Civil Engineering with an Industrial Placement Year MEng
2025-26 entryThis course will give you a good broad knowledge of civil engineering, and gain first-hand industry experience. You will benefit from experiencing the culture in industry, making contacts, and operating as a graduate engineer.
Key details
- A Levels AAA
Other entry requirements - UCAS code 2H26
- 5 years / Full-time
- September start
- Accredited
- Find out the course fee
- Industry placement
Explore this course:
Course description
Why study this course?
Our series of design projects, culminating in a semester-long integrated design project, allows you to explore both concept and detailed design and develop capability in tackling real-world built-environment problems to address the complex challenges of engineering a low-carbon future.
You will be taught by world-leading researchers in specialist areas of civil engineering, associated with challenges of infrastructure development, resilience and management in the face of climate change and natural disasters. In addition, a team of teaching specialists with a wealth of industry experience support design-based learning.
'Learning by doing' is the reason The Diamond was built. Dedicated to engineering, this is where you’ll apply the theory you learn in lectures – consolidating your understanding alongside students from other disciplines, and beyond the bounds of the curriculum.
As a large school, we offer a diverse selection of specialist research-based modules. This allows you to shape your development by selecting subjects that match your interests, and work alongside specialist academics in individual project work.
Supported by a team of staff with industry experience, our programmes empower and support you to take responsibility for your own development and develop skills and attributes that prepare you for a future as a professional civil or structural engineer.
Gain real-life industrial experience while advancing your technical and multidisciplinary design skills in civil engineering by tackling complex issues related to sustainable and resilient infrastructure.
Taught by research-active academics and teachers with extensive industrial experience, this course will deepen your knowledge in advanced civil engineering topics.
The course integrates a strong focus on civil engineering analysis and design with the latest research on sustainable development – equipping you to tackle challenges in the built environment and design innovative solutions that minimise impact on the environment.
Years one and two see you develop a sound understanding of core principles: structural engineering, materials, fluid mechanics, and geotechnics.
Group projects will challenge you to take on complex real-world problems – applying your engineering knowledge to create sustainable solutions, while developing transferable skills sought by employers like communication, team work and project management.
The second half of the course prepares you for your career, extending your design experience and allowing you to specialise in those advanced topics you’re passionate about. You’ll also develop and carry out your own research project with one of our academic staff.
In your fourth year, you will have the opportunity to do an industrial placement year where you can test your knowledge and further develop your technical skills in a real-life industrial environment.
You can unleash your ingenuity and creativity on a grand scale by designing conceptual solutions for a low-environmental impact urban regeneration project, and then engineering one aspect of the project in greater detail.
The course challenges you to solve increasingly complex problems – so that you'll graduate as a skilled, competent and well-rounded engineer, ready to make a contribution to a more sustainable world.
This degree is accredited by the Joint Board of Moderators (JBM) comprising the Institution of Civil Engineers, Institution of Structural Engineers, Institute of Highway Engineers, the Chartered Institution of Highways and Transportation and the Permanent Way Institution on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer (CEng).
Modules
A selection of modules are available each year - some examples are below. There may be changes before you start your course. From May of the year of entry, formal programme regulations will be available in our Programme Regulations Finder.
Choose a year to see modules for a level of study:
UCAS code: 2H26
Years: 2022, 2023
Core modules:
- Practical Application of Civil and Structural Engineering
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Civil and Structural Engineering programmes provide their students with the knowledge and skills to shape the world. However, with this power, also comes huge responsibility. This module focuses on developing the attitudes and behaviours that engineers require to apply their new-found knowledge appropriately in the context of the 21st century.
20 credits
The module will draw very heavily on a broad range of interactive projects and workshops, providing the context on which their other academic modules are founded.Â
Short practical exercises will be used as the framework to introduce reflective practice, developing students' ability to solve engineering problems, and to also take ownership of their own educational development. Small groups projects will also provide a lens for students to start developing an awareness of the complex human relationships at the heart of any engineering project.
Through lectures and workshops students will be introduced to the historical context of their profession, and will debate the evolving ethical challenges facing modern civil and structural engineers.History will be used as the lens to explore: the moral basis for civil and structural engineering; the link between they physical world and evolving theoretical models; and engineers' relationship to risk.
The module will next explore the relationship between physical structures and the various theoretical mental models that engineers can use to describe and analyse them. Practical make-and-break exercises will explicitly expose the power, and limitations, of our theoretical methods, whilst site-visits will allow students to internalise the impact and scale of their design decisions.
The module will introduce students to the concept of systems thinking, initially in its broadest sense, and then considering infrastructure as part of complex environmental and societal systems. Students will then be introduced to the concept of risk, and understand how risk management underpins all engineering decision making.
Working in small-groups the students will conduct a project to develop a solution to a real-world civil or structural engineering challenge, consolidating their learning from this module, and providing practical application for their wider programme learning outcomes.
The module assessment will consist of mandatory non-graded activities, and graded work. - Engineering Surveying
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In this module you will learn basic engineering surveying skills and the role spatial data plays in civil engineering design and construction. You will gain hands-on experience in using different types of surveying equipment and in basic manipulation of spatial data. You'll gain key transferable skills in metrology and checking data accuracy.
10 credits - Civil and Structural Engineering Mechanics
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This module is delivered in both the Autumn and Spring Semesters. Teaching in the first semester is designed to provide a basis of knowledge and understanding of elastic structural analysis and will be applied to two key structural forms - trusses and beams. The focus of the second semester is on the analysis of stress, strain and elastic deformation of beams.
20 credits - Hydraulic Principles and Flow in Pipes
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This module aims to build a common understanding of the principles of fluid mechanics, progressing from statics such as pressure and force on objects, through properties and laws of hydro-dynamics including continuity, energy and momentum principles of fluid in motion, leading to the ability to understand and analyse fluid flows in pipes including simple networks and the operation of pumps. Overall, you will gain the essential understanding of fluid mechanics and application to pipe flows. This will be achieved through a series of lectures, building to practical real world examples, laboratory classes and tutorial sheets. Theory is reinforced through practical experimentation and problem solving.
20 credits - Mathematics and Python Programming
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This module aims to reinforce and extend students' previous knowledge of mathematics studied before university, and introduces the use of computer programming to solve engineering and mathematical problems.Â
20 credits
Mathematics is further taught to develop new basic mathematical techniques needed to support the engineering subjects taken at levels 1 and 2. It also provides a foundation for the level 2 mathematics courses in the department. Combined with the mathematics teaching, this module teaches the opensource programming language, Python, which can be used to efficiently solve a variety of practical scientific and numerical problems.Â
A combination of formal lecture content, tutorials and assisted computer lab sessions, help the students learn and apply mathematical and programming theory. Practice problems are presented showing the links between mathematics and programming learning, to show how the skills learnt can solve practical problems of relevance to the students. - Soil Mechanics
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This module is an introductory module to the use of soils in engineering practice. As soils are a naturally varying material, the creation of different soil types is first discussed giving the student a background in why soils differ. This then progresses into the engineering classification of soils followed by the design of simple geotechnical structures. These include retaining walls and earth embankments.
10 credits - Introduction to Structural Materials Engineering
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This lecture course focusses on materials for structural applications and covers all the main classes of materials (ceramics, metals, polymers, natural materials and composites), describing the properties that they show, the root cause of their properties, the structure, and how we can affect this by processing to get the properties we want. The course will also introduce some ways that the best material for a purpose can be selected.
10 credits - Sustainable Design and Engineering Skills
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This module is designed to ensure students have the skills to design solutions and assess options against sustainability criteria to make evidence based recommendations. Students will be able to look at the bigger picture of a projects impact on our complex systems and society.
10 credits - Global Engineering Challenge Week
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The Faculty-wide Global Engineering Challenge Week is a compulsory part of the first-year programme. The project has been designed to develop student academic, transferable and employability skills as well as widen their horizons as global citizens. Working in multi-disciplinary groups of 5-6, for a full week, all students in the Faculty choose from a number of projects arranged under a range of themes including Water, Waste Management, Energy and Digital with scenarios set in an overseas location facing economic challenge. Some projects are based on the Engineers Without Borders Engineering for people design challenge*.
*The EWB challenge provides students with the opportunity to learn about design, teamwork and communication through real, inspiring, sustainable and cross-cultural development projects identified by EWB with its community-based partner organisations.
Core modules:
- Open Channel Hydraulics
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Open channel flows are common in Civil and Environmental Engineering, from rivers and sewers to culverts and treatment channels. Our ability to understand open channel flows allows us to manage these types of flow in urban and rural environments. This is relevant for a range of applications such as quantifying and remediating the risk of flooding, designing sustainable water infrastructure systems and understanding the transport of pollution within surface waters.
10 credits
This module will equip students with the understanding and ability to analyse open channel flows. This will be achieved through lectures, laboratory classes and tutorial sheets, where theory is reinforced through practical experimentation and problem solving. - Engineering - You're Hired
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The Faculty-wide Engineering - You're Hired Week is a compulsory part of the second year programme, and the week has been designed to develop student academic, transferable and employability skills. Working in multi-disciplinary groups of about six, students will work in interdisciplinary teams on a real world problem over an intensive week-long project. The projects are based on problems provided by industrial partners, and students will come up with ideas to solve them and proposals for a project to develop these ideas further.
- Further Civil Engineering Mathematics and Computing
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This module is part of a series of second-level modules designed for the particular group of engineers shown in brackets in the module title. Each module consolidates previous mathematical knowledge and new mathematical techniques relevant to the particular engineering discipline.
10 credits - Hydrology and Flooding
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Introduction to the global water cycle, water security, water supply and clean water distribution systems. Develop concepts in hydrology: rainfall and design storms; climate change; the Unit Hydrograph approach and reservoir routing method. The module introduces the multiple causes of flooding, leading to a practical numerical modelling exercise to explore the effect of roughness estimates on predicted velocities and water levels and the impact of climate change. Evaluate interventions such as: upstream Natural Flood Management and flood gates or embankments.
10 credits - Materials for Structural Engineering
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This module looks at the role of materials and materials properties used for structural design. The module will be delivered using a combination of lectures, on-line learning initiatives and group-based practicals.
10 credits
The module aims to introduce you to a variety of materials used for structural applications. You will be exposed to materials selection, mechanics and physical principles responsible for specific materials being utilised to meet specific design requirements. A range of test methods for materials properties will be discussed, as well as, non-destructive methods used for assessing quality and the extent of defects in materials. - Civil Engineering Challenges and Project Management
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This module builds on the Y1 Practical Application of Civil and Structural Engineering to further develop the intellectual capabilities, professional skills and ethical attitudes required of civil engineers.
20 credits
The module will involve a series of interactive challenge projects, workshops, and practical exercises, in which you will work in teams, drawing on project management techniques developed in the module and conceptual engineering knowledge developed in other modules to propose and design / develop solutions. Â
You will develop your ability to analyse complex scenarios, recognising that environmental, commercial and societal contexts are the drivers for civil engineering projects. You will use your engineering knowledge to identify and design conceptual solutions, understanding that engineering design decisions balance technical feasibility with the wider environmental, society and commercial contexts. You will also be introduced to techniques for planning and managing construction projects and risk and you will apply these techniques for planning and managing safe, and successful delivery of a construction project. You will also investigate a variety of engineering scenarios / failures and discuss in terms of ethics and professional responsibilities of a civil / structural engineer.
You will develop a range of broader skills including ability to build and work collaboratively and inclusively in teams, monitoring and proactively managing progress, and ability to communicate in a variety of written formats and also through presentations. The group challenge projects will form the basis for reflection, recording and learning from your experience, and planning for future personal and professional development.
The module assessment will involve group reports and presentations, as well as an individual pass-fail quiz and a final individual reflective portfolio showing personal and professional development across the module. - Structural Analysis
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This module is designed to improve your knowledge understanding of how elastic and plastic methods of structural analysis can be applied to various structural forms. The module will be delivered via lectures, supported by problem-solving, and computer and laboratory classes. You will develop your ability to analyse structures under working and ultimate loads, by hand and via computer.
20 credits - Structural Engineering Design and Appraisal
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This module will discuss the fundamental principles of structural engineering philosophy and design. The theories and concepts of analysis and design of structural elements will be presented for the most commonly used structural materials and discussed along with the more prescriptive design rules included in the relevant Eurocodes.
20 credits - Geotechnical Engineering 2
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This module is aimed at extending your knowledge of soil mechanics and geotechnical engineering. The focus is on applying fundamental understanding of mechanics to geotechnical problem solving with an emphasis on fluid-soil and structure-soil interaction. The approach is designed to link soil mechanics theory (e.g. seepage, consolidation, bearing capacity, settlement) to practical application (e.g. deformation and failure of foundations and slopes) through the use of physical models, numerical models and case studies. The course will encompass lectures, tutorials, group work including laboratories, and directed and independent reading.
20 credits
Core modules:
- Integrated Design Project - Detailed Design Stage
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This module essentially requires students, working individually, to evaluate the various solutions developed in Part 1, select a preferred solution, and develop that solution to the next level of detail.
30 credits - Integrated Design Project - Concept Design Stage
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The Integrated Design Project - Concept Design Stage is a series of linked modules running for 14 weeks of the spring semester. The aim of these modules is to give you the opportunity to experience the engineering design process by working on proposals for redevelopment of a real brownfield site located in 91̽»¨.
20 credits
At the start of this 5 week long module, known as Integrated Design Project - Concept Design Stage Part 1, you will take part in a master-plannning exercise, giving you the opportunity to develop various skills whilst working collaboratively with students from the University's School of Architecture.
You will build on the above master-plannning exercise in subsequent parts of the module/project, which involve engineering development of a scheme considering stakeholder requirements, through option identification and evaluation, to the production of design calculations and drawings. Accordingly, you will consider the overall concept/scheme design, where ability to consider and integrate a wide range of issues is more important than detailed design calculations. - Advanced Structural Analysis
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Advanced Structural Analysis aims to teach you the most modern theories suitable for performing the static assessment of structural members subjected to in-service multiaxial loading. Initially, this module focuses on the linear-elastic behaviour of structural members loaded in torsion as well as in bending. The fundamental equations modelling the behaviour of beams under the above loading conditions are derived by following rigorous mathematical procedures. The module examines also those equivalent stresses (such as von Mises, Tresca, etc.) commonly used in situation of practical interest do design structural members against complex systems of forces and moments. Finally, the problem of designing notched structural members against multiaxial static loading is addressed in great detail by considering both ductile and brittle materials.
10 credits - Civil Engineering Research Skills
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This module introduces academic engineering research and associated skills to students. Hence, it provides an academic training basis for independent dissertation projects later in the course of study. More generally, it helps students understand various methodologies they are exposed to in their course of study, develop a data analysis capability and develop the skills of reading and critiquing the original academic literature in civil engineering and allied disciplines. Such skills are also essential for undertaking high calibre consultancy work when employed by industry.
10 credits - Computational Engineering Mathematics
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To provide the necessary mathematical framework to understand advanced computational methods for the solution of complex engineering problems. At the end of the course the student should: 1. understand and be able to derive the basic equations of continuum mechanics; 2. understand and be able to derive the basic equations of fluid mechanics; 3. have a basic understanding of how to use basic Finite Difference methods in the context of complex engineering problems.
10 credits - Accounting and Law for Engineers
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The module is designed to introduce engineering students to key areas of accounting and legal risk that engineers should be aware of in their working environment. The module will draw directly on practical issues of budgeting, assessing financial risks and making financial decisions in the context of engineering projects and/or product development. At the same time, the module will develop students' understanding of the legal aspects of entering into contracts for the development and delivery of engineering projects and products, and enhance their awareness of environmental regulation, liability for negligence, intellectual property rights and the importance of data protection. Through a series of parallel running lectures in the two disciplines, the module will provide a working knowledge of the two areas and how they impinge on engineering practice.
10 credits - Geotechnical Design
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This module is designed to develop your understanding of the concepts behind geotechnical design and how safety and idealisations are built into design calculations to deal with the complexity of subsurface stratigraphy, groundwater, soil behaviour and modelling issues for both Ultimate Limit State (ULS) and Serviceability Limit State (SLS). Through lectures, tutorial sheets, software exercises, and a design project, you will develop your knowledge of design calculations for retaining structures, reinforced soil and foundations in the context of Eurocode 7. You will also develop your ability to use a range of state of the art engineering design concepts and tools.
10 credits - Integrated Design Project - International Report and Individual Portfolio
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International/Global Context of Engineering' (5 credits)The CEO of your group has just been made aware of a project very similar to that in the CIV3201 module (Part 1 of the IDP) being planned in a specified location overseas (note that each group will be given a different location) and is considering submitting a tender for the design and construction works. If the tender is successful, it may lead to further opportunities for working on similar projects in the region.The CEO has therefore requested that you prepare a report, to be presented at the next board meeting, which discusses and critically evaluates the risks and opportunities of carrying out such projects. Your report will help the board to decide whether or not to submit a tender for the project.For this part of the project, you will work in the same groups as for Part 2 if you are a Y3 MEng student, or if a newly formed group if you are a BEng student. You will need to undertake research into conditions in the country specified, identifying the principal differences and similarities between working in the UK and overseas, thinking broadly about the conditions (environmental, political, cultural, social etc as well as technical issues) that could impact on the design or construction of the project. By evaluating the risks and opportunities, associated with these issues, you should be able to recommend what additional measures /considerations your company would have to take so they can make an informed and objective decision whether to tender.'Individual Reflection', ' Portfolio and Training Scheme Document' (5 credits). This part of the project should be carried out individually. The final stage in any project should be to review the process undertaken, identifying and evaluating successes (so they can be repeated) and failures (so improvements can be made), and noting requirements for further training and development. This process is also reflected in graduate training towards a professional qualification such as becoming a Chartered Engineer. This involves demonstrating achievement of levels of competence in a range of areas for development as a professional engineer, as well as planning your professional development.Therefore, at the end of this project, you should draw together reflections on your project and group work experience throughout the semester to develop a report and portfolio demonstrating your learning and achievements, relating this to achievement of at least 3 of the ICE member Attributes or IStructE Core Objectives or the 91̽»¨ Graduate Award (SGA) scheme equivalent.
10 credits - Urban Drainage Engineering
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This module is designed to provide you with an understanding of the fundamental concepts and processes associated with hydrology and urban drainage design, and to apply these concepts to a variety of drainage engineering problems. Through lectures, tutorials and individual literature and case study research, you will develop your knowledge of current and developing practice in urban drainage, including the increasingly important roles of Sustainable Drainage Systems (SuDS).
10 credits
Core modules:
- Year in Industry
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The course enables students to spend, typically, their third year of a BEng or fourth year of an MEng working in a 'course relevant' role in industry. This provides them with wide ranging experiences and opportunities that put their academic studies into context and improve their skills and employability. Students will also benefit from experiencing the culture in industry, making contacts, and the placement will support them in their preparation for subsequent employment.
120 credits
Core modules:
- Parametric Modelling and Computational Design
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Parametric design involves a workflow that allows for changes in key model parameters to be observed rapidly, generally in a computer aided design workspace. It provides the designer with immense design and analysis freedom when undertaking tasks that would be repetitive or not feasible to perform manually. It also allows for a rapid exploration of the design space at the initial conceptual stage of a project. It can also be used in conjunction with optimisation methods and other computational design techniques to automatically generate candidate designs, taking advantage of the vast computational resource available in a modern PC. This module provides lectures describing the fundamentals underpinning parametric modelling and computational design techniques and gives you hands-on experience of modelling and optimising engineering structures using the Rhino modelling software and the inbuilt Grasshopper visual programming environment.
15 credits - Civil Engineering Research Proposal
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This module consists a self-contained 5 credit element on research skills. The primary learning objective to produce a research proposal to support the semester 2 (MEng) individual research projects. This module is essentially 5 credit of time for you to prepare this research proposal. There is no taught content but you should meet regularly with your supervisor and refer to the relevant handbooks and briefs. Module assessment is based on a research proposal.
5 credits
Optional modules:
- European-Based Individual Research Study
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The MEng individual final year research project is a major piece of investigative research in a subject that is not of a routine nature that will enable students to gain expertise in investigative techniques and understanding research methods. It is intended to be intellectually challenging. It is expected that during their research, students will develop and exhibit competence in the following: defining a problem, researching and critically analysing information and data, problem solving, writing a report, and discussing and defending their findings. Students are also expected to take initiative, to plan / organise their own programme of research, to work independently and to display originality and creativity.
30 credits - Individual Research Project
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The MEng individual final year research project is a major piece of investigative research in a subject that is not of a routine nature that will enable students to gain expertise in investigative techniques and understanding research methods. It is intended to be intellectually challenging. It is expected that during their research, students will develop and exhibit competence in the following: defining a problem, researching and critically analysing information and data, problem solving, writing a report, and discussing and defending their findings. Students are also expected to take initiative, to plan / organise their own programme of research, to work independently and to display originality and creativity.
30 credits - Advanced Concrete Design for Net-Zero
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This module offers an in-depth exploration of advanced topics in the field of reinforced concrete, and you must, therefore, have a background in this subject area to study this module. Focusing on emerging concepts, construction techniques, and innovative materials, the module places particular emphasis on materials conducive to achieving Net Zero Carbon and examines their implications in the design process. You will not only revisit fundamental principles of reinforced concrete design but also delve into key aspects such as short and long-term deflections, creep, shrinkage, ductility, section analysis, prestressing, shear, and cracking. This module will equip you with the knowledge and skills necessary to navigate the complexities of modern reinforced concrete design.
15 credits - Geotechnical Infrastructure
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The module will focus on the analysis and sustainable design of large scale geotechnical infrastructure and systems, such as embankment dams, levees and tunnels. Aspects of uncertainty and risk, particularly in the context of a changing climate, will be developed related to ultimate and serviceability limit states, using a range of historical case histories within the published literature. A forensic investigative analysis will be conducted on a case study of geotechnical failure, benefiting from data from the literature and numerical modelling. This will be complemented by a consideration of soil acting as both a continuum and as a particulate system, and by an examination of the role of physical modelling, analytical models, constitutive models, and the geological model.
15 credits - Blast and Impact Effects on Structures
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This module introduces students to issues related to material and structural response high-magnitude, transient loading, such as those generated by explosions or impacts. The module includes quantification of blast load parameters, qualitative assessment of material and structural response, development of closed-form and numerical calculation methods to quantify structural response and an appraisal of codes of practice guidance intended to increase the resilience of structures to these loads. Teaching takes place predominantly in lecture and tutorials with some computer laboratories.
15 credits - Climate Resilient Water Infrastructure Design
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This module aims to equip you with the necessary conceptual knowledge and engineering skills to effectively address the uncertainties associated with climate change, socio-economic factors, and technological advancements in the design of water infrastructure. The module employs computer-assisted exploration, hands-on Python programming, and various interactive interventions (guest lecture, serious game) to empower you in developing robust designs capable of maintaining their intended function throughout the infrastructure's lifetime. The module's objectives include evaluating climate and other risks to water infrastructure, comprehending how they change traditional water engineering design practice, and providing you with essential concepts and methodologies for managing these uncertainties.
15 credits - Computational Fluid Dynamics
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This module is designed to provide and reaffirm an understanding of computational fluid dynamics from underlying governing principles modeling the behavior of fluids to typical numerical mathods used for solving them. Through lectures, practical computer sessions, and labs the module aims to provide students with a working understanding of transport equations, turbulence, pressure-velocity coupling in steady flows, and implementation of various boundary conditions in a built-environment context. The module will additionally develop students skills in effectively and professionally communicating implemetation of CFD models.
15 credits - Earthquake Resistant Design and Strengthening
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The aim of this module is to teach the principles of modern seismic design of structures, the methodology of the European design code (Eurocode 8) and the main concepts of seismic performance of structures. The module will be delivered through lectures and computer-lab sessions in which students will be working on a project
15 credits - Design and Management of Sewer Systems
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This module will provide students with a high level of knowledge and understanding as to how sewer and stormwater drainage systems operate in the UK. Teaching will focus on acquiring knowledge about current and emerging regulatory, management and design practices. Students will be required to understand the environmental and sustainbility issues associated with this type of infrastructure system. Students will apply industry standard design approaches in a case study, considering hydraulic and pollution concepts to evaluate and modify the performance of the case study network to meet current regulatory requirements, anticipated future pressures whilst considering the long term sustainability of the system. Students will be expected to demonstrate their level of knowledge and understanding via application in the case study sewer network.
15 credits - Introduction to Solute Mixing
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This module provides students with an introduction to solute mixing, particularly focusing on the importance of how this can be described in one-dimensional water network models. Such network models are used to describe water quality effects in potable water distribution, urban drainage and river network simulations. The students will: analyse tracer data obtained in the laboratory; explore in depth, at least two different modelling approaches for describing the mixing mechanisms and outline a further research study. The module is assessed by a written research paper, which will require reading, interpretation and evaluation of academic literature, as well as formulating and coding original data analyses.
15 credits - Structural Analysis and Design for Fire
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The course will provide an overview of the fire hazard in buildings and measures necessary for life safety and containment of losses. The response of steel and composite structures will be covered in greatest detail, and concrete and timber framing will also be discussed. Traditional design approaches and new design strategies will be discussed, including 'design for fire' parts of Eurocodes 1, 2, 3 and 4. The evidence from recent research including full-scale fire testing at Cardington will be covered. Both intermediate and advanced methods of analysis, and the influence of various parameters, will be discussed. Likely future developments will be reviewed, including measures to ensure robustness in fire.
15 credits - Structural Dynamics and Applications to Vibration Design
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This module is designed to provide students with a systematic knowledge and understanding of structural dynamics and its applications in Civil Engineering. On successful completion of this module, students will be able to perform calculation and analyse vibration response of single-degree-of-freedom and multi-degree-of-freedom systems and apply simple structural dynamics theory to solve practical problems in vibration engineering design.
15 credits - Sustainable Drainage and Green Infrastructure
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This module will introduce engineering students to Sustainable Drainage Systems (SuDS) and Green Infrastructure. Lectures and design exercises will be used to develop your understanding of why SuDS are preferred to conventional stormwater management approaches, and to equip you with the skills to design SuDS schemes to meet relevant performance objectives. Guest lectures will raise your awareness of the inter-disciplinary aspects of SuDS, through topics focusing on, for example, urban planning, ecology and biodiversity, plant and soil processes, rainwater harvesting and evapotranspiration. The module will also include a site visit to a local SuDS scheme and discussion/interaction with an indutry practitioner. Independent literature research will enable you to explore a current topic in SuDS research in detail.
15 credits - Computational Structural Analysis
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This module covers the theoretical and practical aspects of using the Finite Element method in structural analysis. It starts with some basic concepts such as assembly and solving systems of equations. Next, weak forms and strong forms are discussed together with interpolation via finite element shape functions, so that general differential equations can be treated. Special emphasis is put on dynamic aspects such as different mass matrices and time integration algorithms.
10 credits - Groundwater Engineering
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Hydrogeology is an introductory survey of the geologic and hydrologic factors controlling the occurrence, movement, and development of subsurface water. The course includes applications to groundwater resource development, and management of chemicals in groundwater, whether they are natural occurring or pollutants. This module is designed for non-geologists and leads towards qualitative and quantitative analyses of the behavior of groundwater at local and regional scales.
10 credits - Reuse of Existing Structures
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The main focus of most Civil and Structural Engineering programmes is on how to design new buildings and structures, which fails to address the reality that many practicing Structural Engineers also work on existing buildings and structures. Furthermore, it is out of step with Society's efforts to address the climate emergency, and the current focus on reusing existing buildings and structures wherever possible. This module is designed to equip students with the knowledge and skills to assess existing buildings and structures, in terms of their materials, condition and structural behaviour / capacity, in order to develop sustainable solutions which extend the life of buildings and structures, thereby addressing some of the climate emergency challenges currently facing society .The module assessment will comprise a single piece of group coursework, involving the evaluation of an existing building or structure, and the development of detailed proposals for its reuse. 50% of the module grade will be based solely on the sections of the report / calculations / drawings / risk assessments which an individual student contributed to (with no peer assessment applied), whilst the remaining 50% will be based on the whole submission (with peer assessment applied).
15 credits
The content of our courses is reviewed annually to make sure it's up-to-date and relevant. Individual modules are occasionally updated or withdrawn. This is in response to discoveries through our world-leading research; funding changes; professional accreditation requirements; student or employer feedback; outcomes of reviews; and variations in staff or student numbers. In the event of any change we'll consult and inform students in good time and take reasonable steps to minimise disruption.
Learning and assessment
Learning
The following are the main learning and teaching methods implemented within the programme:
- lectures
- tutorials (and example classes)
- practical activities
- design classes
- coursework assignments (including presentations)
- Individual Research Project (final year)
- integrative projects
- online resources
We've academic staff who are world-leaders in their respective fields and some have over 20 years' experience in industry. Our staff experience demonstrates how engineering fundamentals are applied in practice through project work that mimics real-life situations. We also bring in leading industry experts to enhance and support our teaching and advise on our curriculum.
Assessment
Students are assessed via a mix of the following:
- examinations
- coursework assignments
- online tests
- reports
- group projects
- presentations
- design work
- dissertations
Programme specification
This tells you the aims and learning outcomes of this course and how these will be achieved and assessed.
Entry requirements
With Access 91̽»¨, you could qualify for additional consideration or an alternative offer - find out if you're eligible.
The A Level entry requirements for this course are:
AAA
including Maths
- A Levels + a fourth Level 3 qualification
- AAB including A in Maths + A in a relevant EPQ; AAB including Maths + A in AS or B in A Level Further Maths
- International Baccalaureate
- 36 with 6 in Higher Level Maths
- BTEC Extended Diploma
- DDD in Engineering + A in A Level Maths
- BTEC Diploma
- DD in Engineering + A in A Level Maths
- Scottish Highers + 1 Advanced Higher
- AAAAB + A in Maths
- Welsh Baccalaureate + 2 A Levels
- A + AA including Maths
- Access to HE Diploma
- Award of Access to HE Diploma in a relevant subject, with 45 credits at Level 3, including 39 at Distinction (to include Maths and Science or Engineering units), and 6 at Merit + Grade A in A Level Maths
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GCSE Physics (or Combined Science) grade 6/B
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Acceptable Maths subjects include Maths, Maths with Mechanics, Further Maths or Applied Maths, but not Statistics or Use of Maths. Pure Maths is only acceptable when combined with Physics
The A Level entry requirements for this course are:
AAB
including Maths
- A Levels + a fourth Level 3 qualification
- AAB including A in Maths + A in a relevant EPQ; AAB including Maths + A in AS or B in A Level Further Maths
- International Baccalaureate
- 34 with 5 in Higher Level Maths
- BTEC Extended Diploma
- DDD in Engineering + B in A Level Maths
- BTEC Diploma
- DD in Engineering + B in A Level Maths
- Scottish Highers + 1 Advanced Higher
- AAABB + B in Maths
- Welsh Baccalaureate + 2 A Levels
- B + AA including Maths
- Access to HE Diploma
- Award of Access to HE Diploma in a relevant subject, with 45 credits at Level 3, including 36 at Distinction (to include Maths and Science or Engineering units), and 15 at Merit + Grade A in A Level Maths
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GCSE Physics (or Combined Science) grade 6/B
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Acceptable Maths subjects include Maths, Maths with Mechanics, Further Maths or Applied Maths, but not Statistics or Use of Maths. Pure Maths is only acceptable when combined with Physics
You must demonstrate that your English is good enough for you to successfully complete your course. For this course we require: GCSE English Language at grade 4/C; IELTS grade of 6.5 with a minimum of 6.0 in each component; or an alternative acceptable English language qualification
Equivalent English language qualifications
Visa and immigration requirements
Other qualifications | UK and EU/international
If you have any questions about entry requirements, please contact the school/department.
Graduate careers
School of Mechanical, Aerospace and Civil Engineering
Our graduates work all over the world, from the UK to Australia and the USA. Recent graduates have gone on to work for AECOM, Arup, Atkins, Buro Happold, Eastwood & Partners, and Kier.
You'll be able to apply your knowledge and skills to fields as diverse as the built environment, sustainability and improving the environment.
In addition, architectural engineering graduates might go into a broad range of engineering areas ranging from building services to mechanical, electrical or acoustic engineering.
Or as a structural engineer, you'll be helping to shape the world around us. Structural engineers design and construct multi-storey buildings, bridges, sports stadiums, tunnels, airports and schools.
School of Mechanical, Aerospace and Civil Engineering
National Student Survey 2024
The Times UK University Rankings 2024
Research Excellence Framework (REF2021)
Civil engineering is at the forefront of improving the way we live. Whether it's providing the facilities that keep our day-to-day lives running smoothly - from roads and railways to clean water supplies - or working to meet the ever-changing needs of our society in the areas of sustainability, renewable energy and climate change, you'll be helping to create and protect the world we live in.
Our courses will make you the kind of engineer the world needs right now; forward-thinking, interdisciplinary, environmentally conscious, and capable of the kind of complex thinking our rapidly changing society needs. Wherever you choose to start your career, you'll be in demand.
We're in the UK top ten for civil engineering, according to The Times UK University Rankings 2024. Our research is internationally recognised, with 96% of our research rated as world-leading or internationally excellent, according to the Research Excellence Framework 2021 (REF2021). Industry and government value our expertise.
Our industry partners contribute to teaching through lectures, design classes, projects and site visits. We work with leading consultants, contractors and specialist civil engineering companies to provide industrial opportunities for a number of students each year. We also have industrial tutors and professionals who mentor our first-year students.
You'll be taught in The Diamond, one of the best teaching spaces in the UK.
Facilities
The Diamond is home to dedicated laboratories and facilities such as our structures and dynamics lab, fluids engineering lab, and our thermodynamics and mechanics lab. This means you'll directly apply what you’ve learnt in lectures to lab sessions helping you to put theory into practice. Alongside teaching and study spaces, the Diamond is also home to iForge – the UK's first student-led makerspace.
University rankings
Number one in the Russell Group
National Student Survey 2024 (based on aggregate responses)
92 per cent of our research is rated as world-leading or internationally excellent
Research Excellence Framework 2021
University of the Year and best for Student Life
Whatuni Student Choice Awards 2024
Number one Students' Union in the UK
Whatuni Student Choice Awards 2024, 2023, 2022, 2020, 2019, 2018, 2017
Number one for Students' Union
StudentCrowd 2024 University Awards
A top 20 university targeted by employers
The Graduate Market in 2023, High Fliers report
A top-100 university: 12th in the UK and 98th in the world
Times Higher Education World University Rankings 2025
Student profiles
Fees and funding
Fees
Additional costs
The annual fee for your course includes a number of items in addition to your tuition. If an item or activity is classed as a compulsory element for your course, it will normally be included in your tuition fee. There are also other costs which you may need to consider.
Funding your study
Depending on your circumstances, you may qualify for a bursary, scholarship or loan to help fund your study and enhance your learning experience.
Use our Student Funding Calculator to work out what you’re eligible for.
Visit
University open days
We host five open days each year, usually in June, July, September, October and November. You can talk to staff and students, tour the campus and see inside the accommodation.
Subject tasters
If you’re considering your post-16 options, our interactive subject tasters are for you. There are a wide range of subjects to choose from and you can attend sessions online or on campus.
Offer holder days
If you've received an offer to study with us, we'll invite you to one of our offer holder days, which take place between February and April. These open days have a strong department focus and give you the chance to really explore student life here, even if you've visited us before.
Campus tours
Our weekly guided tours show you what 91̽»¨ has to offer - both on campus and beyond. You can extend your visit with tours of our city, accommodation or sport facilities.
Apply
Contact us
- Telephone
- +44 114 222 5738
- study@sheffield.ac.uk
The awarding body for this course is the University of 91̽»¨.
Recognition of professional qualifications: from 1 January 2021, in order to have any UK professional qualifications recognised for work in an EU country across a number of regulated and other professions you need to apply to the host country for recognition. Read and the .
Any supervisors and research areas listed are indicative and may change before the start of the course.