undergraduate research topics in civil engineering

149+ Most Interesting Civil Engineering Research Topics For Undergraduates

Civil Engineering Research Topics For Undergraduates: Ever wondered how bridges stay strong or how buildings resist earthquakes? Civil engineering explores these marvels! Hey there, curious minds! Are you ready to dive into a world where buildings, roads, and water systems are more than meets the eye? Let’s explore intriguing civil engineering research topics designed for students like you!

Civil engineering is about creating strong, safe, and sustainable structures that shape our cities and communities. But did you know that there are many areas where civil engineers are constantly innovating? From finding eco-friendly materials for construction to making cities smarter, there’s so much to explore.

In this exciting research, you’ll get to discover how recycled materials can build sturdy structures, how technology makes our roads smarter, and how we can protect our buildings from natural disasters. Together, we’ll peek into the secrets of clean water systems, study the strength of different building materials, and understand how to make construction projects more efficient.

You May Also Like : 150 Examples of Qualitative Research Topics in Daily Life: Work-Life Balancing Act

Table of Contents

What Is Civil Engineering Research Topics

“Civil Engineering Research Topics” refers to specific subjects or areas within the field of civil engineering that are explored, investigated, and studied in-depth by researchers, students, and professionals. These topics encompass a wide array of areas where new knowledge is sought, innovative solutions are developed, and advancements are made to address challenges in civil engineering.

Research topics in civil engineering involve examining various aspects of infrastructure, construction, and environmental systems. These topics aim to enhance understanding, improve existing practices, and innovate new methods or technologies related to designing, constructing, and maintaining infrastructure such as buildings, bridges, roads, dams, water supply systems, and more.

How Do I Choose A Project Topic in Civil Engineering?

Here are 7 steps to help you choose a project topic in civil engineering:

1. Identify Your Interests and Passion

Begin by exploring areas of civil engineering that genuinely interest you. Consider your passion for structural engineering, transportation systems, environmental sustainability, geotechnical engineering, or any other specific field within civil engineering.

2. Assess Current Trends and Challenges

Stay updated with the latest trends, challenges, and advancements in civil engineering. Look into ongoing research, technological innovations, and critical issues faced by the industry to identify potential areas for investigation.

3. Consult with Professors and Professionals

Seek guidance from your professors, mentors, or professionals in the field. Discuss your interests and potential project ideas with them. Their expertise and insights can help you narrow down your options and identify feasible research topics.

4. Review Literature and Existing Research

Conduct a thorough literature review to understand what research has already been done in your area of interest. Identify gaps or areas that require further exploration, building upon existing knowledge, or addressing unanswered questions.

5. Consider Feasibility and Resources

Evaluate the feasibility of your project topics based on available resources, time constraints, and access to necessary equipment or data. Ensure that your chosen topic is realistic within the scope of your academic program.

6. Define Objectives and Scope

Clearly define the objectives and scope of your project. Formulate specific research questions or hypotheses that you aim to address. Ensure that your topic is well-defined and achievable within the given timeframe.

7. Brainstorm and Finalize

After considering all aspects, brainstorm different project ideas and narrow them down based on your interests, available resources, feasibility, and alignment with your academic and career goals. Finally, select a project topic that aligns best with your interests, resources, and academic requirements.

List of Latest And Best Civil Engineering Research Topics For Undergraduates

Here are the following best Civil Engineering Research Topics For Undergraduates Students.

Structural Civil Engineering Research Topics For Undergraduates

Earthquake-resistant building designs: Advances and innovations.
Analysis of structural integrity in tall buildings: Wind-induced vibrations.
Sustainable materials in structural engineering: Evaluating bamboo as a construction material.
Retrofitting techniques for enhancing the seismic resistance of existing structures.
Dynamic behavior of bridges under varying loads: Case studies and analysis.

Geotechnical Engineering

Landslide mitigation strategies in hilly terrains.
Soil stabilization techniques for improving foundation strength.
Ground improvement methods in soft soil regions.
Geotechnical investigation and analysis for tunnel construction projects.
Impact of soil erosion on infrastructure stability: Prevention and control measures.

Transportation Civil Engineering Research Topics For Undergraduates

Traffic flow optimization using intelligent transportation systems.
Sustainable urban transportation planning: Promoting walking and cycling.
Environmental impacts of transportation infrastructure: Mitigation strategies.
Innovative designs for mass transit systems in urban areas.
Integration of autonomous vehicles in transportation networks.

Environmental Engineering

Water quality assessment and pollution control in urban rivers.
Sustainable wastewater treatment technologies for small communities.
Impact of climate change on water resources and infrastructure.
Analysis of air quality in industrial areas: Health and environmental implications.
Remediation techniques for contaminated sites: Case studies and innovations.

Construction Engineering and Management

Lean construction practices: Reducing waste and improving efficiency.
Building Information Modeling (BIM) applications in construction projects.
Risk management strategies in civil engineering projects.
Project scheduling and cost estimation in construction management.
Innovations in sustainable construction practices: Case studies and best practices.

Water Resources Civil Engineering Research Topics For Undergraduates

Hydrological modeling for flood prediction and risk assessment.
Urban stormwater management: Green infrastructure solutions.
River restoration techniques for ecosystem rehabilitation.
Water supply and sanitation in rural communities: Challenges and solutions.
Water conservation strategies in arid regions: Sustainable approaches.

Materials Engineering

Development of self-healing concrete for infrastructure durability.
Nanotechnology applications in construction materials.
Recycled materials in road construction: Performance and sustainability.
Durability assessment of asphalt pavements under heavy traffic.
Advanced composite materials in civil engineering: Strength and applications.

Coastal and Ocean Civil Engineering Research Topics For Undergraduates

Coastal erosion control measures and shoreline protection.
Renewable energy extraction from ocean waves and currents.
Offshore wind energy farms: Design challenges and innovations.
Marine pollution monitoring and management strategies.
Climate change adaptation for coastal infrastructure: Resilience strategies.

Urban Engineering

Smart city initiatives: Technology integration for urban development.
Urban heat island effect mitigation strategies in metropolitan areas.
Sustainable urban planning: Green spaces and ecological balance.
Accessibility and inclusivity in urban infrastructure design.
Retrofitting strategies for improving energy efficiency in existing buildings.

Earthquake Civil Engineering Research Topics For Undergraduates

Seismic vulnerability assessment of historical monuments and buildings.
Performance-based seismic design of structures: Case studies.
Earthquake early warning systems: Efficiency and reliability.
Retrofitting techniques for bridges and infrastructure in seismic zones.
Response spectrum analysis in earthquake engineering: Applications and challenges.

Railway Civil Engineering Research Topics For Undergraduates

High-speed rail technology: Infrastructure design and operational challenges.
Rail track maintenance and performance enhancement techniques.
Energy efficiency in rail transportation systems.
Integration of magnetic levitation technology in railway networks.
Railway signaling systems and safety measures: Improvements and innovations.

Geographic Information Systems (GIS) in Civil Engineering

GIS applications for urban planning and infrastructure development.
Spatial analysis for disaster management and emergency response.
3D modeling and visualization in civil engineering projects.
Land use planning and decision-making using GIS techniques.
Remote sensing applications in civil engineering: Monitoring and analysis.

Tall Building Design and Construction

Wind engineering and wind-induced vibrations in tall buildings.
Sustainable design strategies for skyscrapers.
Structural fire safety measures in high-rise buildings.
Performance-based design approaches for supertall structures.
Façade engineering and innovations in building exteriors.

Hydraulic Civil Engineering Research Topics For Undergraduates

Hydroelectric power generation: Advances in turbine technology.
Water distribution network optimization and hydraulic modeling.
Floodplain management and sustainable flood control measures.
Hydraulic modeling for irrigation and agricultural water management.
Urban drainage systems and stormwater management: Efficiency and sustainability.

Structural Dynamics and Earthquake Resistant Structures

Base isolation and seismic retrofitting techniques.
Performance-based design for earthquake-resistant structures.
Vibration control methods for tall buildings.
Nonlinear dynamic analysis of structures under seismic loads.
Seismic isolation systems and their effectiveness in building protection.

Smart Materials in Civil Civil Engineering Research Topics For Undergraduates

Shape memory alloys in structural engineering applications.
Self-healing materials for infrastructure sustainability.
Piezoelectric materials for structural health monitoring.
Phase change materials in building envelope applications.
Smart sensors and actuators in civil infrastructure: Applications and advancements.

Renewable Energy and Sustainable Infrastructure

Solar energy integration in buildings and infrastructure.
Green roofs and sustainable urban infrastructure.
Energy harvesting technologies in civil engineering.
Biomass-based energy generation from agricultural waste.
Life cycle assessment of renewable energy infrastructure: Environmental impacts.

Construction Automation and Robotics

Autonomous construction equipment and robotics applications.
3D printing in construction: Advancements and applications.
AI and machine learning in construction project management.
Robotics in bridge inspection and maintenance.
Automation in prefabrication and modular construction techniques.

Pavement Civil Engineering Research Topics For Undergraduates

Sustainable pavement materials and design.
Asphalt recycling and pavement sustainability.
Pavement management systems for long-term maintenance.
Performance-based specifications in pavement engineering.
Analysis of factors affecting pavement roughness and ride quality.

Resilient and Adaptive Infrastructure

Resilience engineering for climate-resilient infrastructure.
Adapting infrastructure to rising sea levels and coastal hazards.
Disaster-resilient communities: Infrastructure design and planning.
Smart grid technologies for resilient energy infrastructure.
Infrastructure asset management for long-term resilience.

Non-Destructive Testing and Evaluation

Ultrasonic testing techniques for concrete structures.
Ground-penetrating radar applications in civil engineering.
Infrared thermography in detecting structural defects.
Acoustic emission testing for monitoring structural integrity.
Advanced imaging technologies for infrastructure inspection.

Sustainable Development and Green Construction

Green building certifications: Evaluating their impact on sustainability.
Circular economy principles in construction and demolition waste management.
Urban agriculture and green infrastructure integration.
Eco-friendly construction practices in low-income housing.
Life cycle analysis of sustainable building materials.

Remote Sensing Applications in Civil Engineering

Satellite imagery analysis for land use planning and development.
UAV (drone) technology applications in civil engineering.
LiDAR technology for terrain mapping and topographic surveying.
Remote sensing-based monitoring of infrastructure projects.
Integration of geospatial data for infrastructure development.

Disaster Management and Resilient Infrastructure

Disaster risk reduction strategies in civil infrastructure.
Infrastructure resilience to extreme weather events.
Early warning systems for natural disasters: Effectiveness and challenges.
Post-disaster recovery and reconstruction planning.
Community-based disaster management approaches.

Sustainable Transportation Systems

Low-carbon transportation strategies for urban areas.
Bicycle infrastructure planning and promotion in cities.
Electric vehicle infrastructure development and challenges.
Public transit accessibility and equitable mobility solutions.
Pedestrian-friendly urban design: Improving walkability.

Urban Resilience and Smart Cities

Climate-responsive urban planning: Adaptive strategies for cities.
Resilient housing solutions for informal settlements.
Big data analytics in urban infrastructure management.
IoT (Internet of Things) applications for smart city infrastructure.
Governance and policy frameworks for sustainable urban development.

Water-Energy Nexus in Urban Areas

Integrated approaches for water and energy conservation in buildings.
Water-energy-food nexus: Synergies and trade-offs in urban settings.
Renewable energy integration in water supply and treatment systems.
Smart irrigation systems for urban agriculture.
Greywater reuse systems in residential and commercial buildings.

Health and Safety in Construction

Occupational health hazards in construction: Prevention and management.
Safety culture development in construction organizations.
Ergonomics and musculoskeletal disorders in construction work.
Mental health issues in the construction industry.
Safety technology innovations for construction site monitoring.

Green Infrastructure and Nature-Based Solutions

Urban green spaces and biodiversity conservation.
Rainwater harvesting systems for sustainable water management.
Green roofs and vertical gardens in urban environments.
Permeable pavements and their role in stormwater management.
Urban forests and their impact on climate resilience.

Risk Assessment and Management in Civil Engineering

Probabilistic risk assessment in infrastructure design.
Resilience-based decision-making in civil engineering projects.
Disaster recovery planning and risk mitigation strategies.
Uncertainty analysis in infrastructure planning and management.

List Of Research Topics In Civil Engineering Pdf

Here are the Best Civil Engineering Research Topics For Undergraduates.

Latest Research Topics in Civil Engineering:

AI-Enabled Structural Health Monitoring : Using Artificial Intelligence for Predictive Maintenance in Civil Structures.
Circular Economy Integration in Construction : Implementing Sustainable Practices and Materials in Building Projects.
Resilient Infrastructure to Combat Climate Change : Designing Climate-Adaptive Structures for Extreme Weather Events.
BIM and IoT Integration in Smart Construction : Advancements in Building Information Modeling and Internet of Things for Construction Efficiency.
Green Urban Spaces for Sustainable Cities : Integrating Nature-Based Solutions in Urban Planning for Environmental Benefits.

Simple Research Topics for Civil Engineering Final Year Students

Study of Sustainable Construction Materials : Analyzing the Environmental Impact of Recycled Materials in Building.
Traffic Flow Analysis in Urban Environments : Assessing Traffic Patterns and Congestion Solutions in Cities.
Geotechnical Investigation of Soil Properties : Soil Testing and Analysis for Foundation Design.
Structural Performance of Building Materials : Comparative Study of Concrete and Steel in Construction.
Water Quality Analysis of Local Water Bodies : Assessing Pollution Levels and Remediation Strategies.

Research Proposal for Civil Engineering Students

Title: “implementing sustainable practices in urban construction for environmental conservation”.

Introduction: Urbanization and construction activities significantly impact the environment. This research aims to explore sustainable practices in urban construction to minimize environmental degradation.

Objectives:

Evaluate the Use of Recycled Materials: Analyze the feasibility and effectiveness of integrating recycled materials in building construction.
Green Infrastructure Assessment: Study the benefits and challenges of incorporating green spaces in urban areas for environmental conservation.
Energy-Efficient Building Design: Investigate design strategies for reducing energy consumption in urban structures.
Environmental Impact Analysis: Assess the overall environmental impact of sustainable construction practices on local ecosystems.
Community Engagement and Awareness: Explore methods to educate and involve communities in promoting sustainable construction practices.

Methodology:

Literature Review: Analyze existing research on sustainable construction practices.
Field Studies: Conduct surveys and case studies in urban areas to assess the implementation of sustainable practices.
Data Collection: Gather data on material usage, energy consumption, and environmental impact.
Analysis and Recommendations: Evaluate findings and propose recommendations for integrating sustainable practices in urban construction.

Conclusion: The research aims to provide insights into the practical implementation of sustainable practices in urban construction, contributing to environmentally conscious urban development.

This proposed research project aligns with the goal of fostering sustainable urban development by investigating practical approaches to mitigate environmental impact in construction projects.

What Can Be A Good Topic For Research Being A Civil Engineering Student?

As a civil engineering student, selecting a compelling and feasible research topic is crucial. Here are several potential research topics that could be interesting and impactful:

Smart Cities and Infrastructure : Investigate the integration of technology and sustainable practices in urban planning to create more efficient, resilient, and eco-friendly cities.
Earthquake-Resistant Building Techniques : Explore innovative methods and materials for designing structures to withstand seismic events more effectively.
Sustainable Construction Materials : Research the development and application of eco-friendly and durable construction materials, such as recycled aggregates or bio-based materials.
Traffic Management and Urban Mobility Solutions : Analyze traffic flow patterns, congestion, and propose solutions for efficient transportation systems within cities.
Water Resources Management : Focus on water conservation strategies, efficient distribution systems, or water quality improvement methods.
Renewable Energy Integration in Infrastructure : Study the incorporation of renewable energy sources, like solar or wind power, into civil engineering projects for sustainable energy solutions.
Resilient Infrastructure against Climate Change : Investigate adaptation measures and designs to mitigate the impact of climate change on infrastructure.
BIM (Building Information Modeling) in Construction : Explore the applications and benefits of BIM technology in improving project planning, collaboration, and efficiency.
Geotechnical Engineering Studies : Investigate soil stabilization techniques, slope stability analysis, or ground improvement methods for construction projects.
Waste Management in Construction : Research strategies for reducing construction waste, recycling materials, and implementing sustainable waste management practices.

Civil Engineering Research Topics For Undergraduates span a wide spectrum, offering budding engineers a canvas of innovation and discovery. These topics stand as gateways to unraveling the complexities of infrastructure, environment, and urban development. They encompass critical aspects like structural integrity, sustainable practices, technological integration, and societal resilience.

As budding civil engineers, delving into these research avenues presents an opportunity to amalgamate theoretical learning with practical application. Exploring seismic-resistant designs, sustainable materials, smart infrastructure, or traffic management systems not only nurtures academic growth but also contributes to addressing real-world challenges.

Through meticulous investigation and analysis, undergraduates can influence the trajectory of civil engineering. These topics not only serve as catalysts for academic growth but also sow the seeds of transformative change. Whether it’s devising innovative materials, embracing technology for smarter cities, or fortifying structures against natural calamities, each exploration advances the collective goal of creating a more sustainable, resilient, and efficiently built environment.

What factors should I consider when selecting a research topic in civil engineering?

When choosing a research topic in civil engineering, consider your interests, the current trends in the field, the feasibility of conducting the research within available resources, and the potential impact of the research.

How can I narrow down a broad research area into a specific topic for my undergraduate research project in civil engineering?

To narrow down a broad research area, conduct extensive literature reviews to identify gaps or specific problems within the field.

100+ Most Qualitative Research Topics For High School Students In 2024

100+ Most Interesting Google Scholar Research Topics For Students [Updated 2024]

200+ Civil Engineering Research Topics: Exploring Promising Topics

Civil engineering research is the driving force behind the development of sustainable infrastructure and innovative construction methods. It plays a crucial role in shaping our world, from designing earthquake-resistant buildings to developing advanced transportation systems.

In this blog post, we will explore the importance of choosing the right civil engineering research topics and provide a list of promising research areas to inspire your academic journey.

Why Choose the Right Research Topic?

Table of Contents

Before delving into the exciting world of civil engineering research topics, it’s important to understand why selecting the right research topic is critical.

Impact of the Research Topic Selection: The choice of your research topic can have a profound impact on your academic and professional career. A well-defined, relevant topic can lead to groundbreaking discoveries, publications, and recognition in the field.
Facilitation of the Research Process: A clearly defined research topic serves as your roadmap. It guides your literature review, data collection, experimentation, and analysis. Without a focused topic, research can become directionless and overwhelming.
Benefits of a Relevant and Engaging Topic: An engaging topic keeps you motivated throughout your research journey. It’s much easier to stay dedicated when you’re passionate about your subject matter.

How to Select the Perfect Civil Engineering Research Topics?

Choosing the right research topic in civil engineering is a crucial step in your academic and professional career. Here are some steps to help you make the best choice:

Consider Your Interests and Passion: Think about what aspects of civil engineering interest you the most. Are you fascinated by structural design, transportation systems, environmental issues, or construction management? Choosing the civil engineering research topics that align with your interests will make the research process more enjoyable and meaningful.
Review Recent Developments in the Field: Stay updated with the latest trends and breakthroughs in civil engineering. Browse through academic journals, magazines, and websites to identify emerging issues and areas of interest.
Assess the Feasibility and Resources Available: Ensure that your chosen topic is feasible given the resources and facilities at your disposal. You should have access to the necessary equipment, data, and expertise to conduct your research effectively.
Discuss with Professors and Mentors: Seek advice from your professors and mentors. They can provide valuable insights, suggest potential research questions, and guide you in the right direction.
Explore Interdisciplinary Possibilities: Civil engineering is often interconnected with other fields. Consider exploring interdisciplinary research topics that combine civil engineering with subjects like materials science, environmental science, or computer science for a unique perspective.

200+ Civil Engineering Research Topics: Category Wise

Structural engineering.

Innovative materials for earthquake-resistant buildings.
Advancements in bridge design and construction.
Sustainable skyscraper designs.
Application of nanotechnology in structural engineering.
Rehabilitation of historic structures using modern techniques.
Seismic retrofitting of critical infrastructure.
Wind and earthquake-resistant building designs.
Performance-based design of structures.
Structural health monitoring for bridges and buildings.
Resilient design for extreme weather conditions.

Geotechnical Engineering

Soil stabilization techniques for foundation support.
Geotechnical investigation methods in urban areas.
Landslide prediction and prevention.
Seismic site characterization and liquefaction assessment.
Innovative foundation systems for high-rise buildings.
Soil-structure interaction in deep foundations.
Geotechnical challenges in offshore engineering.
Sustainable slope stabilization methods.
Ground improvement techniques for soft soils.
Geothermal energy extraction from the Earth’s crust.

Transportation Engineering

Traffic management and congestion reduction strategies.
High-speed rail systems and urban development.
Autonomous vehicles and their role in future transportation.
Sustainable urban transportation planning.
Transportation network optimization using AI.
Public transportation infrastructure development.
Pedestrian and cyclist-friendly city design.
Environmental impact assessment in transportation projects.
Intelligent transportation systems for smart cities.
Emergency evacuation and traffic management.

Environmental Engineering

Water treatment and purification methods.
Green infrastructure and urban stormwater management.
Wastewater treatment plant optimization.
Air quality monitoring and pollution control technologies.
Groundwater contamination assessment and remediation.
Solid waste management in urban areas.
Renewable energy generation from waste.
Climate change adaptation in infrastructure design.
Eco-friendly construction materials and practices.
Sustainable urban planning and design.

Construction Management

Learn construction techniques and practices.
Building Information Modeling (BIM) applications in construction.
Safety management in construction projects.
Risk management in construction projects.
Quality control and assurance in construction.
Sustainable construction materials and methods.
Project scheduling and time management.
Cost estimation and budget management in construction.
Construction contract management and dispute resolution.
Innovative prefabrication and modular construction techniques.

Materials Engineering

Development of advanced construction materials.
Durability of concrete in harsh environments.
Recycling and reuse of construction materials.
Nano-materials in construction.
Sustainable construction materials.
Corrosion protection for infrastructure.
High-performance concrete mix design.
Materials for lightweight and high-strength structures.
Fire-resistant building materials.
Testing and quality control of construction materials.

Water Resources Engineering

River basin management and flood control.
Watershed modeling and management.
Sustainable urban water supply systems.
Urban drainage system design and management.
Dams and reservoir engineering.
Water resource optimization and allocation.
Water quality modeling and management.
Climate change impact on water resources.
Groundwater recharge and management.
Desalination technologies for freshwater production.

Coastal and Ocean Engineering

Coastal erosion control and beach nourishment.
Offshore wind energy farms and their impact.
Design of marine structures for port facilities.
Coastal zone management and resilience.
Coastal hydrodynamics and wave modeling.
Tidal energy harnessing and environmental considerations.
Coastal protection against storm surges and tsunamis.
Oceanography and marine environmental studies.
Design of breakwaters and seawalls.
Harbor and navigation channel design.

Earthquake Engineering

Seismic hazard assessment and mapping.
Retrofitting of existing structures for earthquake resistance.
Seismic design of lifeline systems (water, gas, power).
Soil-structure interaction in seismic events.
Non-destructive testing for seismic damage assessment.
Seismic behavior of innovative materials.
Performance-based earthquake engineering.
Post-earthquake reconnaissance and lessons learned.
Seismic risk assessment and mitigation strategies.
Earthquake early warning systems.

Bridge Engineering

Innovative bridge designs and aesthetics.
Long-span bridge construction and materials.
Cable-stayed and suspension bridge technology.
Bridge health monitoring and maintenance.
Bridge inspection and assessment techniques.
Advanced seismic retrofitting of bridges.
Smart bridges and sensor technology.
Bridge management and asset management systems.
Innovative bridge construction techniques.
Load rating and capacity evaluation of existing bridges.

Traffic Engineering

Traffic flow modeling and simulation.
Adaptive traffic signal control systems.
Pedestrian and cyclist safety studies.
Intelligent transportation systems for traffic management.
Congestion pricing and traffic demand management.
Driver behavior analysis and safety measures.
Intermodal transportation planning.
Traffic impact assessment of new developments.
Transportation planning for urban and rural areas.
Sustainable transportation infrastructure.

Urban Planning and Design

Sustainable urban development and planning.
Smart city infrastructure and technology integration.
Urban revitalization and brownfield redevelopment.
Transit-oriented development (TOD) planning.
Green building and urban design.
Affordable housing design and policy.
Historical preservation and urban conservation.
Mixed-use development and zoning.
Resilient urban planning for climate change.
Inclusive and accessible urban design.

Surveying and Geospatial Engineering

Land surveying and cadastral mapping advancements.
Remote sensing and GIS applications in civil engineering.
3D laser scanning and point cloud data analysis.
Geodetic surveying for infrastructure projects.
UAVs (drones) in geospatial data collection.
GPS technology for precise positioning in construction.
BIM integration with geospatial data.
Underground utility mapping and detection.
Geospatial analysis for disaster management.
Geospatial data privacy and security.

Energy-Efficient Buildings

Net-zero energy building design.
Energy-efficient HVAC and lighting systems.
Passive solar design for buildings.
Green roofs and living walls in urban design.
Building energy modeling and simulation.
Building envelope insulation and materials.
Daylight harvesting and control systems.
Carbon footprint reduction in building design.
Sustainable building certification (LEED, BREEAM, etc.).
Building-integrated renewable energy systems.

Advanced Computational Techniques

Finite element analysis in structural design.
Computational fluid dynamics for hydraulic modeling.
Artificial intelligence in civil engineering applications.
Machine learning for predictive maintenance in infrastructure.
Optimization algorithms for infrastructure design.
High-performance computing in engineering simulations.
Data analytics for infrastructure asset management.
Digital twins in civil engineering projects.
3D modeling and visualization tools for design.
Virtual reality (VR) and augmented reality (AR) in construction.

Disaster Resilience and Risk Management

Disaster risk reduction strategies for infrastructure.
Post-disaster recovery and reconstruction planning.
Seismic and tsunami hazard mitigation measures.
Floodplain mapping and management.
Climate change adaptation for infrastructure.
Resilience of lifeline systems (water, power, etc.).
Risk assessment and vulnerability analysis.
Emergency response planning for natural disasters.
Insurance and financing for disaster recovery.
Public awareness and education for disaster preparedness.

Sustainable Transportation Technologies

Electric and hybrid vehicles in transportation.
Hydrogen fuel cell technology in transport.
Sustainable fuels for aviation and shipping.
High-speed magnetic levitation (maglev) trains.
Hyperloop transportation system feasibility.
Green infrastructure for urban transportation.
E-mobility and charging infrastructure.
Sustainable transportation policy development.
Impact of ride-sharing and carpooling on traffic.
Multi-modal transportation integration.

Innovative Bridge Materials

Self-healing concrete in bridge construction.
Carbon fiber-reinforced polymers (CFRP) in bridges.
Ultra-high-performance concrete (UHPC) for bridge connections.
Bamboo as a sustainable bridge building material.
Bridge cable materials and corrosion resistance.
Innovative composites for bridge components.
Timber bridge construction and sustainability.
Green bridge design with vegetation integration.
Recycled and upcycled materials in bridge building.
Smart materials for real-time bridge health monitoring.

Smart Infrastructure and IoT

Internet of Things (IoT) applications in infrastructure.
Sensor networks for structural health monitoring.
Smart traffic management systems and IoT.
Predictive maintenance of infrastructure using IoT.
Asset tracking and management in construction.
Smart city infrastructure development.
Energy-efficient street lighting systems.
Environmental monitoring with IoT.
Remote control and automation of infrastructure.
Data analytics for smart infrastructure decision-making.

Nanotechnology in Civil Engineering

Nanomaterials for enhanced construction materials.
Nanosensors for structural health monitoring.
Nanotechnology applications in water treatment.
Nano-coatings for corrosion protection.
Nanomaterials in geotechnical engineering.
Nanoparticles for pollutant removal in soil and water.
Nanofibers in lightweight and high-strength materials.
Nanostructured materials for earthquake resistance.
Nanorobotics for infrastructure inspection and repair.
Nanotechnology in sustainable building design.

Examples of Recent Research Breakthroughs

To illustrate the impact of research in civil engineering, let’s look at a few recent breakthroughs in the field:

3D-Printed Concrete Structures: Researchers have developed 3D-printing technology that can construct complex concrete structures, offering cost-effective and sustainable building solutions.
Self-Healing Materials: Self-healing materials , such as concrete that can repair its own cracks, have the potential to extend the lifespan of infrastructure.
Smart Transportation Systems: Smart transportation systems use real-time data and sensors to optimize traffic flow and reduce congestion, making transportation more efficient and sustainable.
Zero-Energy Buildings: Research into zero-energy buildings has led to the development of structures that produce as much energy as they consume, reducing the environmental impact of construction.

Challenges and Considerations

As you embark on your civil engineering research topics journey, consider these challenges and important factors:

Ethical Considerations: Ensure that your research is conducted with the highest ethical standards, considering the safety and well-being of both people and the environment.
Funding Opportunities and Grants: Seek out funding sources and grants to support your research endeavors. Many organizations offer financial support for innovative civil engineering projects.
Collaboration and Networking: Collaborate with fellow researchers, attend conferences, and join professional organizations to network and stay updated with the latest developments in the field.

Selecting the right civil engineering research topics are the first and most crucial step in your journey as a civil engineering researcher. The choice of topic can define the impact and success of your research. The field of civil engineering is vast, dynamic, and full of exciting possibilities.

Whether you’re interested in structural engineering, geotechnical engineering, transportation systems, environmental engineering, or construction management, there are countless avenues to explore.

As you embark on your research, remember that every innovation in civil engineering contributes to a more sustainable and advanced world.

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Civil Engineering Dissertation Topics

Published by Carmen Troy at January 10th, 2023 , Revised On April 19, 2024

The importance of civil engineering works in the modern world cannot be understated, thanks to the growing public and commercial infrastructure requirement. The main focus of civil engineering is to develop a sustainable society where businesses can flourish.

Civil engineers in today’s world are keen to develop sustainable buildings, and therefore sustainable construction research topics are frequently researched by civil engineering students.

To help you get started with brainstorming for civil engineering topic ideas, we have developed a list of the latest topics that can be used for writing your civil engineering dissertation project.

These topics have been developed by PhD-qualified writers of our team , so you can trust to use these topics for drafting your dissertation.

You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the problem, research question , aim and objectives, literature review along with the proposed methodology of research to be conducted. Let us know if you need any help in getting started.

Check our example dissertation to get an idea of how to structure your dissertation .

You can review step by step guide on how to write your dissertation here.

2024 Civil Engineering Research Topics

Topic 1: building demolition- analyse the efficacy of destroying and ruining big city structures and their impact on the traffic..

Research Aim: Many big cities around the world have demolished a vast number of buildings that were functional with new structures. It not only has an economic impact but also results in the loss of urban culture, harms the environment, cause pollution, and also worsen the traffic situation. This study will evaluate the merits of building demotion and will provide economic, technical and environmental input.

Topic 2: Rural housing at low cost- Improving Water Diversion, Electricity Grids, and other Infrastructure to reduce the expenses.

Research Aim: Water, sanitation, wastewater systems, electricity, and rural infrastructure all impact human development outcomes. This study will examine rural housing at a low cost focusing on the improvement of water diversion, electricity grids and infrastructure services. It will also look into the policies made to avoid certain problems and help us understand how these things have influenced life in rural regions.

Topic 3: Examining the use of Activated Flash as a Binder in pavement adjustments to allow acceptable tension reinforcing stresses in order to Control Cracking in concrete.

Research Aim: This study will examine the use of activated flash as a binder in pavement adjustments to allow acceptable tension reinforcing stresses to control cracking. Cracks usually emerge as a result of mechanical loads, adverse response and environmental impact, and the frequent cracking negatively impacts the performance of concrete. This study will focus on the appropriate measures that should be taken, designs, material and construction practices to extend the life without any loss.

Topic 4: Strengthening an existing structure to allow it to withstand climate change - An analysis.

Research Aim: Buildings are dependent on environmental conditions. This study will analyse the strengthening of the existing structure to protect it from the effects of climate change. Focusing on the material used for the protection, sustainability and strengthening of the building and the adaption of new construction standards. A milder temperature will lower the lifespan of building materials and impact the indoor climate of the building. More storms, snow or subsidence damage, water encroachment, and a bad indoor environment all contribute to a reduced building lifespan, raising the risk of collapse, worsening health, and significant loss of value in return.

Topic 5: An investigation of the use of Graphene-Fabricated nanoparticles for Water Purification- Comparison between Cost-Effectiveness and Benefits.

Research Aim: The main goal of this study is to conduct a unique investigation of the use of manufactured nanomaterials of graphene for water purification. The project intends to undertake a comparison of the benefits and cost-effectiveness of graphene processes. Furthermore, this study also intends to give an evaluation of graphene nanomaterial’s impact on water treatment and will analyse many futures and emerging perspectives.

Covid-19 Civil Engineering Research Topics

Topic 1: civil engineering after coronavirus: identify the consequences of covid-19 on civil engineering in the uk or any country of your choice..

Research Aim: This research will focus on identifying the impacts of coronavirus on civil engineering in the selected country.

Topic 2: Research to study the damage caused to the construction projects due to the lack of workers on site.

Research Aim: This study will focus on identifying the damage caused to construction projects as the workers are staying away from the sites. What measures are taken to complete these projects and recover the loss?

Topic 3: Contractors and Builders after Covid-19: business industry, tender opportunities, and planning to continue business

Research Aim: This research aims at identifying the conditions faced by contractors and builders. What is their plan to deal with the COVID-19 crisis? How did it affect the business industry and tender opportunities?

Topic 4: Cite Operating Procedures: research the various safety measures for workers, contractors, and engineers working on construction sites.

Research Aim: This research is conducted to know about various safety measures taken by the government and private organisations for workers, contractors, and engineers working on construction sites.

Topic 5: Investigate how civil engineers are working from home: Identify whether remote working can be a long-lasting solution to recover the loss caused by Covid-19.

Research Aim: Remote working has emerged as a ray of hope for mechanical engineers amid this pandemic. This research will focus on the advantages and disadvantages of remote working and also answer the question of whether it is a long-lasting solution or not.

Topic 6: Research to study the economic and labour crisis as a result of Coronavirus

Research Aim: This research will focus on the financial loss and labour crisis caused due to the outbreak of the coronavirus pandemic.

Topic 7: Research to study the disruption of the supply chain, shortage of contractors, workers, and material, cancellation of contracts due to COVID-19

Research Aim: This research will focus on identifying the disruption of the supply chain, shortage of contractors, workers, and material, cancellation of contracts as a result of Covid-19.

Topic 8: Research to throw the light on the future of the construction Industry after the Coronavirus pandemic.

Research Aim: This research will focus on predicting how the construction industry will transform after the COVID-19 pandemic. What challenges may it face, and what could be the possible ways to meet those challenges?

Civil Engineering Dissertation Topics for 2023

Topic 1: computational mechanics and modelling.

Research Aim: This research aims to study the role of computational mechanics and to model In civil engineering

Topic 2: Development in Rock Mechanics

Research Aim: This research aims to highlight the recent developments in Rock Mechanics

Topic 3: Assessment of the bridges with innovative ideas

Research Aim: This research aims to address the need to assess bridges and propose innovative ideas for bridge constructions and designs.

Topic 4: Efficiently managing the water resources

Research Aim: This research aims to focus on the effective management of water resources during constructions

Topic 5: Stability of high rise buildings

Research Aim: This research aims to address the issues of the instability of high-rise buildings and stress on ensuring their stability by highlighting the gaps in the literature review and providing a strong recommendation for researchers.

Topic 2: Behavior of steelwork connection at large deflection in a fire

Research Aim: This research study will explore the behaviour of steelworks at large deflection in a fire. The researcher will use a unified computing model to simulate the behaviour of steelworks and their impacts on the deflection in the fire. Several other factors will also be identified in the study, such as limiting temperature criteria, loading and unloading effects, and explosion load ratios.

Topic 3: User-friendly model of degrading groundwater pollution plume

Research Aim: Groundwater pollution plumes consist of degradable compounds and materials, which results in declining the overall natural processes and their effectiveness to marine life. There have been studies that aimed to explore the slow degradation processes of pollution plumes in groundwater. However, this is particular research will aim to explore different factors that cause groundwater pollution plumes and contributes to its slow degradation process. Finally, the study will propose a user-friendly model to degrade the groundwater pollution plume.

Topic 4: Examination of advanced solution strategies for non-linear FE analysis

Research Aim: This research is aimed to explore the role of advanced solution strategies that help the engineers and builders to carry out Non-linear FE analysis. In this study, the researcher will demonstrate the static and dynamic problems related to the non-linear effects of solid structures and systems.

Topic 5: Strength, stiffness, non-linearity, and the volumetric response of concrete under triaxial compression

Research Aim: In this study, the researcher will demonstrate the behaviour of concrete under the situation of triaxial compression. The researcher aims to understand the stiffness, volumetric and compressive behaviour of concrete which may cause the deformation in concrete when pressure is applied.

Research to Set up Remote Sensing Applications to Assist in the Development of Sustainable Enterprise
Research to Study and Develop Water Treatment Processes
Research to Study Sustainable Construction Materials and Technologies
Research to Study Sustainable Engineering: New Objectives for Construction Projects
Research Regarding Micromechanics of Granular Materials.
Research to Transform a Manufacturing Plant to a Sustainable Enterprise.
Research to Study the Relationship Between Sustainability and Learning Organisation.
Research to Study the Impact of Sustainability Concepts on Organisational Growth and Development.
Research to Ensure Sustainable Heat Conservation Generated from Compressors within a Manufacturing Site.
Research to Study and Develop Waste Reduction Strategy to Achieve Sustainable Concepts
Research to Study Properties of Concrete to Achieve Sustainability.
Research to Study the Relationship between Lean Manufacturing and Sustainable Manufacturing.
Research to Study Sustainability and its Impact on Learning Organisation.
Development of Sustainable Homes with the Help of Renewable Energy Sources.
Seismic Design of Cold Formed Steel Structures in Residential Applications
Living Tree Buildings

Also Read: Human Resource Management Dissertation Topics

Application of Ultra High Strength Concrete in LNG Terminals
Mechanical Behaviour of Bridge Bearings of Concrete Bridges
Winter Damage of Porous Asphalt
Human Induced Lateral Vibration of Bridges
The Optimization of Tripod Substructure and its Application to Two Different Topsides
Traffic Induced Bearing Loads and Movements of a Steel Plate-girder Bridge
Snap through of Large Shield Driven Tunnels
A Timber Bearing Structure for ‘Concept House
The Sustainable Refurbishment of BK City
The Elevated Metro Structure in Concrete, UHPC, and Composite
Covering A28 Highway at Amersfoort
Numerical Modelling of Turbidity Currents in Submarine Channels
Post-trenching with a Trailing Suction Hopper Dredge
Morphological Impact of Coastal Structures
Modelling Nearshore Currents Driven by Waves and Set-up Gradients
Gaining New Insights Regarding Traffic Congestion, by Explicitly Considering the Variability in Traffic
Dynamic Behaviour of Tunnel Elements 38 During the Immersion process
Long-term Morphological M0delling of the Mouth of the Columbia River
“Feasibility Study of a Climate Dike”
Conditioning of Aggressive Water
Swale Filter Drain System: The Inflow – Discharge Relation.
Low Cost Disdrometer
Observing Tidal Slack in the Scheldt Estuary
Clogging of Permeable Pavements 53 in Semi-arid Areas
Analyzing the Effects of Large-scale Green Roof Implementation in Singapore
Accelerating the Introduction of Electric Bicycles
A Critical Reappraisal of Some Problems in Engineering Seismology
Systems and Sustainability: Sustainable development, Civil engineering and the Formation of the Civil Engineer
Sustainable Engineering: The Future of Structural Design
Environmentally Sustainable Construction Products and Materials – Assessment of release

Not Sure Which Dissertation Topic to Choose? Use Our Topic Planning Service

Also Read: Dissertation Topics in Engineering Management

Important Notes:

As a civil engineering student looking to get good grades, it is essential to develop new ideas and experiment on existing civil engineering theories – i.e., to add value and interest in your research topic.

The field of civil engineering is vast and interrelated to so many other academic disciplines like construction , law , engineering management , healthcare , mental health , artificial intelligence , tourism , physiotherapy , sociology , management , marketing and nursing . That is why it is imperative to create a project management dissertation topic that is articular, sound, and actually solves a practical problem that may be rampant in the field.

We can’t stress how important it is to develop a logical research topic; it is the basis of your entire research. There are several significant downfalls to getting your topic wrong; your supervisor may not be interested in working on it, the topic has no academic creditability, the research may not make logical sense, there is a possibility that the study is not viable.

This impacts your time and efforts in writing your dissertation as you may end up in the cycle of rejection at the very initial stage of the dissertation. That is why we recommend reviewing existing research to develop a topic, taking advice from your supervisor, and even asking for help in this particular stage of your dissertation.

While developing a research topic, keeping our advice in mind will allow you to pick one of the best civil engineering dissertation topics that fulfil your requirement of writing a research paper and add to the body of knowledge.

Therefore, it is recommended that when finalizing your dissertation topic, you read recently published literature to identify gaps in the research that you may help fill.

Remember- dissertation topics need to be unique, solve an identified problem, be logical, and be practically implemented. Please take a look at some of our sample civil engineering dissertation topics to get an idea for your dissertation.

How to Structure your Dissertation on Civil Engineering

A well-structured dissertation can help students to achieve a high overall academic grade.

A Title Page
Acknowledgements
Declaration
Abstract: A summary of the research completed
Table of Contents
Introduction : This chapter includes the project rationale, research background, key research aims and objectives, and the research problems to be addressed. An outline of the structure of a dissertation can also be added to this chapter.
Literature Review : This chapter presents relevant theories and frameworks by analysing published and unpublished literature available on the chosen research topic, in light of research questions to be addressed. The purpose is to highlight and discuss the relative weaknesses and strengths of the selected research area whilst identifying any research gaps. Break down of the topic, and key terms can have a positive impact on your dissertation and your tutor.
Methodology: The data collection and analysis methods and techniques employed by the researcher are presented in the Methodology chapter which usually includes research design, research philosophy, research limitations, code of conduct, ethical consideration, data collection methods, and data analysis strategy .
Findings and Analysis: Findings of the research are analysed in detail under the Findings and Analysis chapter. All key findings/results are outlined in this chapter without interpreting the data or drawing any conclusions. It can be useful to include graphs , charts, and tables in this chapter to identify meaningful trends and relationships.
Discussion and Conclusion: The researcher presents his interpretation of results in this chapter, and states whether the research hypothesis has been verified or not. An essential aspect of this section of the paper is to draw a linkage between the results and evidence from the literature. Recommendations with regards to implications of the findings and directions for the future may also be provided. Finally, a summary of the overall research, along with final judgments, opinions, and comments, must be included in the form of suggestions for improvement.
References: This should be completed in accordance with your University’s requirements
Bibliography
Appendices: Any additional information, diagrams, graphs that were used to complete the dissertation but not part of the dissertation should be included in the Appendices chapter. Essentially, the purpose is to expand the information/data.

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How to find dissertation topics about civil engineering.

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.

Relevant Civil Engineering Research Topics for Undergraduates

Looking for civil engineering research topics and materials as an undergraduate? We have probably thousands of relevant civil engineering research topics you can browse and choose from, or even use to generate your own unique research idea/topic.

If you’d like to take a look at the complete database of civil engineering research topics (including projects, thesis, dissertations, seminars) check below link

Database of Civil Engineering Research Topics

Selection of Suitable Civil Engineering Research Topics for Undergraduates

We have compiled a sample list of latest research topics in civil engineering. You can check them out or go through the entire civil engineering research topic list.

(1) Integrated Solar and Hydraulic Jump Enhanced Waste Stabilization Pond

This study on the integrated solar and hydraulic jump enhanced waste stabilization pond (ISHJEWSP) is aimed at determining the effect of variations in solar radiation, hydraulic jump, hydro-kinematic factors and pond geometry, on the treatment efficiency of wastewater in the ISHJEWSP. An equation to account for these effects was derived, calibrated and verified. An empirical regression model for the prediction of the Biochemical Oxygen Demand (BOD5) in the ISHJEWSP for sewage treatment was also developed.

(2) Design and Simulation of a Control System for a Center Pivot Irrigation Device

In the agricultural projects that use the center pivot irrigation system, which depends on the groundwater wells as a source of water using turbine pumps, which are actuated by internal combustion engines, the suspension of the center pivot irrigation device on the movement when a malfunction occurs with its continuous flow of water is a big problem and waste water, fuel and time,

(3) Investigation into the Causes, Effects and Prevention of Cracks in Building

Investigation into the causes, effects and prevention of crack in building, cracks this is a kind of defects that occur into building structure which rendered building unsightly and reduces building stabilities. Cracks may be of structural failure or non-structural problem which may act slightly, moderate or several. They are save or dangerous depending on the size and characteristics of each i.e. 0-3-1.00, 1-2, 2-5,5-15 and 15-25 (mm) respectively survey of building were made in some selected area in Ilorin west L.G.A Ilorin, were aerial photographs were taken, site investigation were made in some selected areas

(4) Numerical Investigation On the Effects of Embedding Pvc Pipes in Reinforced Concrete Beams

Performance of beams with pvc pipes embedded at the center or with an eccentric pipes needs design consideration of influencing variables such as the pipe size and the location of the pipe being embedded. This was performed analytically where six RC beams of dimension (300×450 and span of 3500) were modeled in Abaqus 6.10-3 of which one was a solid beam and the 5 had varying pipe sizes and location of the pipe as designated (B-25.4, B-50.8mm,B-76.2mm,B-101.2mmE50 and 127mmE 100mm).

(5) Assessing Solid Waste Management in Bwaise to Design an Appropriate Handling System

This report is from a study that looks at the nature, practices, challenges, and possible solutions for solid waste management systems in Bwaise, Kampala. The study used mainly questionnaires, interviews and observation. The findings suggest that in Bwaise, poor communities could generate income from waste disposal activities, if certain measures are put in place. Furthermore, in this area, 60% of the garbage is biodegrable, composed mainly of food related waste.

(6) Design of A Two Storeyed Classroom Block for Aripea Secondary School

This is my final year project report for the award of a Bachelor’s degree in civil engineering at Kampala International University that presents the structural Design of a two storied classroom block for Aripea secondary school. This report comprises of three chapters, highlighting the order in which the design was carried out. A detailed introduction of the project that was considered for the design; which includes the background and introduction of both the project and the site.

(7) Derivation of Polynomial Functions for The Prediction of Critical Axial Forces in Bridge Trusses

This study presents the derivation of polynomial functions for the prediction of critical axial forces in bridge trusses. Four different bridge trusses were considered in this study, three of which are statically determinate while one is statically indeterminate. These trusses at different height to span (aspect) ratios were tested for critical axial forces under the same conditions. The graphs of their critical axial forces against aspect ratios were plotted and this led to the findings that these axial forces fit into certain polynomial behavior (equations).

(8) Determining The Structural Characteristics of Chikoko Mud-Cement Concrete Using Scheffe’s and Osadebe’s Techniques

This study investigated the structural characteristics of chikoko mud-cement concrete. The structural characteristics of chikoko mud-cement concrete investigated were compressive strength, flexural strength, shear strength and split tensile strength while the elastic properties investigated were static modulus of elasticity, poisson’s ratio and shear modulus. The water absorption of chikoko mud-cement concrete as a reflection of concrete durability was also investigated

(9) Computer Aided Geometric Design of Access Roads for Housing Estates, Using Generated Traffic Data: The African University of Science and Technology/ Bridge Estate, Abuja, Nigeria, as a Case Study

The proposed Access Roads which will connect the Airport Road to the main gate of the African University of Science and Technology, Abuja, Nigeria and the proposed Bridge Housing Estate when constructed will foster broader community goals by promoting business activities within and around the University environment.

(10) Final Year Project Proposal on Effect Of Reprocessed Pure Water Sachet (Pws) on the Properties Of Wood Wool (A Case Study of Omo Wood Alstonia Longensis)

Right from when man stated to build, he has been compelled to use the locally available materials around him. Building has now become major construction material allover the world has necessitated a critical study of its constituent materials. More so, the present economic crunch calls for cost saving measures on the part of engineers/researchers involved in the management of the country’s project.

(11) A Projection Report on the Effect of Geometric Properties (Shape) on the Strength of Interlocking Paving Stone

Interlocking paving stone is a good surface material produce as a result of mixture of aggregate to produce a good workability surface. This research work investigates on how the shapes affect the strength after production. The materials used include cement, sharp sand, quarry dust or granite dust and water.

(12) A Study On Geotechnical Investigation Of Dhaka Mass Rapid Transit Development Project (Dhaka Metro Rail)- Line-06

Metro Rail is a mass rapid transportation system and also environment friendly. It is also a modern technology for transportation. To overcome the future demand and to make a short and less time consuming transportation system, Bangladesh Government has taken this project. It is a fast and time saving transportation system which is really needed for Dhaka. This study covers to find out geotechnical investigation and to compare the pile bearing capacity load between NKDM Corporation and manual calculation.

(13) Structural Performance Of Lateritic Concrete Containing Palm Kernel Shell (PKS) As A Partial Replacement Of Coarse Aggregate

Sand has traditionally been used as fine aggregate in structural concrete. It is usually imported from relatively distant places at high costs, and this increases the overall cost of making concrete and of providing housing in various Nigerian communities. This study investigates the performance of 409/o of laterite as fine aggregate in place of sand, and specifically seeks to determine whether lateritic concrete containing pies would satisfy the minimum compressive strength requirement of BS 8110 (1997) for use in reinforced concrete works, which is 25 N/mm.

(14) Effects Of Oil Palm Frond Ash On The Geotechnical Properties Of A Lime Stabilized Lateritic Soil

Agro-based and bio-wastcs generally referred to as solid wastes are good stabilization materials. Different solid wastes have been used by various researchers combining two or more at different times to treat soil and improve its engineering properties since the long term performance of any construction project depends on the soundness of the underlying soils.

(15) Design Of A Water Storage And Transmission System For Wastewater Reuse In Covenant University

This research is focused at designing of water storage facilities of size 875,000 litres (750,000 litres for underground water storage, and 125,000 Litres for elevated steel tank) of treated wastewater and its transmission system for the storage and re-use of treated wastewater. The project is aimed to structurally design water storage facilities and its transmission system from the reservoir to the overhead tank for the re-use of treated wastewater in Covenant University.

(16) Appraisal Of Construction Management Practice In Nigeria

Construction industry has complexity in it nature because it contains large number of parties such as clients, consultants and contractors. The factors that influence construction management practice differ from country to country, due to prevailing conditions. The objective of this project is to identify factors that influence construction management practice in Nigeria construction industry and elicit perceptions/ranking of the severity using relative importance index of the various factors. A comprehensive literature review was conducted to generate a set of factors believed to influence construction management practice in Nigeria.

(17) An Appraisal of Highway Maintenance Management in Nigeria

The primary objective of this work is to form the foundation of a Road Management Maintenance System (RMMS) that Road Maintenance Agencies like FERMA can immediately implement to make better decisions pertaining to rehabilitation options. Further, this is to allow for appropriate decisions about the best type of maintenance and rehabilitation interventions to apply to the poor state of arterial roads taking into consideration various factors, least of which are the type and extent of distress present and the benefit cost analysis.

(18) Water Resources Governance In The Upper Swakop Basin Of Namibia

This dissertation examined and presented adaptive water governance analysis and tools for the Upper Swakop Basin (USB) in Namibia where integrated river basin management is still in its infancy. The water governance concerns in the basin include pollution monitoring and control challenges that are further threatening the security and adequacy of the developed drinking water sources. By applying and triangulating different methods (models, statistical analysis, quantitative and qualitative measures etc.), this study uniquely analysed the water governance issues in the Upper Swakop Basin.

(19) Analysis Of The Effect Of Polypropylene Polymer (Crushed Plastic Waste) On Oven Dried Laterite Bricks

The sandcrete blocks have been a major material for the construction of structures in Nigeria. This material have provided a means of constructing walls and partition. However, the sandcrete blocks also have the disadvantage of cost and unavailability of materials such as granite, cement and other combining aggregates.

(20) Comparative Study On The Strength Of Lightweight Foamed Concrete Using Different Reagents (Lithofoam & Sodium Lauryl Sulphate)

This project presents the results of the investigation conducted on a lightweight foamed concrete using different reagents; Sodium Lauryl Sulphate (SLS) and Lithofoam, with a view to determining its potential as a construction material in Nigeria. The properties investigated on the foamed concrete having target density of 1800kg/m3 were: workability, bulk density and compressive strength.

Search for more research topics in civil engineering .

Undergraduate research projects

Explore all current Civil & Environmental Engineering research opportunities for undergraduates below. Note the projects that interest you most before you fill out the research application. Students are welcome to independently pursue research opportunities outside of the Civil & Environmental Engineering Department, including opportunities with other University departments or programs, as well as outside of the University with an off-campus research group or other institutions.

Undergraduate research application

Clear laboratory sample tubes with rocks in them

David Hanigan (Environmental sciences & health)

Ongoing research includes measuring and mitigating the impact of humans on surface and drinking water quality, with emphasis on small organic molecules.

Cement channel with water flowing into it from large pipes on the right

Eric Marchand

Laboratory research focuses on evaluating advanced treatment processes aimed at removing nutrients and select contaminants during water and wastewater treatment. We use environmental chemistry and microbiology principles to enhance water quality and promote water reuse in the region.

Graph illustrating "PSA" on the y-axis and "Period" on the x-axis

Floriana Petrone

Areas of research include advanced simulation methods and machine learning for performance assessment of structures subjected to extreme events; characterization of earthquake hazard and risk to the built environment with focus on reinforced concrete buildings and distributed systems; and uncertainty quantification in performance-based seismic design.

Photo collage of four pictures: three pictures of stoplights and one of LiDAR data

My research deploys 360-degree LiDAR sensors at intersections or other road sites with traffic questions. The high-resolution 3D cloud points data from LiDAR is processed into all-road-user trajectories. Data is then analyzed. Students can be involved in any step of the process based on interest, background knowledge, previous experience and research projects requirement.

Artist's rendering of a building and shake table

Ryan is working with collaborators to test a new seismic lateral system for tall timber building. A 10-story building will be tested on the large outdoor shake table at University of California San Diego in summer 2022. Ryan expects to have funding for an REU student (ideally having completed junior year) to work on this project at UCSD in summer 2022.

Two researchers in lab wearing white lab coats and purple gloves talking

Krishna Pagilla

We have paid and voluntary undergraduate research opportunities on water treatment, wastewater reclamation for reuse and COVID-19 monitoring through wastewater surveillance during regular semesters as well as summer. Initial training and mentoring will be provided. Students must take laboratory safety training prior to conducting the research.

Two researchers looking at a blue circular container with a small orange bucket beneath it

Mohamed Moustafa

We work on applications of advanced construction materials such as ultra-high performance concrete (UHPC) for future structures and infrastructure systems. Students may join any of the continuously ongoing experimental and laboratory activities that include UHPC mixing, material characterization testing, large-scale specimens fabrication, etc.

Pavement engineering and science

The Western Regional Superpave Center conducts local/ regional / global projects on pavement system stability, pavement construction quality management and pavement responses to transient dynamic loadings. Current research thrust: responsible use of materials for flexible pavement systems.

Ramin Motamed

Interested in hands-on research on the response of foundations in earthquakes? Helical piles are one of the pre-manufactured deep foundation types that are commonly used to underpin foundations suffering from excessive settlements. This study evaluates the dynamic behavior of helical piles in dry and liquefiable soils through a scaled shake table tests.

Man sitting, facing right, at computer station

Yu (Frank) Yang

My group researches the reactions of organic carbon in natural and engineering systems, with implications on carbon cycles and water reuse. We use state-of-the-art technologies to studying organic carbon, especially the quinone-phenol components, ubiquitous in natural and engineered water bodies.

Yu Yang scholar profile

Yu Yang's University website

Undergraduate Research

Participation in hands-on research helps students understand theory and retain knowledge while training them for their future profession.

Research Experience for Undergraduates (REU)

CEE Research Experiences for Undergraduates are paid positions that give you the opportunity to actively participate in research and work with faculty, graduate students and other researchers on ongoing projects. REUs develop not just your research skills, but also your interpersonal skills.

Note: the CEE REU program is meant for new undergraduate research opportunities; therefore, it is not applicable to undergraduate students who are already working for a faculty member.

The program will be announced within two weeks of the start of a semester (Fall, Spring, and Summer II). Request for proposals will be sent, and posted on the Undergraduate Blog , to faculty and undergraduate students with exact deadlines and requirements.
Talk to a faculty member in your area of interest to find out if they are available to partner on an REU, then work with them on a one/two page proposal. Proposals can only be submitted by CEE faculty members on behalf of their students.
The length of employment will be 12 weeks (10 hrs per week) in the Fall and Spring semesters and 6 weeks (20 hrs per week) in the Summer at the hourly rate of $12.50 per hour. The total amount an undergraduate student will receive is $1,500 per student per semester of employment.
Each faculty member is limited to two students per year and students are eligible for two REUs during their undergraduate studies. In some cases, an undergraduate provides such value to the faculty's research that they are funded for ongoing work.

Who should apply:

The REU program is designed to engage undergraduates in research early in their academic careers.

Any undergraduate student interested in gaining research experience is encouraged to apply!

What is involved:

The types of REU projects students participate in vary in terms of scope and the type of work being done. In some cases they involve research publications, which may be very helpful in job searches and graduate school applications.

Why you should apply:

Getting involved with research is a great way to put classroom concepts into practice while helping you establish a close working relationship with a member of the faculty and with graduate students.

Read about some student research experiences:

Students explain their undergraduate research projects.

Students participating in the REU program during the Fall 2022 semester share a little bit about the projects with why they are involved.

Undergrad helps with research into sea ice leads

Interest in the climate crisis led Cici Teng to environmental engineering and a project on sea salt particles in the atmosphere.

First-year class project leads to start-up

A team project on sidewalk repair cost estimates leads a CEE student to establish a start-up for automated civil engineering inspections.

More undergraduate opportunities for research:

There are many other opportunities for undergraduates to participate in hands-on research including several courses that offer design projects, field experiences and even travel for real world problem-solving. These include CEE195 About Civil Engineering, CEE458 Water Resources Field Methods, CEE449 Environmental Engineering Lab, and CEE 190/398 Special Topics.

A student-driven initiative called PURE can also help you find undergraduate research opportunities. The PURE Research Program is an interdisciplinary program in Grainger Engineering that pairs freshman and sophomore undergraduates with research mentors. Learn More →

The Grainger College website also features a number of resources for undergraduates interested in research opportunities. Learn More →

Undergraduate Research

Undergraduate research in engineering is defined as mentored investigations conducted by undergraduate students that seek to expand the boundaries of knowledge and contribute to the engineering community.

Why get involved in undergraduate research?

Research can enhance the undergraduate experience by allowing students to take the skills and knowledge learned in the classroom and apply them to real situations.

It affords students the opportunity to interact closely with faculty and, in many instances, to develop valuable industry connections. When involved in research, students will also find themselves working with peers who share their passion for learning.

Learning more about undergraduate research at Cornell:

Please review the following pages for advice tailored for undergraduate students enrolled in the College of Engineering. To learn more about ongoing research topics in the College of Engineering, explore department and faculty web sites .

Cornell Undergraduate Research Board
Journal of Undergraduate Research and Scholarly Excellence
Council on Undergraduate Research
Career Development Toolkit: Research Module

Getting Started in Undergraduate Research

Finding Research Opportunities at Cornell

Funding Your Research

Summer Research Opportunities

Student in blue shirt smiling in front of a walkway and building

I am a Cornell student researcher

I love to explore engineering approaches to the study of the natural world, understand the impact of research, and improve human health.

My advice to other engineering students interested in research: commit to becoming an expert in what research interests you.

- Rocky An '23, biological engineering, undergraduate researcher in Clark Lab

Student in a blue jacket outdoors lifting lumber

The one thing I love about research is the collaboration aspect. Throughout my summer research experience, I had the opportunity to connect and collaborate with a diverse array of individuals.

My advice to other engineering students interested in research: Don't be afraid to reach out to professors whose work you are interested in and to other peers who might have done research. Look at research that might not be directly related to your major, I had a couple friends who really enjoyed applying their engineering skills to different projects.

- Azeezah Ladoja '25, civil engineering, undergraduate researcher in Nair's Research Group

Additional Resources

In addition to the resources provided here, we encourage you to check out an overview of undergraduate research at Cornell and guidance on getting started through the University's central Office of Undergraduate Research .

If you are an enrolled student, be sure to visit the Research Module within the Career Development Toolkit as well. To access the Toolkit, you can self-enroll . If you are already enrolled and want to dive in, jump to the course . In canvas you can also go to Courses > All Courses > Browse More Courses to search for the Toolkit.

Undergraduate Research

There are many ways to become involved with research at Virginia Tech. Opportunities may simply appear, but there is no direct match for student to interest. It is your responsibility to secure an opportunity. If you are interested in a specific topic or subject, you will need to find the people who are studying that topic. With the wealth of diversity and faculty interests within the College of Engineering and to make available information thereof to all interested and concerned parties.

Review the faculty website profiles for the CEE faculty members . In each profile, there is a section titled “Areas of Interest” which describes a bit about the work interests of each faculty member.
Use the College of Engineering’s Faculty Expertise Guide to help you in location the specific interests of people outside the CEE department.
Review the information on the University’s Office of Undergraduate Research . Unique opportunities and contacts may be available through the avenue.

Approval forms are needed for undergraduate research and independent. All information must be completed legibly and submitted to Ms. Lattimer for review. It is especially important that information is attached providing a description of the study as indicated on the form.

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Undergraduate Research

Undergraduate students in civil engineering and environmental engineering can gain research experience under the mentorship of our faculty members.

Participating in undergraduate research provides students with an inquiry-based learning opportunity and engages them as active learners in a laboratory setting.

CSEE undergraduate student in the environmental engineering lab.

Featured Undergraduate Research Opportunities in Civil, Structural and Environmental Engineering

Start a project to build skills and gain real-world experience for your career. The Experiential Learning Network's Project Portal is the easiest place to get started! Once you start a project, you can also pursue an ELN Digital Badge to display your accomplishments to future employers and graduate schools.

Many of our faculty members work with students from university-wide programs, including:

Experiential Learning Network (ELN)
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SUNY Louis Stokes Alliance for Minority Participation (LSAMP)
Research Experience for Undergraduates

Featured Undergraduate Research

Environmental Engineering senior presents The Flow Project at the World's Challenge Challenge as part of a UB team.

Junior civil engineering student Paolo Bourdeau, plans to use research he developed at UB to make his home country Haiti more resilient.

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Faculty welcome work-study students into their laboratories. If you are interested in working with a particular faculty member, contact them directly. Positions also open up in our staff office throughout the year. Work-study positions are a great opportunity for students to gain work experience in a professional or lab environment. You must have a valid work-study award letter to be eligible for these positions. Bring the letter with you when you meet with your potential employer.

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Project Topics for Undergraduate Students in Civil Engineering

The problems of the world are solved through research, hence, knowledge of research processes, conduction of actual research, and the presentation of a reasonable report form a significant part of the conditions for the award of any higher studies degree (undergraduate and post-graduate studies). The complexity and size of the research often increase as the level of studies increases. Undergraduate research studies are usually far simpler than Master’s research studies. Likewise, Ph.D. research studies are usually the most elaborate and it is channeled toward solving a significant problem. Presented below are research topics suitable for undergraduate studies in Civil Engineering. The topics are not exhausted and it is proper that each research is streamlined towards the challenges around the immediate environment where the research is being done or the host country owing to the limited time and resources usually associated with undergraduate research. The topics are categorized according to the different specializations in Civil Engineering.

Investigation of Erosion Disaster: Case Study
Geotechnical Properties of Soil: Case Study
Investigation into the Pozzolanic Properties of Palm Bunch Ash
Evaluation of Laterites for Use as Hydraulic Barriers: Case Study
Undrained Shear Behavior of soils: Case Study
Compressibility Behavior of Lime-Stabilized Lateritic Soils
Evaluation of Geotechnical Properties of Lateritic Soil used in Road Construction: Case Study
Soil-Cement Stabilization for Road Pavement Using Particular Soils
Effect of Water-Proof (Sachet Water) on Lateritic Soil
Design of Farm tank/Silos
Use of Counterfeit Retaining Wall to Control Gully Erosion: Case Study
Review of Slope Stability Problems and Excavation Support Systems
Effect of Granular Materials Inclusions on Shrinkage Behaviour of Compacted Lateritic Soils
Lateritic Soil Stabilization Using Granular Materials: Comparative Study
The Effects of Fine-Grained Particles Variation on the MDD and CBR of Laterites
Contributions of Geotechnical Properties of Soil to Foundation Failure of Buildings: Case Study
Compaction Behaviour of Coarse-Grained Lateritic Soil
Lime-Cement-Coconut Coir Ash Lateritic Soil Stabilization
Evaluation of Properties of Lime-Treated Lateritic Soil-Bentonite Mixture
Investigation of the Strength Characterization of Concretes made with Different Coarse Aggregates
Investigation of The Effect of Shape and Configuration on Steel Trusses
Cost Comparison of Trapezoidal and Rectangular Reinforcement Concrete Drainages
Effect of Sizes of Coarse Aggregate on the Compressive Strength of Concrete.
Investigation into the Suitability of Palm Kernel Shells as a Partial Replacement of Coarse Aggregates in Concrete Production
Comparative Cost Effects of Prevailing Civil Engineering Codes of Practice on Reinforced Concrete Beam Carrying One Way Spanning Slab (EC 2 And BS 8110 As A Case Study).
Effect of Shape Configuration on the Deflection of Timber Trusses.
Analysis and Design of Five Storey Building with Roof Top Swimming Pool
Structural Analysis and Design of a Standard Size Stadium
Analysis and Design of a Framed Steel Mast Structure
The Structural Analysis of Multicellular Drainage Channels using Flexibility Method
Building Collapse in Nigeria: Case Study
Effects of Common Water Repellent Admixture on the Flexural Strength of Concrete
The Structural Analysis and Design of an Olympic Size Swimming Pool
Investigation into the use of Laterite Soil as an Alternative to Sharp Sand in the Production of Cement Blocks
Cracks in Reinforced Concrete Slab, Causes, and Prevention
Strength Comparison of Light Weight Concrete made from Palm Kernel Shell as An Alternative to Coarse Aggregate in Concrete Production.
Design of Double-Celled Box Culvert: Case Study
Effects of Common Water Repellant Admixture on Compressive Strength of Hardened Concrete.
Compressive Strength of Concrete made with Local and Crushed Rock Aggregates (Comparative Analysis)
Effect of Oil Palm Trunks Fiber on the Mechanical Properties of Concrete (Compressive and Flexural Strength)
Structural Analyses and Design of 500m 3 Capacity Cylindrical, Reinforced Concrete Silo for Storage of Grain Material
Production of Concrete Using Rice Husk Ash as an Additive
Structural Analysis and Design of Reinforced Concrete Olympic Standard Swimming Pool in an Area of High-Water Table
Investigation of the Effect of Secondary Stresses on the Cost of Steel Truss
Effects of Coconut Fibre on Concrete Properties (Compressive and Flexural Properties)
Structural Analysis and Design of a Reinforced Concrete Football Stadium
Investigation into the Water Sealing Property of Rice Husk Ash in Concrete
Investigation on the Possible Replacement of Fine Aggregate (Sand) with Quarry Dust in Concrete Production
Effect of Crushed Palm Kernel Shell Ash as partial Sand and Cement Replacement in the Mechanical Properties of Concrete. (Compressive and Flexural Strengths)
Effects of Course Aggregate Gradation on some Concrete properties
Application of Force Method in the Analyses and Design of 50,000 Litre Capacity Cylindrical Tank
Comparative Analysis of Bridge Truss Using Graphical and Analytical Methods
Optimum Design of Welded Plate Girders
Plastic and Elastic Analysis of Timber as a Structural Material
Cost and Strength Benefit Analysis of the Major Cement Brands in Nigeria
Timber as a Material in Bridge Design: Social, Economic and Environmental Analysis
The Use of Small-Dimensional Timber in Construction
Strength Characteristics of Gmelina Timber across and Parallel to the Grain for three Different Sources
A Presentation on the Analysis of the Bending Stiffness and Strength of Glue Laminated Timber
The Comparative Study in Coagulation of Stream Using Alum and Ferric Chloride: Case Study
Problems of Water Supply and Possible Remedies: Case Study
Sustainable Wastewater Treatment and Refuse in Urban Areas of Developing Countries: Case Study
The Effects of Industrial Wastewater in the Body of the River: Case Study
A Knowledge Attitude and Practice of Water Supply: Case Study
Groundwater Pollution Due to Discharge of Effluent from Industry to Surface Water: Case Study
Assessment of Water Quality of Some Commercial Boreholes used for Public Water Supply: Case Study
Water Quality Assessment of a Recirculating Aquaculture System with Trickling Filter
Design of Parshall Flume for free Flow Condition in Open Channel
Demonstration of Hydraulic Jump in a Rectangular Flume
Intensity Duration Frequency (IDF) Curve for a given area
Investigation of Solar Distillations as a Sustainable Treatment for a Drinking Water
Demonstration of a Water Hammer Effect Using a Laboratory Scale Hydraulic Ram Pump
Treatment of Drinking Water Using Lab-Scale Cascade Aerator
Evaluation of the Effect of Leachate on Surface Water: Case Study

Highway and Transportation Engineering

Causes of Pavement Failure and Solution: Case Study
The Limitations of Surface Dressing on the Nigerian Traffic
Transport Systems and the Nigerian Environment: Case Study
Possible Causes of Road Traffic Accidents and Measures to Minimise it
Risk Accident and Hazard Management on Highway Construction
Effective Management of Road Transportation System in Nigeria: Case Study
An Appraisal of Road Development in Nigeria
Highway Maintenance, Appraisal in Developing Countries
Influence of Spatial Variation in Subgrade Properties on the Integrity of Highway Pavement Design
Effects of Bitumen Content on the Quality of Asphalt used in the Construction of Flexible Pavement
Investigation into the Causes of Road Traffic Crashes
Solid Waste Management in Urban Areas: Case Study
Problems and Solutions of Conventional Wastewater Disposal Techniques in Nigeria: Case Study
Municipal Solid Waste Management: Case Study
Physio-Chemical Analysis of Leachate from Solid Waste Site: Case Study
Variation of Effects of Contaminants from Municipal Solid Waste (MSW) with depth from Ground Surface: Case Study
Landfill Leaching and its effects on Groundwater Quality: Case Study
Comparative Study of Biogas Production from Two Different Animal Dung
Effect of Biofilm Thickness in the Treatment of Domestic Effluent
A Comparative Study on Aluminium Chloride and Banana Stem Juice as a Coagulant for spent Coolant Wastewater
Problems, Strategies, and Prospects of Refuse Management: Case Study
Coagulation and Antimicrobial Activities of Chromolaena Odorata

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undergraduate research topics in civil engineering

Research in Civil & Environmental Engineering (CEE) covers an extremely broad range of topics. What binds them together is a context of public works and service - research that benefits the public good. Whether in civil infrastructure, environmental engineering or engineering systems and management, the research conducted in CEE is at the cutting edge of technological and scientific developments.

Research Areas

Concentrations in Civil Infrastructure include Geotechnical Engineering and Structural Engineering.

Concentrations in the Environmental Major include Environmental and Water Resources Systems, Environmental Fluid Mechanics & Hydrology, and Environmental Processes.

Concentrations in Engineering Systems and Management include Environmental and Water Resources Systems, Complex Systems Engineering, and Transportation Systems Engineering.

School of Civil and Environmental Engineering

College of engineering, explore our research.

Our researchers collaborate with industry, government agencies and universities to conduct research that is significant on a local, national, and global scale.

The School of Civil and Environmental Engineering has an active and vibrant research enterprise supported by more than $80 million in sponsored funding from private industry and state and federal agencies, including the National Science Foundation, Georgia Department of Transportation, the U.S. Department of Defense, and NASA.

The School’s ability to attract sponsored projects can be attributed to our diverse research topics combined with a commitment to advances in science and technology that support the global economy, secure the health and safety of communities, and maintain and enhance the environment.

We are also committed to working across traditional boundaries to incorporate partners from other disciplines and students at all levels to address the grand challenges of our time.

Academic Groups

Our teaching and research is organized broadly across the sub-disciplines of civil and environmental engineering into six affinity groups. Visit each group's page to learn more about faculty and key research topics.

A researcher demonstrates technology to two firefighters

Interdisciplinary Research

Our four broad, cross-cutting research areas—Smart Cities, Healthy Communities, Sustainable Systems and Resilient Infrastructure— were created to develop new knowledge, technology and innovations, and invent a future where our global society thrives.

Undergraduate Research

Students typically do research in a lab under the guidance of a professor or an advanced Ph.D. student or post-doctoral assistant. Read about faculty research to find areas that interest you.

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Available projects

Research thesis presentations.

Blast Doors and Disc Bridge Bearings by Nicholas Thibodeau (Supervisor: Dr. Alan Lloyd)
Climate Change and Baseflow by Kiera Dolan (Supervisor: Dr. Kerry MacQuarrie)
Feasibility Study of Vibration Analysis for ASR Evaluation by Dikshaiye Mathoora (Supervisors: Dr. Kaveh Arjomandi & Dr. Michael Thomas)
Structural Health Monitoring of Integral Abutment Bridges by Kathryn Esligar (Supervisor: Dr. Kaveh Arjomandi)

Construction

For more details about the topics below, contact Dr. Jeff Rankin ( [email protected] ).

Some general themes for projects would consist of:

Analyses of sustainable municipal infrastructure projects and practices
Alternative financing and procurement of municipal infrastructure projects
Assessing performance impacts of technology adoption in construction projects

Please contact Dr. Xiomara Sanchez ( [email protected] ) if you have any questions about projects listed below.

Comparison of different additives to improve aggregate bonding in asphalt mixtures

The study will involve a through literature review on the techniques used to improve aggregate- asphalt bonding and testing of some mixtures with different additives to measure the relative improvement regarding to moisture damage.

Low cost performance tests for quality control of asphalt mixtures

The student will research literature looking for different techniques to assess the performance of thermal cracking, fatigue and rutting of hot mix asphalt with low cost techniques, and will have the opportunity to test one of those techniques in the lab.

A fourth year student interested in completing an undergraduate research thesis (CE5963) project is needed.

This project is to be completed under the joint supervision of Dr. Alan Lloyd (Civil Engineering) and Dr. Gobinda Saha (Mechanical Engineering). The project is to be completed over the Fall and Winter semesters of the 2016/2017 academic year. It is open to a student interested in structural engineering and civil engineering materials. The research thesis course is worth 6ch and replaces two technical elective courses in the final year.

The project scope includes the following:

Develop knowledge on current design principles related to ultimate strength and ductility of structures under extreme loads such a seismic and blast as well as the use of internal fibre reinforced polymer (FRP) reinforcement bars in reinforced concrete (RC).
Collect literature to assess the state of the art of ductile FRP materials for use in civil engineering structures.
Using computational methods, assess RC structures reinforced with ductile FRP to determine the feasibility of the material.

Please contact Dr. Alan Lloyd directly ( [email protected] ) if you are interested in this project.

Structural and geotechnical

The following projects focus on numerical, analytical and practical analysis and design methods in the structural and geotechnical engineering fields.

Please contact Dr. Kaveh Arjomandi ( [email protected] ) if you have any questions about the projects listed below:

Structural Steel Design

Using Component Based Models to Analyze and Design Steel Connections
Design Methods for Cantilevered Beams Subjected to Bending
Analysis and Design methods for Simple Shear Connections Subjected to Combined Loading
Nonlinear Analysis and Design of Gusset Plates

Soil-Structure Interaction

Deep Foundations Subjected to Dynamic Loads
Strip Foundations on Layered Soil Slope
Earth Pressure on Facial Retaining Walls
Use of Compressible Layer Behind Integral-Abutment Bridge Walls

Structural Health Monitoring

Structural Health Monitoring Methods - Theory and Practice

Structural Reliability

Reliability Analysis of Existing Steel Structures
Reliability Analysis of Existing Concrete Structures
Reliability Analysis of Structures with Significant Soil-Structure Interaction

Design projects

Design projects may also be considered as research thesis topics.

Please contact Dr. Won Taek Oh ( [email protected] ) if you have any questions about the projects listed below:

The research listed below will provide students with opportunities to learn the mechanics of unsaturated soils and its application into geotechnical engineering practice. Students are encouraged to read Introduction to Unsaturated Soil Mechanics to understand basic concepts of the mechanics of unsaturated soils before applying for these research topics.

Soil-Water Characteristic Curve and its application

Soil-Water Characteristic Curve (SWCC) is the relationship between degree of saturation and soil suction, which is the most commonly used tool to analyze mechanical properties of unsaturated soils. This research focuses on various models to predict the SWCC and to understand how it can be used in estimating mechanical properties of unsaturated soils.

Bearing capacity of unsaturated soils

In conventional soil mechanics, bearing capacity of soils are estimated using either effective or total stress approach assuming soils are in a state of saturation. In this research, students will study how the bearing capacity changes as soils get desaturated.

Determination of elastic modulus of soils

Elastic modulus is a key parameter to estimate elastic settlement of soils. Students will investigate various experimental and analytical methodologies to determine the elastic modulus in both saturated and unsaturated soils.

Slope stability of unsaturated soils

Students will conduct slope stability analysis in unsaturated soils. This research will provide students with opportunities to learn slope stability analysis methods in unsaturated soils considering rainfall infiltration using slope stability software.

Transportation

If you are interested and/or require further info on the projects below, please contact either Dr. Trevor Hanson ( [email protected] ) or Eric Hildebrand ( [email protected] ).

Developing a travel data collection plan for New Brunswick’s volunteer driver programs.
The influence of physical and spatial attributes of bus stops on transit ridership in Fredericton.
Operational Performance of the Smythe Street Roundabout Project.

Student research theses 2021

Alyssa van de riet, b.sc. civil engineering.

Simulation of Off-site Construction Productivity

The construction industry is moving towards off-site production for both safety and quality improvements. As with any production line, the goal in off-site construction is to be as efficient as possible. For her undergraduate research thesis, Alyssa developed a simplified simulation of the production process at Alantra Leasing. The project is now being continued as the topic for her master’s degree thesis, incorporating various productivity improvement techniques.

Alyssa is from Shubenacadie Nova Scotia. After graduation, she will be continuing with her master’s degree at UNB. When she is not doing research or on a construction site, she enjoys hiking, highland dance, being active and hanging out with friends!

Caleb Coulson

Excavation Design of Storage Rooms for a Hypothetical Deep Geological Repository

The Nuclear Waste Management Organization (NWMO) has proposed the Deep Geological Repository (DGR) for the long-term storage of nuclear waste in Canada. This facility consists of many long storage rooms, 500-700m underground in stable rock formations. The rooms of the DGR needs to remain strong and isolate the waste from the environment for hundreds of thousands of years. To ensure the safety of the facility, an analysis of how the rock will respond to the presence of exaction is necessary. This project was undergone to see how a hypothetical rock formation would respond the presence of different size storage rooms and evaluate the safety of the rooms under different stress conditions.

Caleb is a graduating civil engineering student from Bible Hill, NS. He has spent the last year focusing on geotechnical engineering, concrete technologies, hydrogeology, and project management practices. After graduation, Caleb is beginning his master’s of science in engineering at UNB under the supervision of Dr. Othman Nasir.

Kari Anderson

Roundabout Collision Study

In recent years, roundabouts have been introduced to communities across New Brunswick and Prince Edward Island as a safe and efficient alternative to traditional signalized intersections. Designed with both single and double lanes and located on all classes of roadway, the safety performance of these structures with respect to vehicle collisions was never formally investigated.

This research thesis provides an analysis of collisions which have occurred at roundabouts in the provinces of NB and PEI to reinforce the performance and safety of roundabout intersections. Collisions obtained from police reports (>$1,000 damages) were analyzed for patterns, rates and the potential for improvement calculated.

The results of this study will assist in decision making and support research for future roundabout construction in the province and promote the safety of roundabouts.

Having the opportunity to live in four different Canadian provinces, it is difficult to choose a hometown; however, Kari has lived in Oromocto, NB during her years at UNB. She enjoys the outdoors, traveling, and the environment of continuous learning provided by engineering. After graduation, Kari is excited to be pursuing work in transportation engineering in Calgary, Alberta.

Keagan Hudson Rankin

A Review of Canadian Highway Bridge Inspection

This undergraduate research project completed a review of bridge inspection in Canada. The review looked at the evolution of bridge inspection demand and technology since the 1940s and forecasted the future of bridge inspection. It included a case study and a potential high-level inspection plan for New Brunswick.

Keagan is an engineering student from Fredericton, New Brunswick. After graduation, he will begin his M.A.Sc at the University of Toronto in the fall. Keagan is interested in applying technical knowledge to solve problems in sustainable infrastructure. In his spare time, Keagan participates in university/club rowing, plays various sports with his friends, and enjoys reading literature.

Kristen Burns

Active Transportation Connection

Route 8 in Fredericton, New Brunswick separates College Hill and Skyline Acres. It can be over a three-kilometre drive to travel to a point that is a couple of hundred metres in straight line distance between the two neighbourhoods. Pedestrians currently attempt to cross the busy highway, which poses a safety risk to both drivers and pedestrians. The Active Transportation Connection will provide an accessible pedestrian and cycling bridge across Route 8, with hopes to facilitate the transition of people from motorized models to more active modes through a change in their travel behaviour.

The goal of this research was to create a travel demand model for the use of a new pedestrian and cycle bridge as part of the first phase of the Active Transportation Connection and to quantify its impact on travel behaviour of the people in the city. The travel behaviour was examined before and after the active transportation infrastructure was modelled to quantify any impacts of introducing the link into the network.

This research and model displayed that active transportation can be incorporated into different models to estimate users of new active transportation infrastructure. Expanding the model to the entire City of Fredericton would create an even more accurate model to determine the number of users crossing the new link.

Kristen is originally from Mississauga, Ontario and came to UNB to study engineering and play volleyball for the Varsity Reds. Kristen’s family moved to Douglas, New Brunswick 3 years ago and are all enjoying exploring this province. After graduation, Kristen is pursuing a master’s degree at UNB. This will continue with research completed during her undergrad and will look at active transportation planning and forecasting.

Garrett Murray

Volunteer Driver Programs for Rural Transportation in PEI

The purpose of this project was to assess the ability for volunteer driver programs to function in Prince Edward Island as a solution to their limited rural transportation options, and to model the estimated demand for the program in PEI. Volunteer driver programs (VDPs) are organized transportation programs where volunteers offer to drive community members to their desired locations, which is often a significantly attractive option for older adults.

Using previously collected data for New Brunswick VDPs, the number of older-adults aged 65+ that are expected to use a VDP, and the number of volunteers that are expected to provide services for the program were estimated. From these numbers, and using several New Brunswick transportation planning statistics, a transportation model showing all VDP trips across PEI was created. This model displayed where all VDP trips would theoretically be travelling to and from if a VDP was started on PEI and allowed the overall usage of the service to be predicted and compared to the numbers of existing VDP’s.

Garrett Murray grew up in the rural community of Augustine Cove, Prince Edward Island. After earning his Civil Engineering degree, Garrett’s immediate plans include stepping into the industry and working for a civil engineering consultant on PEI. In the future, Garrett would like to move away and either work or attend graduate school in a larger city with the goal of gaining more valuable experience in the engineering industry.

Shelby Benjamin Banfield

Study of the Effects of Using Recycled Plastic Containing Low Density Polyethylene as a Portion of Aggregates in Asphalt Concrete

Pollution is a huge concern in today's world, and a large contributor of this pollution is plastics. Research has been conducted around the world on using recycled polymers from plastics to benefit asphalt concrete (pavement). Positive benefits were discovered including improved water sensitivity and better rutting resistance. The research conducted so far was primarily in warm climate areas.

This research project involved taking recycled Low-Density Polyethylene (LDPE), which is typically used in plastic bags, and incorporating it as part of an asphalt mix in a laboratory setting. This mix is going to be compared with a conventional (control) asphalt mix. A preliminary mix containing 3% of plastic (by weight of the mineral aggregates), was prepared using a dry process. This involves adding the plastic to heated aggregates in which the plastic will melt and coat the aggregates. This is done before mixing with the binder to create asphalt mixes. To date, a volumetric analysis was completed which showed that the plastic mix requires less compaction effort to achieve desired air voids. Semi-circular bending tests were also completed. Results showed that the control mix has a higher cracking resistance over the plastic mix, but both samples are considered to have excellent cracking resistance after long term aging. Several additional studies will be conducted on these mixes, as well as mixes containing plastics from additional sources in a master’s thesis project. Such testing will include dynamic modulus to predict behaviour of mixes over a range of temperatures; flow number to determine how many vehicles the pavement can handle; and resistance to moisture, using several freeze-thaw cycles to determine long-term stripping capability.

Shelby is from McCallum, NL, which consists of a population below 100 people. He came to Fredericton, NB to complete a degree in Civil Engineering. After graduation, Shelby is undergoing an Accelerated Masters at UNB with Dr. Sanchez. Shelby plans to remain in Atlantic Canada upon graduation and work with Asphalt testing for a career.

Barry Riordon

Can the gravity model be an effective health transportation planning tool for New Brunswick?

With over 50% of New Brunswick’s population living in rural areas, it is noted that there are various difficulties to healthcare accessibility when considering the rural senior population. This issue is exemplified by referring to the effects of aging, making driving very challenging or impossible over time. It is also very common that rural areas don’t have the means to public transportation, where older adults may not even have access to a vehicle. Not only is there a problem surrounding transportation usage, but there are also significant challenges to recruit and retain staff members in smaller rural facilities, which leads to temporary closures. These conditions ultimately contribute to the engulfed and overwhelming distances required by seniors to travel to a healthcare facility.

To understand this growing problem in the province, where the average age in most regions is constantly increasing, the goal of my exploratory research was concerned with determining whether the gravity model can be used to estimate quantified senior trip behaviors to healthcare facilities in New Brunswick. Subsequent to the success of this main research objective, the study proceeded to modify the produced model to see how changes in healthcare facilities, such as a hospital closure or a reduction in bed numbers, would change the allocation of health trips. This exploratory study is very significant, as transportation planners and policy decision makers often require reliable forms of accessibility data to address certain transportation problems. Considering that the majority of research and policy efforts to improve access and eradicate disparities in healthcare have focused on reducing costs, which has typically involved consolidating rural health facilities to urban ones, this original study could potentially improve the understanding and approach to the province’s healthcare accessibility concerns.

This study expanded on the distinguished research efforts of Brianna Morehouse with the supervision of Dr. Trevor Hanson.

Barry Riordon is from a small village in North East New Brunswick called Pokeshaw. With his recently found passion for transportation engineering, Barry intends to pursue his interests by continuing his research in a M.Sc.E in the Fall of 2021. Until the start of his graduate program, Barry will be working with Roy Consultants as a junior engineer in the transportation department. Following the completion of his masters, Barry plans to return to the workforce as a transportation engineer.

Riley Taweel

Evaluation of Accelerated Test Methods for Alkali-Silica Reaction Prevention: Miniature Concrete Prism Test

For his undergraduate research thesis project, Riley worked under Dr. Michael Thomas and conducted research pertaining to a newly developed test method used to screen aggregates used in concrete for their potential to undergo a reaction known as Alkali-Silica Reaction (ASR). In addition to determining the reactivity potential of aggregates, the Miniature Concrete Prism Test (MCPT) was used to determine the efficacy of techniques used to mitigate ASR.

The motivation for this study was to determine the viability of the MCPT for routine use in the concrete industry – currently, the tests that are available are either too slow, or are unreliable, and the MCPT was designed to be the solution to these issues. A common symptom of ASR is the expansion of hardened concrete as it ages. As such, concrete test specimens were cast and stored in a sodium hydroxide solution and the expansions of the specimens were measures and recorded at various ages up to 84 days (12 weeks). More expansion is associated with higher reactivity and lower efficacy of mitigation techniques, and lower expansion is associated with the opposite. From this experimental testing, it was found that the MCPT was a good test for identifying the reactivity of aggregates, but not so good for determining the efficacy of techniques used to prevent ASR. Due to the size and scope of this study, there is further investigation required before the MCPT and its results can be widely accepted as industry best practice for ASR testing.

Riley’s hometown is Cornwall, Prince Edward Island, a small town just west of Charlottetown. After graduation, Riley plans to pursue a master’s degree in civil engineering. Until the beginning of his master’s program, Riley will be working for the City of Charlottetown’s Public Works Department as an E.I.T. Outside of work and school, Riley’s hobbies include playing golf, woodworking, and beach-going.

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Department of Civil, Environmental, & Construction Engineering

About the Department of Civil, Environmental, and Construction Engineering

The Texas Tech University Department of Civil, Environmental, and Construction Engineering has earned international prominence in several areas. Traditionally, one of the broadest of engineering disciplines, Civil, Environmental, and Construction Engineering at Texas Tech has recently expanded its curriculum to encompass even more academic options in response to societal needs. In addition to the bachelor's degree based on structural, environmental, geotechnical, transportation, construction, and water resources, students now have opportunities for course work and research experience leading to masters and doctoral degrees in civil engineering, a master's degree in environmental engineering, and a graduate certificate in construction engineering and management. The Civil, Environmental, and Construction Engineering Building houses excellent laboratories, classrooms, and computer facilities for teaching and research.

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Dr. Kayleigh Millerick Wins George T. and Gladys Abell-Hanger Faculty Award

CECE Faculty Member Contributes to Study on “Forever Chemicals” Click here to view The Guardian news article...

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Civil and Environmental Engineering

Undergraduate degree options.

As an undergraduate in either our BS in Environmental Engineering or BS in Civil Engineering programs, you will complete approximately two years of math and science and two years of engineering coursework. Students from both programs will work together in four hands-on project courses, one each fall. Taking advantage of free elective courses can also allow you to pursue an additional major or a minor from a variety of areas of study. Recent graduates have completed additional majors in Engineering and Public Policy, Psychology, and Technical Writing and minors in Architecture, Computer Science, and Business.

Some of our students also choose an additonal major or minor with our I ntegrative De sign, A rts and Te chnology Network (IDeATe). This unique program connects diverse strengths across Carnegie Mellon University to advance education, research, and creative practice in domains that merge technology and arts expertise.

Motivated students who want to gain a competitive edge in their career can get a jump start with our Integrated BS/MS program. This program gives you an accelerated path to earn your master's degree seamlessly with your bachelor's degree.

Bachelor of Science (BS)

Civil engineering.

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Our Bachelor of Science program in Civil Engineering  is an accredited and widely recognized degree program for entry into the civil engineering profession.

Environmental Engineering

The new Bachelor of Science program in Environmental Engineering  integrates computing and data analytics with a traditional environmental engineering course of study.

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Minor: Environmental and Sustainability Studies

The minor in Environmental and Sustainability Studies offers an interdisciplinary approach to environmental and sustainability issues beyond a traditional engineering major degree program.

Six courses are required with offerings from a wide range of disciplines, including architecture, business, engineering and public policy, english, history, and philosophy.

Minor: Global Engineering

The Global Engineering minor prepares you to join an international community. Courses are designed to increase global awareness and international experiences.

Requirements include coursework in international management, ethics, modern language, as well as a study or work abroad experience.

Visit the Undergraduate Course Catalog for ideas for other double majors and minors.

Concentrations and Minor: Interactive Design, Arts & Technology Network (IDeATe)

The I ntegrative De sign, A rts and Te chnology Network (IDeATe) connects diverse strengths across Carnegie Mellon University to advance education, research, and creative practice in domains that merge technology and arts expertise. IDeATe concentrations and minors provide the opportunity for you to choose from creative industry themes such as intelligent environments, physical computing, and media design. Courses are focused on hands-on collaborative learning and are structured to combine students from many different disciplines.

IDeATe supports eight interrelated undergraduate concentration areas, all of which can also be taken as minors. The themes of these areas integrate knowledge in technology and arts: Game Design, Animation and Special Effects, Media Design, Sound Design, Learning Media, Innovation and Entrepreneurship, Intelligent Environments, and Physical Computing.

Concentrations are completed by taking four courses, while minors require five courses.

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CIVIL ENGINEERING UNDERGRADUATE PROJECT TOPICS, RESEARCH WORKS AND MATERIALS

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Undergraduate study
2024 Degree programmes A‑Z

Civil Engineering (jointly offered with Singapore Institute of Technology (SIT))

Civil Engineers design, develop and create the built environment which surrounds us by improving our quality of life across a wide variety of sectors. In order to prepare students for this dynamic industry, the programme at SIT encompasses a wide range of topics ranging from the study of buildings, bridges and transport systems through to geotechnics, dams, water supply and environmental engineering. In order to produce industry-ready graduates, there is a particular focus on project-based learning. This takes place through a three week Overseas Immersion Programme (OIP) in Glasgow, UK and an Integrated Work Study Programme (IWSP) which comprises an eight month structured learning programme embedded in industry. These pivotal projects alongside the carefully designed course structure will provide you with the knowledge, skills and understanding to help you embark on a career within this exciting, fast-changing profession. Flexible programmes that cater to full-time or SkillsFuture Work-Study are available.

Introducing the School of Engineering

The University established a Regius Chair of Civil Engineering and Mechanics in 1840, making Glasgow the oldest university school of engineering in the UK. We have been delivering a world-class engineering education for more than 160 years, building and sustaining an excellent international reputation.
Each year our 2,500 undergraduate and postgraduate students are taught by staff renowned for their leading-edge research.
In the UK’s 2014 independent research exercise (REF), we were placed within the top 5 in the UK for our “internationally excellent” and “world-leading” research.
We have access to excellent facilities and collaborate with other leading universities and research institutes worldwide on a range of projects that address the technological needs of society.
The education we provide is informed and supported by our links with industry and industrially relevant research. In Singapore, the UofG-SIT programmes seek to provide students with various dimensions of exposure to local industry in order to enhance their employability upon graduation.
All of our existing MEng and BEng degrees are accredited by their respective professional bodies.

Introducing Singapore Institute of Technology

Singapore Institute of Technology (SIT) is Singapore’s university of applied learning. It aims to be a leader in innovative university education by integrating learning, industry and community. SIT offers applied degree programmes targeted at growth sectors of the economy.

As Singapore’s university of applied learning, SIT offers its own applied degree programmes with a unique pedagogy that integrates work and study. It also offers specialised degree programmes in partnership with world-class universities.

To find out more about SIT, visit: singaporetech.edu.sg

Programme Structure

An exciting feature of the programme is a visit to Glasgow during the vacation between the second and third years, when you will carry out a group structural design-based project that will examine both the conceptual and detailed aspects of structural design.

In your first year you will study:

Civil Engineering and Sustainable Built Environment
Engineering Physics
Engineering Mathematics I
Civil Engineering Skills
Statics and Structural Mechanics
Graphical Communication
Effective Communication
Engineering Mathematics II
Fluid Mechanics
Civil Engineering Materials
Engineering Geology and Soil Mechanics.

Year 2

In your second year you will study:

Engineering Mathematics III
Hydraulics and Hydrology
Structural Analysis I
Geotechnical Engineering
BIM for Civil Engineers
Transportation Engineering
Environmental Engineering
Structural Analysis II
Structural Design
Professional Communication and Development
Foundation Engineering
Construction Technology
Design of Steel and Concrete Structures
Seminar and Site Visit
Design Project OIP at Glasgow.

During the vacation between years 2 and 3 you will take part in an overseas immersion programme which will be based on a structural design project.

Integrated Work Study Programme
Project Planning and Management
Civil Engineering Practices
Ground Engineering
Rail Engineering
Capstone Project

To be accredited by the Engineering Accreditation Board (EAB) in Singapore

Following successful completion of the BEng (Hons) degree, SIT will offer graduates the opportunity to study the one year MEngTech postgraduate degree.

BEng Civil Engineering Module Description Leaflet 2019

How to apply

This degree programme is jointly offered with the Singapore Institute of Technology (SIT) on the Dover campus in Singapore. Students will graduate will a jointly-awarded degree from the University of Glasgow and SIT.

Applications to this programme are processed by the Singapore Institute of Technology (SIT). Please visit the SIT web site for admissions requirements or to apply online:

www.singaporetech.edu.sg
For programme-related and admission enquiries please contact Singapore Institute of Technology: email: [email protected] (for local students), [email protected] (for international students) or telephone +65 6592 1136.
For enquiries about financial aid , scholarships and pre-matriculated students: email: [email protected] or telephone +65 6592 1150

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Undergraduate Research Key to Finding Future Career Interests

For many undergraduate students in the School of Engineering, research is an integral part of their time as Flyers. Many students choose to work alongside faculty researchers on their personal projects or even research sponsored by national organizations and the military.

Two students currently conducting research with associate professor Dr. Brad Ratliff in his Applied Sensing Lab have found a future career interest in research thanks to the experience.

Michael Taylor

Senior electrical engineering student Michael Taylor just started research work with Dr. Ratliff this semester, but he’s already secured a paid graduate assistantship in the Applied Sensing Lab.

Taylor, from Fairborn, is eager to continue studying for his master’s degree in electrical engineering at UD while also learning more about image and signal processing.

“I found out about Dr. Ratliff’s lab after I mentioned to a friend who was working with him that I was interested in image and signal processing,” Taylor said. “I emailed Dr. Ratliff then met with him and he took me right in. It never occurred to me that finding research opportunities would be that easy.”

Taylor will be working on an Army sponsored project that utilizes object detection. Right now, he’s mainly learning more about the field before he starts working with hands-on applications this summer.

“With research, I like that I kind of can guide it myself,” Taylor said. “I can say, ‘This is something I'm interested in’, and then go do it. I don't feel limited.”

Allison Schafer

For Allison Schafer, an electrical engineering student from Beavercreek, Ohio, UD, electrical engineering — and even research — is a family affair.

Her brother and father are also electrical engineers, her siblings are Flyers and now she is working in Dr. Brad Ratliff’s lab alongside her brother, Austin, who introduced her to Dr. Ratliff during her freshman year and now continues research as a graduate student.

“The research that I am working on has to do with machine learning and image processing,” Schafer said. “My brother and I are taking scans of a parking lot scene Dr. Ratliff made, and we are trying to teach the software to be able to decipher between what in the scan is a car, and what is not.”

Schafer enjoys her research because it provides her an opportunity to learn more about electrical engineering outside of her classes.

“As an undergrad, we have to take some classes that we may not be interested in,” Schafer said. “Doing this research really just helps guide you on the right path with what elective classes you may want to take here, and sparked my interest to learn more and take certain classes dealing with image and signal processing.”

After graduation, Schafer is looking forward to continuing into a master’s program and a career in research.

“I very much enjoy the research aspect of this job because I enjoy furthering my knowledge every day with what I do,” Schafer said.

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New major crosses disciplines to address climate change

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Lauren Aguilar knew she wanted to study energy systems at MIT, but before Course 1-12 (Climate System Science and Engineering) became a new undergraduate major, she didn't see an obvious path to study the systems aspects of energy, policy, and climate associated with the energy transition.

Aguilar was drawn to the new major that was jointly launched by the departments of Civil and Environmental Engineering (CEE) and Earth, Atmospheric and Planetary Sciences (EAPS) in 2023. She could take engineering systems classes and gain knowledge in climate.

“Having climate knowledge enriches my understanding of how to build reliable and resilient energy systems for climate change mitigation. Understanding upon what scale we can forecast and predict climate change is crucial to build the appropriate level of energy infrastructure,” says Aguilar.

The interdisciplinary structure of the 1-12 major has students engaging with and learning from professors in different disciplines across the Institute. The blended major was designed to provide a foundational understanding of the Earth system and engineering principles — as well as an understanding of human and institutional behavior as it relates to the climate challenge . Students learn the fundamental sciences through subjects like an atmospheric chemistry class focused on the global carbon cycle or a physics class on low-carbon energy systems. The major also covers topics in data science and machine learning as they relate to forecasting climate risks and building resilience, in addition to policy, economics, and environmental justice studies.

Junior Ananda Figueiredo was one of the first students to declare the 1-12 major. Her decision to change majors stemmed from a motivation to improve people’s lives, especially when it comes to equality. “I like to look at things from a systems perspective, and climate change is such a complicated issue connected to many different pieces of our society,” says Figueiredo.

A multifaceted field of study

The 1-12 major prepares students with the necessary foundational expertise across disciplines to confront climate change. Andrew Babbin, an academic advisor in the new degree program and the Cecil and Ida Green Career Development Associate Professor in EAPS, says the new major harnesses rigorous training encompassing science, engineering, and policy to design and execute a way forward for society.

Within its first year, Course 1-12 has attracted students with a diverse set of interests, ranging from machine learning for sustainability to nature-based solutions for carbon management to developing the next renewable energy technology and integrating it into the power system.

Academic advisor Michael Howland, the Esther and Harold E. Edgerton Assistant Professor of Civil and Environmental Engineering, says the best part of this degree is the students, and the enthusiasm and optimism they bring to the climate challenge.

“We have students seeking to impact policy and students double-majoring in computer science. For this generation, climate change is a challenge for today, not for the future. Their actions inside and outside the classroom speak to the urgency of the challenge and the promise that we can solve it,” Howland says.

The degree program also leaves plenty of space for students to develop and follow their interests. Sophomore Katherine Kempff began this spring semester as a 1-12 major interested in sustainability and renewable energy. Kempff was worried she wouldn’t be able to finish 1-12 once she made the switch to a different set of classes, but Howland assured her there would be no problems, based on the structure of 1-12.

“I really like how flexible 1-12 is. There's a lot of classes that satisfy the requirements, and you are not pigeonholed. I feel like I'm going to be able to do what I'm interested in, rather than just following a set path of a major,” says Kempff.

Kempff is leveraging her skills she developed this semester and exploring different career interests. She is interviewing for sustainability and energy-sector internships in Boston and MIT this summer, and is particularly interested in assisting MIT in meeting its new sustainability goals.

Engineering a sustainable future

The new major dovetail’s MIT’s commitment to address climate change with its steps in prioritizing and enhancing climate education. As the Institute continues making strides to accelerate solutions, students can play a leading role in changing the future.

“Climate awareness is critical to all MIT students, most of whom will face the consequences of the projection models for the end of the century,” says Babbin. “One-12 will be a focal point of the climate education mission to train the brightest and most creative students to engineer a better world and understand the complex science necessary to design and verify any solutions they invent."

Justin Cole, who transferred to MIT in January from the University of Colorado, served in the U.S. Air Force for nine years. Over the course of his service, he had a front row seat to the changing climate. From helping with the wildfire cleanup in Black Forest, Colorado — after the state's most destructive fire at the time — to witnessing two category 5 typhoons in Japan in 2018, Cole's experiences of these natural disasters impressed upon him that climate security was a prerequisite to international security.

Cole was recently accepted into the MIT Energy and Climate Club Launchpad initiative where he will work to solve real-world climate and energy problems with professionals in industry.

“All of the dots are connecting so far in my classes, and all the hopes that I have for studying the climate crisis and the solutions to it at MIT are coming true,” says Cole.

With a career path that is increasingly growing, there is a rising demand for scientists and engineers who have both deep knowledge of environmental and climate systems and expertise in methods for climate change mitigation.

“Climate science must be coupled with climate solutions. As we experience worsening climate change, the environmental system will increasingly behave in new ways that we haven’t seen in the past,” says Howland. “Solutions to climate change must go beyond good engineering of small-scale components. We need to ensure that our system-scale solutions are maximally effective in reducing climate change, but are also resilient to climate change. And there is no time to waste,” he says.

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3 Questions: New MIT major and its role in fighting climate change

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An education in climate change

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DREAMS Week Spring 2024: Celebration of Undergraduate Research, Scholarly, and Creative Works

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Support Johns Hopkins undergraduates by visiting the weeklong DREAMS (Day of Undergraduate Research in Engineering, Arts, Medicine, and the Sciences) online, sponsored by the Hopkins Office for Undergraduate Research (HOUR) . This week, please take a few minutes to explore and support the research, scholarly, and creative endeavors of Johns Hopkins's dedicated and hard-working undergraduates. Visit online, ask questions, leave comments. Your engagement means so much.

DREAMS Week runs April 15 to April 19: Visit all the presentations online at your convenience or drop in to the live (virtual) presentations, every hour on the hour from 9 a.m. to 8 p.m.

Three reasons to visit DREAMS Spring 2024:

Access is free, quick, and easy: One-click, super-quick, spam-free registration (required) allows you to view all presentations at any time, leave questions and comments, and attend live (virtual) presentations.
Johns Hopkins's students and their mentors need you: Show your support of Johns Hopkins undergraduates by visiting DREAMS and engaging with at least one presenter or project of interest. Your questions and comments are key to students knowing that their work has been seen and appreciated.
You will learn something: The range of projects on display are breathtaking in scope and the presentations are designed to be accessible from novice to expert.

Registration

Please register in advance

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Engineering Research Paper With Best Topics & Writing Help
150+ Best Engineering Research Topics for Students To Consider
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50 Seminar Topics for Civil Engineering
thesis research topics in civil engineering
Engineering-Research-Proposal-Topics-list.pdf

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Civil & Environmental Engineering Research Opportunities
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Most Demanding Emerging Field for Civil Engineering Students in India, High Paying Salary Jobs Hindi
100 most expected questions

COMMENTS

149+ Best Civil Engineering Research Topics For Undergraduates
Railway Civil Engineering Research Topics For Undergraduates. High-speed rail technology: Infrastructure design and operational challenges. Rail track maintenance and performance enhancement techniques. Energy efficiency in rail transportation systems. Integration of magnetic levitation technology in railway networks.
200+ Civil Engineering Research Topics
200+ Civil Engineering Research Topics: Exploring Promising Topics. Civil engineering research is the driving force behind the development of sustainable infrastructure and innovative construction methods. It plays a crucial role in shaping our world, from designing earthquake-resistant buildings to developing advanced transportation systems.
Civil Engineering Dissertation Topics
More Civil Engineering Dissertation Topics for 2024. Topic 1: Reliability of foundation performance and implications for structural design. Topic 2: Behavior of steelwork connection at large deflection in a fire. Topic 3: User-friendly model of degrading groundwater pollution plume.
Relevant Civil Engineering Research Topics for Undergraduates
Selection of Suitable Civil Engineering Research Topics for Undergraduates. We have compiled a sample list of latest research topics in civil engineering. You can check them out or go through the entire civil engineering research topic list. (1) Integrated Solar and Hydraulic Jump Enhanced Waste Stabilization Pond.
Undergraduate Research Projects
We have paid and voluntary undergraduate research opportunities on water treatment, wastewater reclamation for reuse and COVID-19 monitoring through wastewater surveillance during regular semesters as well as summer. Initial training and mentoring will be provided. Students must take laboratory safety training prior to conducting the research.
Undergraduate Research
There are many other opportunities for undergraduates to participate in hands-on research including several courses that offer design projects, field experiences and even travel for real world problem-solving. These include CEE195 About Civil Engineering, CEE458 Water Resources Field Methods, CEE449 Environmental Engineering Lab, and CEE 190/ ...
Research
Research Areas Architectural Engineering. Architectural/Building Systems Engineering research covers topics related to the design and operation of high performance, energy-efficient buildings. It includes experimental and modeling research on thermal and visual comfort, indoor environmental quality, building envelope systems, dynamic façades, lighting and daylighting design and control, HVAC ...
Undergraduate Research
Undergraduate research in engineering is defined as mentored investigations conducted by undergraduate students that seek to expand the boundaries of knowledge and contribute to the engineering community. ... To learn more about ongoing research topics in the College of Engineering, ... civil engineering, undergraduate researcher in Nair's ...
Undergraduate Research
CEE students typically do research in a professor's lab, under the guidance of the professor or an advanced Ph.D. student or post-doctoral assistant who works for that professor. Students interested in undergraduate research should visit the Student Services Office (Mason Building, Suite 1220) to find out more details about the requirements.
Undergraduate Research
Undergraduate Research. There are many ways to become involved with research at Virginia Tech. Opportunities may simply appear, but there is no direct match for student to interest. It is your responsibility to secure an opportunity. If you are interested in a specific topic or subject, you will need to find the people who are studying that topic.
Undergraduate Research
Undergraduate students in civil engineering and environmental engineering can gain research experience under the mentorship of our faculty members. Participating in undergraduate research provides students with an inquiry-based learning opportunity and engages them as active learners in a laboratory setting.
Undergraduate Research Opportunities
Undergraduate Research Opportunities. Purdue's status as a major research institution offers distinct advantages to undergraduate students. These include interaction with outstanding faculty members on a daily basis, choices of a large array of course offerings, and hands-on involvement in research. The Lyles School of Civil Engineering's state ...
Project Topics for Undergraduate Students in Civil Engineering
Presented below are research topics suitable for undergraduate studies in Civil Engineering. The topics are not exhausted and it is proper that each research is streamlined towards the challenges around the immediate environment where the research is being done or the host country owing to the limited time and resources usually associated with ...
Research
Research in Civil & Environmental Engineering (CEE) covers an extremely broad range of topics. What binds them together is a context of public works and service - research that benefits the public good. Whether in civil infrastructure, environmental engineering or engineering systems and management, the research conducted in CEE is at the ...
45+ Civil Engineering Research Topics for Undergraduates
50+ civil engineering research topics for undergraduates. 1). Effects of the Addition of Carbide on Sewage Degradation. 2). The Effect Of Reinforced Concrete On the Safety Of Residential Buildings In Cameroon. 3). A Study on Bacterial Concrete. 4).
Topics in Civil Engineering (structural) undergraduate thesis?
Here are some potential topics for an undergraduate thesis in Civil Engineering (structural): 1. Seismic evaluation and retrofitting of existing structures: This topic involves evaluating existing ...
Explore Our Research
The Georgia Institute of Technology, also known as Georgia Tech, is a top-ranked public college and one of the leading research universities in the USA. Georgia Tech provides a technologically focused education to more than 25,000 undergraduate and graduate students in fields ranging from engineering, computing, and sciences, to business, design, and liberal arts. Georgia Tech's wide variety ...
Civil Engineering Undergraduate Honors Theses
Service Learning Through Extracurricular Activities: Development and Implementation of a Transportation Engineering Learning Module, Karla Diaz Corro. PDF. Improving Spatial Visualization Abilities using 3D Printed Blocks, Vanessa LeBow, Michelle Bernhardt-Barry, and Jyotishka Datta. PDF. Controlling Relative Humidity Using Glycerin, Juan ...
Undergraduate Research Opportunities at Purdue
Undergraduate Research Opportunities at Purdue. Interested in discovering a world of opportunity through research? Check out Engineering Symplicity portal for research opportunities, projects, and updates! Here are some ways you could get involved in research at Purdue. SURF Application (Summer Undergraduate Research Fellowship (SURF))
Projects
A fourth year student interested in completing an undergraduate research thesis (CE5963) project is needed. This project is to be completed under the joint supervision of Dr. Alan Lloyd (Civil Engineering) and Dr. Gobinda Saha (Mechanical Engineering). The project is to be completed over the Fall and Winter semesters of the 2016/2017 academic year.
REU Sites
Research Topics/Keywords: Civil Engineering, Geological Engineering, Mining Engineering, Infrastructure Materials, Resilience and Sustainability, Data Analytics, Remote Sensing, Underground Infrastructure, Transportation Comments: This collaborative REU site award to Colorado School of Mines, located in Golden, CO, Lehigh University, located in Bethlehem, PA, and California State University ...
Civil, Environmental, and Construction Engineering
The Texas Tech University Department of Civil, Environmental, and Construction Engineering has earned international prominence in several areas. Traditionally, one of the broadest of engineering disciplines, Civil, Environmental, and Construction Engineering at Texas Tech has recently expanded its curriculum to encompass even more academic options in response to societal needs.
Civil and Environmental Engineering
This course of study will ordinarily require ten semesters of study, although advanced placement or other study may reduce this time. Students can apply appropriate units earned as an undergraduate toward their MS program if they exceed the 379 units required for the BS in Civil Engineering degree. In the ninth semester of study, students must ...
Civil Engineering Undergraduate Project Topics, Research Works And
Civil Engineering 7 - Project Topics, Research Works And Materials. Code. Project Title. CENG31453. RIMARY CAUSES OF ROAD PAVEMENT FAILURE AND POSSIBLE SOLUTION. CENG18576. EVALUATION OF THE EFFECTS OF SOLID WASTE (REFUSE DUMP) ON SURFACE AND UNDERGROUND WATER IN MOSADOLUWA COMMUNITY IN OSOGBO LOCAL GOVERNMENT. CENG15196.
Civil Engineering
Civil Engineering. BEng/MEng. Civil engineers design and build major structures and provide the skills and expertise to design, build and maintain the country's infrastructure. This programme's strengths lie in its synthesis of scientific enquiry, engineering design and creative problem solving to tackle the challenging and complex real ...
University of Glasgow
Civil Engineers design, develop and create the built environment which surrounds us by improving our quality of life across a wide variety of sectors. In order to prepare students for this dynamic industry, the programme at SIT encompasses a wide range of topics ranging from the study of buildings ...
Undergraduate Research Key to Finding Future Career Interests
Thursday April 18, 2024. Undergraduate Research Key to Finding Future Career Interests. For many undergraduate students in the School of Engineering, research is an integral part of their time as Flyers. Many students choose to work alongside faculty researchers on their personal projects or even research sponsored by national organizations and ...
New major crosses disciplines to address climate change
Lauren Aguilar knew she wanted to study energy systems at MIT, but before Course 1-12 (Climate System Science and Engineering) became a new undergraduate major, she didn't see an obvious path to study the systems aspects of energy, policy, and climate associated with the energy transition.
DREAMS Week Spring 2024: Celebration of Undergraduate Research
Description. Support Johns Hopkins undergraduates by visiting the weeklong DREAMS (Day of Undergraduate Research in Engineering, Arts, Medicine, and the Sciences) online, sponsored by the Hopkins Office for Undergraduate Research (HOUR).This week, please take a few minutes to explore and support the research, scholarly, and creative endeavors of Johns Hopkins's dedicated and hard-working ...

149+ Most Interesting Civil Engineering Research Topics For Undergraduates

What Is Civil Engineering Research Topics

How Do I Choose A Project Topic in Civil Engineering?

1. Identify Your Interests and Passion

2. Assess Current Trends and Challenges

3. Consult with Professors and Professionals

4. Review Literature and Existing Research

5. Consider Feasibility and Resources

6. Define Objectives and Scope

7. Brainstorm and Finalize

List of Latest And Best Civil Engineering Research Topics For Undergraduates

Structural Civil Engineering Research Topics For Undergraduates

Geotechnical Engineering

Transportation Civil Engineering Research Topics For Undergraduates

Environmental Engineering

Construction Engineering and Management

Water Resources Civil Engineering Research Topics For Undergraduates

Materials Engineering

Coastal and Ocean Civil Engineering Research Topics For Undergraduates

Urban Engineering

Earthquake Civil Engineering Research Topics For Undergraduates

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Geographic Information Systems (GIS) in Civil Engineering

Tall Building Design and Construction

Hydraulic Civil Engineering Research Topics For Undergraduates

Structural Dynamics and Earthquake Resistant Structures

Smart Materials in Civil Civil Engineering Research Topics For Undergraduates

Renewable Energy and Sustainable Infrastructure

Construction Automation and Robotics

Pavement Civil Engineering Research Topics For Undergraduates

Resilient and Adaptive Infrastructure

Non-Destructive Testing and Evaluation

Sustainable Development and Green Construction

Remote Sensing Applications in Civil Engineering

Disaster Management and Resilient Infrastructure

Sustainable Transportation Systems

Urban Resilience and Smart Cities

Water-Energy Nexus in Urban Areas

Health and Safety in Construction

Green Infrastructure and Nature-Based Solutions

Risk Assessment and Management in Civil Engineering

List Of Research Topics In Civil Engineering Pdf

Latest Research Topics in Civil Engineering:

Simple Research Topics for Civil Engineering Final Year Students

Research Proposal for Civil Engineering Students

What Can Be A Good Topic For Research Being A Civil Engineering Student?

What factors should I consider when selecting a research topic in civil engineering?

How can I narrow down a broad research area into a specific topic for my undergraduate research project in civil engineering?

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200+ Civil Engineering Research Topics: Category Wise

Geotechnical Engineering

Transportation Engineering

Environmental Engineering

Construction Management

Materials Engineering

Water Resources Engineering

Coastal and Ocean Engineering

Earthquake Engineering

Bridge Engineering

Traffic Engineering

Urban Planning and Design

Surveying and Geospatial Engineering

Energy-Efficient Buildings

Advanced Computational Techniques

Disaster Resilience and Risk Management

Sustainable Transportation Technologies

Innovative Bridge Materials

Smart Infrastructure and IoT

Nanotechnology in Civil Engineering

Examples of Recent Research Breakthroughs

Challenges and Considerations

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