant advantages are cost-effectiveness, schedule management, effective planning and designing and risk assessment.

These findings can also be related to the studies conducted by Eadie et al. (2013) and Latiffi et al. (2013) who also found similar implications and the advantages of using BIM in construction projects. They found that BIM has multiple advantages over other existing tools and computational systems as they help manage the overall project planning and thereby improve the construction project’s performance.

Therefore, it may be implicated that, the UK government has a significant role in the mandatory implementation of BIM in construction projects, and this is because BIM implementation provides for cost-effectiveness, schedule management, effective planning and designing and risk assessment.

In this chapter, the data analysis findings were presented, and descriptive and inferential analyses were presented. As for the descriptive analysis, the general information like occupation, category of company, systems currently used in order to gather and store information on projects and programs of work, level of BIM application, level of BIM demanded by customers, types of technology using other than BIM, and the most relevant importance of BIM was assessed.

Furthermore, from the inferential analysis, it was also observed that the main hypotheses that the implementation of BIM is important and the opportunities to apply BIM in highway infrastructure were accepted. This is because all the factors the like responsibility of the Government to ask for BIM on all highway projects and programs, the civil engineering/highways industry should take the lead in promoting BIM, BIM is solely the responsibility of the client organisation, there is a need to raise the profile of BIM within the Civil / Highway engineering Industry, there is a need to raise the profile of BIM for the Public, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance Programs, the use of BIM systems should be mandatory for all new civil / highways infrastructure schemes, and there is a slow-up take in the use of BIM on highway schemes in the UK due to the cost of the systems as implications of BIM implementation.

Again, all factors like BIM aids collaboration and brings different sectors together, the application of BIM reduces the amount of time taken on the delivery & construction of highway schemes, the application of BIM reduces the amount of cost taken on the delivery & construction of highway schemes, the application of BIM increases the quality of delivery of civil / highway engineering projects, asset holding statutory authorities should introduce BIM on all Civil & highway maintenance programs, use of BIM and the consideration of whole life costs should drive the use of innovative products, and the use of BIM improves highway maintenance, therefore, road safety in use were also found to show significant opportunities in the implementation of BIM in highway infrastructure. In the next chapter, discussions and the objectives have been addressed along with recommendations and limitations of the study.

Chapter 5: Conclusions

The research aims to conduct an analysis of the implications of using digital engineering and BIM in the design, construction and maintenance of highway infrastructure in the UK. The key feature of the technology transformation is the software platform and control layer, which consists in large part of BIM.

Further up the architecture, new additive construction methods, such as 3-D printing, are becoming applicable even to large-scale building components and concrete structures. By applying the right technologies in the right way, construction companies can reduce the asset’s construction time and whole-life-cycle cost and enhance the quality of processes and improve safety, working conditions, and sustainability.

Therefore, a survey assessment was done amongst the employees associated with different highway infrastructure development projects in the UK. The study included 68 employees associated with various highway infrastructure projects in the UK. Two main aspects were explored, the implications of using BIM in construction projects and the advantages of using BIM in the highway infrastructure project. In both cases, there was a significant implication on motivating the usage of BIM. The BIM applications have different advantages in highway infrastructure as the p-value was found to be less than 0.05 at 95% CI.

Addressing the Research Objectives

Based on the literature review, it was indicated that apart from BIM and digital engineering methods, there are technologies like 3D and 4D CAD, 3D designing tools and other virtual reality methods that help in designing, constructing and maintaining highway infrastructure projects.

Comparing this to the statistical findings, it was found that the current tools used for designing, constructing and maintaining highways include BIM, CAD, 3D modelling and other computerised methods. It was also found from the survey assessment that many highway infrastructure companies have designing systems that help them design, construct and maintain highway projects in the UK.

Based on the literature findings and comparing to the survey findings the potential of digital engineering and BIM in construction projects comprises cost-effectiveness, environmental preservation, low carbon footprint, redesigning of existing infrastructure, mapping of the highways, assessment of raw materials, predictive assessment of the durability, risk assessment, and efficiency of the project workflows.

However, the potential of using BIM is based on the motivations and directions by the government as well as the demand of the customers. The government has also made it mandatory in the UK to use BIM for any construction project. Multiple contractors and organisations have also excelled in applying BIM. So there is a huge potential for the application of BIM in construction projects. Furthermore, the asset holding statutory authorities also moderate the role in the implementation of BIM and so, there is a huge potential in the same.

To address this question, the literature review indicated that BIM can be used for virtual modelling and refurbishment of existing infrastructure. By virtualisation of the process, the cost, time is taken and risks are all estimated. Furthermore, engineers can use digital engineering and BIM in highway projects to make road maps, estimate the variables, resources needed and much other functionality.

However, this can also be related to the current statistical findings whereby BIM aids collaboration and brings different sectors together, the application of BIM reduces the amount of time taken on the delivery & construction of highway schemes, the application of BIM reduces the amount of cost taken on the delivery & construction of highway schemes, the application of BIM increases the quality of delivery of civil / highway engineering projects, use of BIM and the consideration of whole life costs should drive the use of innovative products, and the use of BIM improves highway maintenance, therefore, road safety in use were all found to help in the design, construction and maintenance of highway infrastructure in the UK.

Therefore, based on the implications from both the literature review and the survey it is indicative that digital engineering and BIM can help in predictive modelling of the infrastructure as well as predict the durability, make a schedule for the project, assess costs and reduce costs, sustainability and others, and therefore, digital engineering and BIM can be used in the UK for the design, construction and maintenance of highway infrastructure.

Limitations and Future Scope

The main limitations of the current study were that only construction projects involved in highway infrastructure were included in the study. In future studies, it must be seen that all construction companies from different segments like refurbishment, industrial segment, residential, highways, and others must be included to better understand the potential of BIM application and its effects.

Another limitation was that the study was not able to include interview data because of lack of time for the completion of the study, and most of the managers approached for the same rejected the proposal for interviews. Interviews would help to gather in-depth information on the applications of BIM, its challenges and opportunities and others and so, in future studies, a qualitative study using interviews must also be conducted.

One last limitation of the study was schedule management. Due to the current travel restrictions and social distancing protocols, the induction of the survey questions and the collection of the same took longer than expected. Therefore, in the future, an electronic method of survey questionnaire must be used so that more participants can be targeted.

If you need assistance with writing your dissertation, our professional dissertation writers are here to help!

Antwi, S.K. and Hamza, K., 2015. Qualitative and quantitative research paradigms in business research: A philosophical reflection. European journal of business and management, 7(3), pp.217-225.

Dakhil, A.J., Underwood, J. and Alshawi, M., 2019. Critical success competencies for the BIM implementation process: UK construction clients. Journal of information technology in construction (ITcon), 24, pp.80-94.

Eadie, R., Browne, M., Odeyinka, H., McKeown, C. and McNiff, S., 2013. BIM implementation throughout the UK construction project lifecycle: An analysis. Automation in construction, 36, pp.145-151.

Eadie, R., Browne, M., Odeyinka, H., Mahon, C. and McNiff, S., 2015. A survey of current status of and perceived changes required for BIM adoption in the UK. Built Environment Project and Asset Management, 5(1), pp.4-21.

Forcael, E., Ferrari, I., Opazo-Vega, A. and Pulido-Arcas, J.A., 2020. Construction 4.0: A Literature Review. Sustainability, 12(22), p.9755.

Gledson, B. and Greenwood, D., 2017. The adoption of 4D BIM in the UK construction industry: An Innovation Diffusion approach. Engineering, Construction and Architectural Management, 24(6), pp.950-967.

Gogtay, N.J. and Thatte, U.M., 2017. Principles of correlation analysis. Journal of the Association of Physicians of India, 65(3), pp.78-81.

He, Q.H., Qian, L.L., Duan, Y.F. and Li, YK, 2012. Current situation and barriers of BIM implementation. Journal of Engineering Management, 1, pp.12-16.

Khosrowshahi, F. and Arayici, Y., 2012. Roadmap for implementation of BIM in the UK construction industry. Engineering, Construction and Architectural Management, 19(6), pp.610-635.

Kim, T.K., 2017. Understanding one-way ANOVA using conceptual figures. Korean journal of anesthesiology, 70(1), p.22.

Kline, R. and Turk, Ž., 2019. Construction 4.0-digital transformation of one of the oldest industries. Economic and Business Review for Central and South-Eastern Europe, 21(3), pp.393-496.

Kumar, B., 2015. A practical guide to adopting BIM in construction projects. Whittles Publishing.

Kumar, R., 2019. Research methodology: A step-by-step guide for beginners. Sage.

Latif, A.A., Mohd, S., Kasim, N. and Fathi, M.S., 2013. Building information modeling (BIM) application in Malaysian construction industry. International Journal of Construction Engineering and Management, 2(4A), pp.1-6.

Merschbrock, C. and Munkvold, B.E., 2015. Effective digital collaboration in the construction industry–A case study of BIM deployment in a hospital construction project. Computers in industry, 73, pp.1-7.

Saunders, M.N. and Lewis, P., 2012. Doing research in business & management: An essential guide to planning your project. Pearson.

Shen, W., Hao, Q., Mak, H., Neelamkavil, J., Xie, H., Dickinson, J., Thomas, R., Pardasani, A. and Xue, H., 2010. A review of systems integration and collaboration in architecture, engineering, construction, and facilities management. Advanced engineering informatics, 24(2), pp.196-207.

Smith, P., 2014. BIM implementation–global strategies. Procedia Engineering, 85, pp.482-492.

Stark, R., Israel, J.H. and Wöhler, T., 2010. Towards hybrid modelling environments—Merging desktop-CAD and virtual reality technologies. CIRP annals, 59(1), pp.179-182.

Tilson, D., Lyytinen, K. and Sørensen, C., 2010. Research commentary—Digital infrastructures: The missing IS research agenda.

Information systems research, 21(4), pp.748-759.

Zimmerman, P., Gilbert, T. and Salvatore, F., 2019. Digital engineering transformation across the Department of Defense. The Journal of Defense Modeling and Simulation, 16(4), pp.325-338.

APPENDIX (Questionnaire)

This questionnaire has been produced to carry out research and gather information on Building Information Modelling (BIM) within the Civil Engineering community. The information you provide will help to gather data on how BIM is used currently within your organisation and your job role and how you feel BIM could benefit you and your work in the future. All the information you provide will be kept confidential with no identifiable information about you being passed on to any other bodies.

About yourself

⦁ Which discipline most aptly describes your occupation? (✔ the most appropriate)

About your Company

⦁ Which category most aptly describes the Company you work for? (✔ the most appropriate)

⦁ What systems do you currently use in order to gather and store information on projects and programs of work? (✔ the most appropriate)

⦁ If you use BIM. What level do you currently use on highway projects & programs? (✔ the most appropriate)

Summary of levels:

⦁ What level of BIM do clients ask for on highway projects and programs? (✔ the most appropriate)

⦁ Do you feel there is a benefit in applying all levels of BIM on highway projects and programs? (✔ the most appropriate)

⦁ Types of digital engineering used other than BIM (✔ the most appropriate)

⦁ Advantages of using BIM and digital engineering that is most relevant (✔ the most relevant for each of the factors)

⦁ Enter answers from 1 to 5 below in the box provided:

⦁ Should you wish to provide any further information please use the space provided

⦁ I would like to take this opportunity to thank you for your time and effort in completing this questionnaire

Frequently Asked Questions

How much time it takes to write an undergraduate full dissertation.

The time to write an undergraduate full dissertation varies, but it typically takes several months, including research, drafting, and revisions.

USEFUL LINKS

LEARNING RESOURCES

COMPANY DETAILS

How It Works

DigitalCommons@University of Nebraska - Lincoln

Home > Civil Engineering > CIVILENGDISS

Civil and Environmental Engineering

Department of civil and environmental engineering: dissertations, theses, and student research.

Sustainable Revitalization of Asphalt Pavements: An In-Depth Analysis of Enhancing the Performance of Asphalt Binder Through the Application of Rheological and Molecular Dynamics Simulation Techniques , Muhammad Ahmad

Performing Motorized-to-Non-Motorized Crash Analysis Using Multi-Model LBS Traffic Data Calibrated Through Random Forest Models , Nicholas Aldridge

Assessing the Performance of High-RAP Mixtures Incorporating Crude Vegetable Oils and an Antioxidant from Mechanical, Environmental, and Economic Perspectives , Nitish R. Bastola

Safety and Operational Assessment of Rural Free Right-Turn Ramp Intersections , Jonathon Camenzind

Assessment of Bridge Pier Response to Fire, Vehicle Impact, and Air Blast , Chen Fang, Qusai Alomari, and Daniel G. Linzell

The Effects of Inaccurate and Missing Highway-Rail Grade Crossing Inventory Data on Crash and Severity Model Estimation and Prediction , Muhammad Umer Farooq

Reducing Infiltration and Inflow in Small Collection Systems: Environmental, Economic, and Other Impacts , Andrew Hansen

CO 2 Storage Capacity and Injectivity of Stacked Carbonates of the Pennsylvanian and Permian in Western Nebraska , Lateef Lawal

Bridge Deck Overhang Design: Effective Vehicle Impact Loads, Ultimate Strength, and Implications on Bridge Rail Performance , Andrew Eric Loken

Adaptation of Concrete and Timber Bridge Railings for Low-Volume Traffic , Russell Masterson

Transportation Components of the City of Bennet Comprehensive Plan and Downtown Economic Development Plan , Kyle McLaughlin

Integration of Environmental Sustainability and Decision Making: Case Studies of Civil Infrastructure , Sussan Moussavi

Investigation and Modification of Single-Post Aluminum Sign Supports for Mash Crashworthiness , Rodrigo Quintero

Three-Dimensional Structural Analysis of Temple 16 and Rosalila at Copan Ruinas , Luis Tuarez

Energy Dissipation Optimization for Circular Culverts , Chi Zhang

Evaluation of an Equivalent Mean Grain Size Diameter to Rationally Predict the Erodibility of Fine Riverbed Soils in Nebraska , Basil Abualshar

Interlayered Thin Film Composite (iTFC) Membranes: The Synthesis and Assembly of Active Layer from Conjugated Microporous Polymer , Febby Andini

Behavior of Completely Automated Evapotranspiration Estimation (eeMETRIC) , Atiqullah Atif

Data-Driven Prioritization and Empirical Predictions for Bridge Scour in Nebraska , Awgku Ahmad Hashim Awg Bolhasan

A Physical Model of Deadmans Run , Quinn Brandt

Evaluation of Swelling Pressure and Shear Strength of Inorganic Microfiber-Reinforced Bentonite for the Engineered Barrier System , Jose Maria Ferdinand Victoria Calaunan

Performance of Concrete with Different Cement Finenesses and Nano-activators , Brandon Faltin

Estimation of Methane Emissions from Beef Cattle Manure in Nebraska , Noe Hernandez

Risk Assessment of Hazardous Material Transportation for Small and Tribal Communities , Harrison Redepenning

Experimental and Numerical Analysis of Soil-Geosynthetic Composite for a Geosynthetic-Reinforced Roadway System , Daniel Robertson

Empirical Fragility Functions and Numerical Parametric Study for Buckling of Steel Grain Bins under High Wind Loads , Andrew Ruder

Development of a Next-Generation Non-Proprietary Portable Concrete Barrier , Riley Ruskamp

Experimental and Numerical Study: Sheet Pile Abutment Systems for Water–Crossing Bridges , Hung Phi Van

Efficiency of Bank Filtration in the Removal of Cyanotoxins Under Different Levels of Nutrients , Luke Walkenhorst

Measuring Acoustic Nonlinearity of Elastic Materials Using Thermal Modulation of Ultrasonic Waves , Bibo Zhong

Application of Biochar as Beneficial Additive in Concrete , Temirlan Barissov

Detecting and Evaluating Cracks on Aging Concrete Members with Deep Convolutional Neural Networks , Brendan Barnes

IMPACT OF PARTICLE SURFACE CHARGE HETEROGENEITY ON DEPOSITION ONTO FLAT SURFACES AND TRANSPORT IN POROUS MEDIA , Thompson Delon

Prioritization of Research on Bridge Railings for Use on Timber Deck Bridges and Development of Two Glulam Bridge Railing Systems , Jared Duren

Evaluation of Permanent Concrete Barriers to MASH 2016 , Samuel Elias Hovde

A METHODOLOGY FOR ESTIMATING CAPACITY AND PASSENGER CAR EQUIVALENTS FOR CONNECTED AND AUTOMATED VEHICLES TRAVELING ON FREEWAYS , Antonio Hurtado Beltran

Risk and Safety Associated with Hazardous Materials Transport in Rural and Native American Communities: A Case Study of Thurston County, Nebraska , Sydney James

Establishing Safe Operating Speeds for Autonomous Vehicles: A Case Study from the Automated Skyway Express in Jacksonville, Florida , Andrew Loken

Fragility Functions of Manufactured Houses under Earthquake Loads , Shuyah Tani Aurore Ouoba

Modeling Watershed Sensitivity to Climate Change in Systems Affected by Discharge of Mine Tailings , Johnette C. Shockley

PROBABILISTIC SEISMIC VULNERABILITY ASSESSMENT OF FREESTANDING HISTORIC MONUMENTS , Marie E. Wagner

Determinants of Water System Management , Caleb White

Hydraulic and Mineralogical Characterization of Organoclay Before and After Reaction with Non-Aqueous Phase Liquid (NAPL) , Mostafa Afzalian

Biofiltration of Volatile Organic Compounds Emitted at Ethanol Plants , Mitham Al-faliti

Optimum Mixing Design of Xanthan and Gellan Treated Soils for Slope Stabilization for Weathered Shales and Glacial Tills in Nebraska , Layal Bitar

Concentration and Treatment of Odors Generated by Landfills , Gabriel Cohen

Development of a MASH Test Level 4 Open Concrete Bridge Rail , Jacob DeLone

Reliability-Calibrated ANN-Based Load and Resistance Factor Load Rating for Steel Girder Bridges , Francisco Garcia

Eliminating Rebar Splicing in Transverse Joints of Precast Full Depth Bridge Deck Panels , David Gee

Quantitative Assessment of Alkali-Silica Reaction in Small and Large-Scale Concrete Specimens Utilizing Nonlinear Acoustic Techniques , Clayton Malone

NITRATE AND HERBICIDES REMOVAL FROM GROUNDWATER USING IMMOBILIZED ALGAE , Sara Mollamohammada

RIVETED STEEL RAILWAY BRIDGE HEALTH MONITORING AND DAMAGE DETECTION , Ahmed Rageh

Development of an Improved Arterial Roadway Performance Reliability Methodology , Ernest Tufuor

Evaluation Of Internally Cured Bridge Deck Concrete With Standard And Optimized Aggregate Gradation , Arman Abdigaliyev

RESTRICTED CROSSING U-TURNS AT RURAL INTERSECTIONS , Timothy Adams

Numerical Simulation of Diffuse Ultrasonic Waves in Concrete , Hossein Ariannejad

Full Scale 13-Story Building Implosion and Collapse: Effects on Adjacent Structures , Kanchan Devkota

Biofiltration of Volatile Organic Compounds Emitted at Ethanol Plants , Christopher Arthur Duerschner

Simulation of Antimicrobial Resistance Gene Fate in Narrow Grass Hedges , Marzieh Khedmati

Probabilistic Analysis of Slide-Rocking Structures Under Earthquake Loads , Taylor J. Knickerbocker

Sustainability Assessment of U.S. Beef Processing and its Antimicrobial Systems , Shaobin Li

Development of a Mix Design Adjustment Method For Fiber Reinforced Concrete and Super High Performance Concrete Based on Excess Paste , Joe Malloy

Using Theoretical And Experimental Particle Packing For Aggregate Gradation Optimization To Reduce Cement Content In Pavement Concrete Mixtures , Miras Mamirov

Development of Post-to-Deck Connections for Use in a MASH TL-4 Steel-Tube Bridge Rail , Pascual Mauricio

Environmental Sustainability Assessment of Small Nebraska Mechanical Water Resource Recovery Facilities: Impacts of Construction and Operations , Sussan Moussavi

Assessing Impact and Blast Resilience of Polymer Coated Cementitious Materials , Murtaza Nalwala, Gabriel Nsengiyumva, and Yong-Rak Kim

Development of a MASH TL-4 Steel, Side-Mounted, Beam-and-Post, Bridge Rail , Oscar Pena

Application of Remote Sensing Technology in Water Resources Management , Mahesh Pun

Proportion and Evaluation of Ultra-High Performance Concrete Using Local Materials , Flavia Ribeiro Furtado de Mendonca

Effects of Nutrient Level and Growth Rate on Mutation and Conjugation Processes That Confer Antibiotic Resistance to E. coli , Mohammadreza Shafieifini

LIDAR Assessment to Monitor Bridge Response Under Live and Dead Loads , Daniel Watson

MULTISCALE MODELING OF FRACTURE IN QUASI-BRITTLE MATERIALS USING BIFURCATION ANALYSIS AND ELEMENT ELIMINATION METHOD , Keyvan Zare Rami

FINITE ELEMENT MODELING AND UPDATING OF A FIVE-TIERED PAGODA STYLE TEMPLE , Linh Maytham Abdulrahman

Shear Strength Characteristics and Failure Mechanism of Slopes in Overconsolidated Soils of Nebraska , Hossein Bahmyari

Experimental Study on a New Type of Transverse Connection for Nebraska County Bridge System , Alexander Bleyhl

Examination of Steel Pin and Hanger Assembly Performance – Retrofit to Replacement , Chandana Chickamagalur Balakrishna

Effect of Swine Manure Pit Additives and Facility Disinfectants on the Fate of Antibiotics and Manure Composition During Simulated Swine Manure Slurry Storage , Jon Duerschner

Integration of Remote Sensing and Proximal Sensing for Improvement of Field Scale Water Management , Foad Foolad

Statistical Investigation of Road and Railway Hazardous Materials Transportation Safety , Amirfarrokh Iranitalab

Artificial Neural Network and Finite Element Modeling of Nanoindentation Tests on Silica , KIANOOSH KOOCHEKI

Structural Identification and Assessment of the Inverted Tee Girder Bridge System , Garrett P. Martindale

Road Diet Feasibility Analysis for Nebraska , Brandon L. Purintun

Optimized Health Monitoring Plans for a Steel, Double-Track Railway Bridge , Ahmed Rageh

Evaluation and Development of CPT Based Pile Design in Nebraska Soils , Alex Silvey

Rainwater Harvesting System Scenario Analysis on Runoff Reduction Potential in Surabaya, Indonesia: A Geospatial Analysis for Brantas Hilir Watershed , Putri Sukmahartati

Investigation of a Tractor-Tank Trailer Roadside Containment Barrier , Dean L. Whitfield

Effects of Moving Bottlenecks on Traffic Operations on Four-lane Level Freeway Segments , Jianan Zhou

Bias and Other Error in Gridded Weather Data Sets and Their Impacts on Estimating Reference Evapotranspiration , Philip A. Blankenau

Broadening Understanding of Roundabout Operation Analysis: Planning-Level Tools and Signal Application , Ahmed Buasali

Molecular Dynamics Modeling and Simulation of Bitumen Chemical Aging , Farshad Fallah

Impact-resistant Behavior of Reinforced Concrete Bridge Columns , Chen Fang

Simulation and Prediction of the Groundwater Level in the Surrounding Area of the Nebraska Management System Evaluation Area site in Central Nebraska. , Cesar Augusto Gomez Peña

Chemical-Rheological Evaluation of the Short-Term and Long-Term Effectiveness of Binder Rejuvenators , H.F. Haghshenas, S. Kommidi, D. Nguyen, and Y-R Kim

Evaluation of Thin Asphalt Overlay Pavement Preservation in Nebraska: Laboratory Tests, MEPDG, and LCCA (17-2624) , Soohyok Im, Taesun You, Yong-Rak Kim, Gabriel Nsengiyumva, Robert Rea, and Hamzeh Haghshenas

Injury Severity of Truck Drivers in Crashes at Highway-Rail Grade Crossings , Waleed Ali Khan

Viscoelastic Analysis and Fatigue Characterization of Bituminous Materials in Two Length Scales Under the Influence of Aging , Santosh Reddy Kommidi

Numerical Modeling to Evaluate the Performance of Slow-Release Candles for Groundwater Remediation , Chuyang Liu

Hyperelastic Structural Fuses for Steel Buildings , Francys López

HYPERELASTIC STRUCTURAL FUSES FOR IMPROVED EARTHQUAKE RESILIENCE OF STEEL CONCENTRICALLY-BRACED BUILDINGS , Francys López-Mosquera

Effects of Rejuvenators on High-RAP Mixtures Based on Laboratory Tests of Asphalt Concrete Mixtures and Fine Aggregate Matrix Mixtures , Hesamaddin Nabizadeh, Hamzeh Haghshenas, Y-R Kim, and F. T. S. Aragão

Advanced Search

Search Help

Notify me via email or RSS
Administrator Resources
How to Cite Items From This Repository
Copyright Information
Collections
Disciplines

Author Corner

Guide to Submitting
Submit your paper or article
Civil Engineering Website

Home | About | FAQ | My Account | Accessibility Statement

Privacy Copyright

IMAGES

List of Best Civil Engineering Dissertation Topics 2021
Civil Engineering Dissertation Ideas 2021 for UK University Students
Civil Engineering Dissertation Topics 2024
35+ Civil Engineering Dissertation Topics
50 Seminar Topics for Civil Engineering
Engineering Research Paper With Best Topics & Writing Help

VIDEO

How to make Dissertation? Complete Details about Dissertation / Thesis for Bachelors/ Masters Degree
Fully Funded Civil Engineering PhD Position! #phd #research #academia #finland
civil engineering Final year Project Work 😂😎 Extra cement wasteage used in our college 😂
Civil Engineering in IITs #iit #iitdelhi #iitjee #motivation #neet #neet2024 #jeemains2024 #upsc #pw

COMMENTS

Civil Engineering Dissertation Topics
To discover civil engineering dissertation topics: Investigate emerging technologies. Analyze infrastructure challenges. Explore sustainability and green solutions. Review recent research in journals. Consider urban planning or construction innovations. Opt for a topic aligning with your passion and career aims.
101 Best Civil Engineering Dissertation Topics Ideas 2024
Civil Engineering Dissertation Topics play a pivotal role in shaping the future of the discipline. These topics serve as the foundation for groundbreaking research. [email protected]. 44-207-097-1871; Toggle navigation. ... [email protected] . Payment Partner
35+ Civil Engineering Dissertation Topics
35+ Ideal Civil Engineering Dissertation Topics for Students in 2022! 1. How can large metropolitan areas be reformed or restructured to help control the increasing rate of air pollution? Describe in detail. 2. How do civil engineering advances aid in the way disaster management can improve in high-disaster (e.g., earthquake, flooding ...
Engineering Dissertation Topics
Civil Engineering Dissertation Topics. The main emphasis of civil engineering in recent times is focused on sustainable development of quality, durable structures that deliver value for money, maximise the benefits from innovation and meets the specifications of the end users.
Civil Engineering Dissertation Topics for UK Students in [2024]
Civil engineering dissertation topics undergraduate. 1. Utilizing 3D Printing Technology in Civil Engineering: Feasibility and Applications in the UK Construction Industry. 2. Assessing the Environmental Impact of Urbanization on River Systems: Case Study of a UK City. 3.
Civil Engineering Dissertation Topics and Ideas
Civil Engineering is the disciple of engineering that is more focuses on the designing and construction as well as the maintenance of the infrastructure and environment. It is amongst the most important and sought-after subfields in the engineering category and serves a lot to the development of a society. Whether it is the pipeline extending ...
Civil Engineering Dissertations
Dissertations on Civil Engineering. ... A selection of example engineering dissertation topics to help and inspire you when looking for engineering dissertation topic ideas.... Last modified: 17th Aug 2021 ... Reduce Embodied Carbon in Low-rise Office Buildings in the UK. Dissertation Examples.
List of Best Civil Engineering Dissertation Topics 2021
Civil engineering is a very vast field, due to which you can easily become overwhelmed when considering the perfect civil engineering dissertation topics. This is the reason our team of most talented academic writers in UK have made a list of the best engineering dissertation ideas you can find online.
Civil Engineering Theses
abstract | thesis (15.59Mb, pdf) Ojaghi, M. (Makhzan Ojaghi, S. M.) (2010) D.Phil. "The Development of Real-Time Distributed Hybrid Testing for Earthquake Engineering" abstract; Nhleko, S. (2011) D.Phil. "Human-induced Lateral Excitation of Assembly Structures" Download from the ORA website
Civil Engineering Dissertation Topics
Thus, students must look for new civil engineering dissertation topics for their dissertation modules. Review Our Quality Engineering Dissertation Example. ... the team at Premierdissertations.com is arguably the UK's most trusted and safe academic writing organization. +44 7897 053596. 160 Kemp House, City Road, London EC1V 2NX. Our Services.
Construction Dissertation Topics
Example civil engineering dissertation topic 1: Infrastructural civil engineering construction projects within the UK: Time for legislative change? The process of planning, commissioning and completing major infrastructural civil engineering construction projects within the UK is a lengthy process.
Best Civil Engineering Dissertation Topics Ideas [2024 Updated]
4. Exploring how Waste Reduction Approaches help Civil Engineers to promote Development of Sustainable Buildings in Developing Economies Aim. This study is specifically determined to explore the role of waste reduction approaches in assisting civil engineers to promote development of sustainable buildings in developing economies.
The Library: Civil Engineering: Dissertations & Reports
You can search the University repository for past Leeds Beckett research and the Thesis and Research Data Repository (Figshare) contains online postgraduate research theses/dissertations from Leeds Beckett students. The Library also has some hard copies of old dissertations and theses. You can consult these to see how previous students ...
Civil Engineering Dissertation Topics: Navigating the Path ...
Popular Civil Engineering Dissertation Topics. Explore some of the trending topics in civil engineering, such as sustainable infrastructure development, innovative construction materials, smart ...
Engineering thesis and dissertation collection
Investigating the role of mechanical and structural properties of scaffolds for cartilage tissue engineering . Sturtivant, Alexander (The University of Edinburgh, 2024-03-04) Osteoarthritis is currently measured as the leading cause of disability. It is responsible for significant, social, economic and health costs.
Study Civil Engineering: A Comprehensive Subject Guide
Entry requirements for a civil engineering degree in the UK can vary depending on the university and the specific programme. Here's a general guide: ... Topics for Civil Engineering Dissertation. Below, we present a diverse array of research areas, each offering an opportunity to delve into the complexities of Civil Engineering and make a ...
Theses and Dissertations
EBSCO Open Dissertations includes the content from American Doctoral Dissertations. It is a free database with records for more than 1.4 million electronic theses and dissertations from more than 320 universities around the world.
Civil Engineering Dissertation Topics Ideas for UK Students In 2023
The selection of the best civil engineering dissertation topics ideas is the most crucial step in 2023. Get in touch with us at Dissertationexpertsuk.co.uk. Home; Dissertation Writing. ... Best Dissertation Help Online UK is the best platform to provide the best dissertation service. This is due to the fact that a well-chosen dissertation topic ...
Theses and Dissertations--Civil Engineering
Theses/Dissertations from 2024 PDF. EFFECT OF ADMIXTURES ON RAPID HARDENING, SELF-CONSOLIDATING CONCRETE, Haley Johnson. PDF. Quantitative Sustainable Design of Urban Tree Soil Cells for Stormwater Management, JaMaya Wilson. Theses/Dissertations from 2023 PDF. DIGITAL TWINS FOR ANCILLARY TRANSPORTATION ASSET DATA MANAGEMENT, Ashtarout Ammar. PDF
Theses
Theses in the Library. There is a selection of Civil Engineering related theses in the library. They are shelved in subject and date order in cabinets in the library. Folders listing titles and authors are held at the Library Desk. Browse through these to find topics of interest to you. Alternatively, follow the guidelines in the video below to ...
Sample Undergraduate Civil Engineering Full Dissertation
The research objectives are; To analyse the present methods of designing, constructing and maintaining highways. To evaluate the potential of digital engineering and BIM in construction projects. To investigate how digital engineering and BIM can be used in the UK for the design, construction and maintenance of highway infrastructure.
Civil and Environmental Engineering
Department of Civil and Environmental Engineering: Dissertations, Theses, and Student Research PhD candidates : You are welcome and encouraged to deposit your dissertation here, but be aware that 1) it is optional, not required (the ProQuest deposit is required); and

Dissertation Writing Tools

Civil Engineering Dissertation Topics Research Ideas

Exploring Diverse Avenues: Inspiring Civil Engineering Dissertation Topics

Introduction

Categories of Civil Engineering Dissertation Topics

Geotechnical Engineering

Transportation Engineering

Environmental Engineering

Water Resources Engineering

Construction Management

Urban Planning

Materials Engineering

Coastal Engineering

Earthquake Engineering

Infrastructure Asset Management

Energy Efficiency in Buildings

Tunnel Engineering

Pavement Engineering

Remote Sensing and GIS Applications in Civil Engineering

Civil Engineering Dissertation Topics Brief Service

Paid Topic Mini Proposal (500 Words)

Get An Expert Dissertation Writing Help To Achieve Good Grades

Other Related Posts

Best Civil Engineering Dissertation Topics You Should Explore Right Now!

Table Of Contents

Our Services

FREE Features

RELATED BLOGS

A Comprehensive List of 35+ Trending Brexit Dissertation Topics

Know the Difference Between Managerial Accounting and Financial Accounting

Grab Amazing Easter Deals and Offers on Assignments

Here Are the Top 40+ Engaging Persuasive Essay Topics

Interesting 40+ Early Childhood Studies Dissertation Ideas

How Inductive vs Deductive Research Differs From Each Other?

Calculate the Price

Engineering Dissertation Topics

Sensors Technology Dissertation Topics

You may also like

What is a Civil Engineering Dissertation?

Contact us for instant assignment help from expert writers in the UK!

Civil Engineering Dissertation Topics and Ideas

Structure Your Dissertation Well With Some Cutting-Edge Civil Engineering Dissertation Topics

Get An Immediate Response

Get Free Customize Topics Now!

What is the Importance of Civil Engineering Dissertation Topics?

What is the structure of a dissertation?

How to finalise a dissertation topic?

Check out these Free Civil Engineering Dissertation Topics!

The free civil engineering topics for you!

Still Having Trouble with Civil Engineering Dissertation Topics? Get our Help!

Frequently Asked Questions

What are your payment methods?

How do I track my dissertation order?

How do I place an order for my dementia nursing dissertation?

Is buying a dissertation online legal?

Can plagiarism get my dementia nursing dissertation rejected?

Are these dementia nursing dissertation topics free to use?

Dissertation Services

Dissertation Subjects

Dissertation Levels

Perfect Civil Engineering Dissertation Topics You Wanted All Along

Get Free Customize Topics Now

Table of Contents

Tour Our World-Class Civil Engineering Dissertation Ideas, Custom Tailored For You

Consult Our Writers to Discuss Your Needs

Civil Engineering Theses

Civil Engineering

Mainly Structures

Soils and Structures

Tidal Power

REINFORCED SOIL

Other reinforced soil applications

OFFSHORE FOUNDATIONS AND STRUCTURES

Shallow foundations, jack-up units

IN-SITU TESTING

UNSATURATED AND GASSY SOILS

SEDIMENTATION AND CONSOLIDATION OF SOFT CLAYS

TUNNELLING AND TRENCHLESS TECHNOLOGY

Tunnelling (general)

FLOW OF GRANULAR MATERIALS