The first year shall introduce you to the core disciplines and context of civil engineering. Engineering design is introduced through project work. Professional skills are introduced in workshops. There is also a residential surveying field course.
University Park Campus, Nottingham, UK
Qualification | Entry Requirements | Start Date | UCAS code | Duration | Fees |
---|---|---|---|---|---|
MEng Hons | AAA | September 2024 | H20B | 5 years full-time | £9,250 per year |
Qualification | Entry Requirements | Start Date | UCAS code | Duration | Fees |
---|---|---|---|---|---|
MEng Hons | AAA | September 2024 | H20B | 5 years full-time | £9,250 per year |
This degree is accredited by the Joint Board of Moderators of the ICE, IStructE, CIHT and IHE.
It is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree. See www.jbm.org.uk for further information.
This degree is accredited by the Joint Board of Moderators of the ICE, IStructE, CIHT and IHE.
It is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired a partial CEng accredited undergraduate first degree. See www.jbm.org.uk for further information.
including Mathematics: Analysis and Approaches - 6 at Higher Level or 7 at Standard Level or Mathematics: Applications and Interpretation – 6 at Higher Level only plus 6 in a second science at Higher Level - Physics is preferred.
6.0 (no less than 5.5 in any element)
As well as IELTS (listed above), we also accept other English language qualifications. This includes TOEFL iBT, Pearson PTE, GCSE, IB and O level English. Check our English language policies and equivalencies for further details.
For presessional English or one-year foundation courses, you must take IELTS for UKVI to meet visa regulations.
If you need support to meet the required level, you may be able to attend a Presessional English for Academic Purposes (PEAP) course. Our Centre for English Language Education is accredited by the British Council for the teaching of English in the UK.
If you successfully complete your presessional course to the required level, you can then progress to your degree course. This means that you won't need to retake IELTS or equivalent.
Check our country-specific information for guidance on qualifications from your country.
Mathematics grade A at A Level and one from physics (preferred), economics, psychology, 3D design, chemistry, biology, design and technology, geography, geology, computing or further maths. A foundation year is available for those with BBB grades.
General studies, critical thinking and citizenship studies, global perspectives and research, thinking skills are not accepted. A level in Quantitative Methods is not acceptable in lieu of Maths requirements.
All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2024 entry.
Please note: Applicants whose backgrounds or personal circumstances have impacted their academic performance may receive a reduced offer. Please see our contextual admissions policy for more information.
We recognise that applicants have a wealth of different experiences and follow a variety of pathways into higher education.
Consequently we treat all applicants with alternative qualifications (besides A-levels and the International Baccalaureate) on an individual basis, and we gladly accept students with a whole range of less conventional qualifications including:
This list is not exhaustive. The entry requirements for alternative qualifications can be quite specific; for example you may need to take certain modules and achieve a specified grade in those modules. Please contact us to discuss the transferability of your qualification. Please see the alternative qualifications page for more information.
We recognise the potential of talented students from all backgrounds. We make contextual offers to students whose personal circumstances may have restricted achievement at school or college. These offers are usually one grade lower than the advertised entry requirements. To qualify for a contextual offer, you must have Home/UK fee status and meet specific criteria – check if you’re eligible.
At the University of Nottingham, we have a valuable community of mature students and we appreciate their contribution to the wider student population. You can find lots of useful information on the mature students webpage.
International students must have valid UK immigration permissions for any courses or study period where teaching takes place in the UK. Student route visas can be issued for eligible students studying full-time courses. The University of Nottingham does not sponsor a student visa for students studying part-time courses. The Standard Visitor visa route is not appropriate in all cases. Please contact the university’s Visa and Immigration team if you need advice about your visa options.
Mathematics grade A at A Level and one from physics (preferred), economics, psychology, 3D design, chemistry, biology, design and technology, geography, geology, computing or further maths. A foundation year is available for those with BBB grades.
General studies, critical thinking and citizenship studies, global perspectives and research, thinking skills are not accepted. A level in Quantitative Methods is not acceptable in lieu of Maths requirements.
including Mathematics: Analysis and Approaches - 6 at Higher Level or 7 at Standard Level or Mathematics: Applications and Interpretation – 6 at Higher Level only plus 6 in a second science at Higher Level - Physics is preferred.
All candidates are considered on an individual basis and we accept a broad range of qualifications. The entrance requirements below apply to 2024 entry.
Please note: Applicants whose backgrounds or personal circumstances have impacted their academic performance may receive a reduced offer. Please see our contextual admissions policy for more information.
We recognise that applicants have a wealth of different experiences and follow a variety of pathways into higher education.
Consequently we treat all applicants with alternative qualifications (besides A-levels and the International Baccalaureate) on an individual basis, and we gladly accept students with a whole range of less conventional qualifications including:
This list is not exhaustive. The entry requirements for alternative qualifications can be quite specific; for example you may need to take certain modules and achieve a specified grade in those modules. Please contact us to discuss the transferability of your qualification. Please see the alternative qualifications page for more information.
We recognise the potential of talented students from all backgrounds. We make contextual offers to students whose personal circumstances may have restricted achievement at school or college. These offers are usually one grade lower than the advertised entry requirements. To qualify for a contextual offer, you must have Home/UK fee status and meet specific criteria – check if you’re eligible.
An Engineering and Physical Sciences foundation year is available for those who are not taking the required subjects.
At the University of Nottingham, we have a valuable community of mature students and we appreciate their contribution to the wider student population. You can find lots of useful information on the mature students webpage.
On this course, you can apply to study abroad at one of our partner institutions or at University of Nottingham China or University of Nottingham Malaysia.
If you are successful in applying to study abroad, you will get the opportunity to broaden your horizons and enhance your CV by experiencing another culture. Teaching is typically in English, but there may be opportunities to study in another language if you are sufficiently fluent.
You can choose to study similar modules to your counterparts in the UK or expand your knowledge by taking other options.
The school you are joining may also have additional study abroad options available. Please visit the school website for more information.
Please note:
In order to study abroad you will need to achieve the relevant academic requirements as set by the university and meet the selection criteria of both the university and the partner institution. The partner institution is under no obligation to accept you even if you do meet the relevant criteria.
If your course does not have a compulsory placement, integrated year in industry or compulsory year abroad where there is already an opportunity to undertake a work placement as part of that experience, you may be able to apply to undertake an optional placement year. While it is the student’s responsibility to find and secure a placement, our Careers and Employability Service will support you throughout this process. Contact placements@nottingham.ac.uk to find out more.
The school/faculty you are joining may also have additional placement opportunities. Please visit the school/faculty website for more information.
Please note:
In order to undertake an optional placement year, you will need to achieve the relevant academic requirements as set by the university and meet any requirements specified by the placement host. There is no guarantee that you will be able to undertake an optional placement as part of your course.
On this course you may be able to spend a year working in industry where you could gain first-hand experience of the exciting challenges that are faced by engineers and refine the skills you have built so far in the course. While it is the student’s responsibility to find and secure a year in industry host, the Faculty of Engineering placements team will support you throughout this process.
Please note:
In order to undertake an integrated year in industry, you will have to achieve the relevant academic requirements as set by the University and meet any requirements specified by the industry host. There is no guarantee that you will be able to undertake an integrated year in industry as part of your course. If you are studying a course with an integrated year in industry and you do not secure an integrated year in industry opportunity, you will be required to transfer to the version of the course without an integrated year in industry. This will be reflected in the title of your degree when you graduate.
Please be aware that study abroad, compulsory year abroad, optional placements/internships and integrated year in industry opportunities may change at any time for a number of reasons, including curriculum developments, changes to arrangements with partner universities or placement/industry hosts, travel restrictions or other circumstances outside of the university’s control. Every effort will be made to update this information as quickly as possible should a change occur.
On this course, you can apply to study abroad at one of our partner institutions or at University of Nottingham China or University of Nottingham Malaysia.
If you are successful in applying to study abroad, you will get the opportunity to broaden your horizons and enhance your CV by experiencing another culture. Teaching is typically in English, but there may be opportunities to study in another language if you are sufficiently fluent.
You can choose to study similar modules to your counterparts in the UK or expand your knowledge by taking other options.
The school you are joining may also have additional study abroad options available. Please visit the school website for more information.
Please note:
In order to study abroad you will need to achieve the relevant academic requirements as set by the university and meet the selection criteria of both the university and the partner institution. The partner institution is under no obligation to accept you even if you do meet the relevant criteria.
If your course does not have a compulsory placement, integrated year in industry or compulsory year abroad where there is already an opportunity to undertake a work placement as part of that experience, you may be able to apply to undertake an optional placement year. While it is the student’s responsibility to find and secure a placement, our Careers and Employability Service will support you throughout this process. Contact placements@nottingham.ac.uk to find out more.
The school/faculty you are joining may also have additional placement opportunities. Please visit the school/faculty website for more information.
Please note:
In order to undertake an optional placement year, you will need to achieve the relevant academic requirements as set by the university and meet any requirements specified by the placement host. There is no guarantee that you will be able to undertake an optional placement as part of your course.
On this course you may be able to spend a year working in industry where you could gain first-hand experience of the exciting challenges that are faced by engineers and refine the skills you have built so far in the course. While it is the student’s responsibility to find and secure a year in industry host, the Faculty of Engineering placements team will support you throughout this process.
Please note:
In order to undertake an integrated year in industry, you will have to achieve the relevant academic requirements as set by the University and meet any requirements specified by the industry host. There is no guarantee that you will be able to undertake an integrated year in industry as part of your course. If you are studying a course with an integrated year in industry and you do not secure an integrated year in industry opportunity, you will be required to transfer to the version of the course without an integrated year in industry. This will be reflected in the title of your degree when you graduate.
Please be aware that study abroad, compulsory year abroad, optional placements/internships and integrated year in industry opportunities may change at any time for a number of reasons, including curriculum developments, changes to arrangements with partner universities or placement/industry hosts, travel restrictions or other circumstances outside of the university’s control. Every effort will be made to update this information as quickly as possible should a change occur.
*For full details including fees for part-time students and reduced fees during your time studying abroad or on placement (where applicable), see our fees page.
If you are a student from the EU, EEA or Switzerland, you may be asked to complete a fee status questionnaire and your answers will be assessed using guidance issued by the UK Council for International Student Affairs (UKCISA).
All students will need at least one device to approve security access requests via Multi-Factor Authentication (MFA). We also recommend students have a suitable laptop to work both on and off-campus. For more information, please check the equipment advice.
As a student on this course, you should factor some additional costs into your budget, alongside your tuition fees and living expenses:
Please note that these figures are approximate and subject to change.
There may also be costs issued by the university for replacement student ID cards, additional transcripts or certification letters, reassessments and library fines.
The University offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help:
Engineering students may be eligible for faculty-specific or industry scholarships.
International students
We offer a range of international undergraduate scholarships for high-achieving international scholars who can put their Nottingham degree to great use in their careers.
*For full details including fees for part-time students and reduced fees during your time studying abroad or on placement (where applicable), see our fees page.
If you are a student from the EU, EEA or Switzerland, you may be asked to complete a fee status questionnaire and your answers will be assessed using guidance issued by the UK Council for International Student Affairs (UKCISA).
All students will need at least one device to approve security access requests via Multi-Factor Authentication (MFA). We also recommend students have a suitable laptop to work both on and off-campus. For more information, please check the equipment advice.
As a student on this course, you should factor some additional costs into your budget, alongside your tuition fees and living expenses:
Please note that these figures are approximate and subject to change.
There may also be costs issued by the university for replacement student ID cards, additional transcripts or certification letters, reassessments and library fines.
The University offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help:
Engineering students may be eligible for faculty-specific or industry scholarships.
Home students*
Over one third of our UK students receive our means-tested core bursary, worth up to £1,000 a year. Full details can be found on our financial support pages.
* A 'home' student is one who meets certain UK residence criteria. These are the same criteria as apply to eligibility for home funding from Student Finance.
Civil engineering combines your creativity with technological and scientific knowledge that can change the world. You will learn how to design and manage high-profile projects. Working together in teams you'll learn about:
Civil engineering combines your creativity with technological and scientific knowledge that can change the world. You will learn how to design and manage high-profile projects. You will study the key components of civil engineering theory and learn the skills necessary to become a civil engineer. By combining individual study and working together in teams you'll learn about:
Also as part of your course you will take part in site visits to see civil engineering in action. You will access research and laboratory facilities, including:
As a civil engineering graduate, there are many options available to you. You can choose to register with the Engineering Council as an Incorporated Engineer or progress to Chartered Engineer status. Our courses give you the required engineering expertise for either a career in industry or in many other professions that value an analytical, creative mind.
Important information
This online prospectus has been drafted in advance of the academic year to which it applies. Every effort has been made to ensure that the information is accurate at the time of publishing, but changes (for example to course content) are likely to occur given the interval between publishing and commencement of the course. It is therefore very important to check this website for any updates before you apply for the course where there has been an interval between you reading this website and applying.
Mandatory
Year 1
Hydraulics 1
Mandatory
Year 1
Group Project
Mandatory
Year 1
Portfolio of Civil Engineering Studies 1
Mandatory
Year 1
Structural Analysis
Mandatory
Year 1
Mathematical Methods for Civil Engineering
Mandatory
Year 1
Geotechnics 1
Mandatory
Year 2
Hydraulics 2
Mandatory
Year 2
Fundamentals of Materials
Mandatory
Year 2
Civil and Structural Steel Design Project
Mandatory
Year 2
Portfolio of Civil Engineering Studies 2
Mandatory
Year 2
Structural Analysis 2
Mandatory
Year 2
Geotechnics 2
Mandatory
Year 2
Advanced Mathematical Methods
Mandatory
Year 3
Structural Concrete Design
Mandatory
Year 3
Geotechnics 3
Mandatory
Year 3
Building Information Modelling (BIM) Project
Mandatory
Year 3
Hydraulic Design and Experiments
Optional
Year 3
Mapping for Engineering Surveying and GIS
Optional
Year 3
Engineering Risk Assessment
Optional
Year 3
Traffic Engineering
Optional
Year 3
Advanced Mathematical Techniques in Ordinary Differential Equations for Engineers
Optional
Year 3
Computerised Methods in Engineering
Mandatory
Year 4
Year four - Industrial Year
Mandatory
Year 5
Individual Investigative Project
Mandatory
Year 5
Group Design Project
Optional
Year 5
Sustainable Construction and Life Cycle Assessment
Optional
Year 5
Railway Technology
Optional
Year 5
Highway and Pavement Design
Optional
Year 5
Dynamics and Wind Engineering
Optional
Year 5
Coastal Engineering
Optional
Year 5
Managing Infrastructure and Systems
Optional
Year 5
Advanced Structural Analysis
Optional
Year 5
Geotechnical Modelling
Optional
Year 5
Advanced Structural Design
The above is a sample of the typical modules we offer but is not intended to be construed and/or relied upon as a definitive list of the modules that will be available in any given year. Modules (including methods of assessment) may change or be updated, or modules may be cancelled, over the duration of the course due to a number of reasons such as curriculum developments or staffing changes. This content was last updated on Friday 15 September 2023.
The first year shall introduce you to the core disciplines and context of civil engineering. Engineering design is introduced through project work. Professional skills are introduced in workshops. There is also a residential surveying field course.
Core subjects will be developed in greater depth alongside further workshops; and a structural design project to help you see the application of your studies.
Core subjects continue alongside a range of optional modules, and includes a major design-based project to help you see the application of your studies. There is also an optional Construction Practice module on-site.
The fourth year of this course is spent in industry. You will receive support in applying for a year-long placement with an appropriate company. During the placement you will significantly enhance your engineering knowledge and skills. You will have regular meetings with your tutor throughout the year and will remain fully registered with the University.
A wide range of optional modules, including a major group design project and individual investigative project, are available during this final year.
If you choose to take a year in industry, this will usually be during your fourth year and you will then study the following modules on your return.
This course introduces students to the subject of hydraulics in civil engineering. Here we focus on studying hydrostatics, i.e. civil engineering applications involving a body of static fluid. The topics covered include:
This is a problem-based group design project which focuses on the application of knowledge and skills, from across the taught modules. Groups develop and cost a major civil engineering project and plan resources to ensure timely and cost-effective completion of the work. Then a design of an engineering structure will be carried out, including presentation of options and a detailed design stage. The final task will be to design and construct a model structure, which will be tested in the laboratory.
This module builds on core skills and aims to: introduce students to structural analysis and modelling tools; develop their ability to communicate; introduce construction materials and their related design considerations; provide an opportunity to learn advanced surveying techniques.
Delivered through four hours of lectures each week, this module covers the following topics: analysis of 2D stresses and strains, virtual work method, strain energy method and analysis of arches and cables, the response of circular and non-circular members to torsion, the stress distribution of a beam under bending moment, shear and axial force, among others.
This module, delivered through a combination of lectures and workshops, for three hours each week, covers the fundamental tools to manipulate vectors and matrices relevant to applications in engineering, and introduces fundamental concepts and applications of differentiation and integration in one or more dimensions
Giving you an introduction to the core areas of geotechnics, this module covers topics such as: origin and types of soil, soil as a 3-phase material, soil description and classification, compaction, water in soils, basic mechanics, and stresses in soils and ground investigation. In an average week you’ll spend four hours in lectures, example classes and practicals per week.
On successfully completing the module, students will be able to demonstrate knowledge and understanding of the fundamental principles of fluid dynamics. You’ll be able to solve simple pipe flow problems and demonstrate awareness of open channel flows and boundary layers and drag. You’ll spend four hours in lectures and example classes per week when studying this module.
You will be spending three hours a week in lectures exploring engineering materials and their basic properties, principles in material selection and sustainability and an understanding of the behaviour of construction materials.
This module provides students with an opportunity to take a design project from concept through to an advanced design stage covering structural, steel, geotechnical, infrastructure and services considerations, whilst working as a group. This is a year-long project, concentrating on site conditions, conceptual design and structural and geotechnical design in the first semester and detailed calculations in the second semester. The project gives students the opportunity to develop their written and oral presentation skills.
This module builds on core skills and aims to: introduce students to structural analysis and modelling tools; develop their ability to communicate; introduce construction materials and their related design considerations; provide an opportunity to learn advanced surveying techniques.
The fundamental behaviour established in the first year is extended to cover the concepts of: virtual work, analysis of indeterminate structures, instability of structural systems, plastic analysis and design and vibration. You’ll spend four hours in lectures and example classes per week when studying this module.
This module aims to develop further understanding of fundamental behaviour of soils and you will learn how to perform geotechnical analyses. You’ll spend five hours in lectures and two hours in practicals per week.
The module covers fundamental tools to manipulate complex numbers as well as ordinary and partial differential equations relevant to engineering. You’ll spend around three hours in lectures and example classes each week.
This module introduces reinforced concrete construction and the relationship between structural behaviour and the design of reinforced concrete elements. It includes the structural design procedures for reinforced concrete elements in flexure, shear and compression. On average you will spend about four or five contact hours per week in lectures, laboratory classes or in the design studio for this module.
This module introduces the fundamentals of consolidation and the different components of settlement. In addition, shallow and deep foundation design, from both a fundamental and Eurocode approach is covered. Reinforced soil, 1D & 2D water flow through soils, and sustainability considerations in geotechnical design are also discussed.
Students work in groups on the design and planning of a civil engineering project that aims to integrate all the disciplines covered on the course. Typical projects include: water works, major highway schemes and retail parks. Staff and visiting professional engineers provide guidance.
This module addresses real-world hydraulic applications and designs using the theory learnt by the students in Hydraulics 1 and 2 and newly obtained knowledge about urban drainage systems, flood protection, water supply and surge protection. Seven laboratory experiments cover fundamental aspects of hydraulics in open channel flow, pipe flow and river flow. A number of common hydraulic systems will be designed under application of the newly obtained knowledge in the class room and the laboratory.
The module describes the theoretical and practical aspects of photogrammetry, laser scanning and gives an introduction to geometrical remote sensing. Subjects covered include:
Method and Frequency of Class:
Activity | Number of Weeks | Number of sessions | Duration of a session |
---|---|---|---|
Lecture | 11 weeks | 3 week | 1 hour |
3 hour morning block
Method of Assessment:
Assessment Type | Weight | Requirements |
---|---|---|
Exam 1 | 100.00 | written examination (unseen) |
The module assesses the risk of injury posed to the general public and workforce through the operation of engineering systems and infrastructure. This is considered in the context of civil and transportation systems and an indication is given of acceptable risk. You will spend three hours a week in lectures to study this module.
This module introduces some of the theory that forms the technical basis of the management and control of urban road networks, including; traffic flow theory, transport modelling and operation of traffic signal control systems.
Assessment method
This module will be assessed 100% by exam.
This module covers advanced analytic mathematical techniques used to provide exact or approximate solutions to common classes of ordinary differential equations (ODES) typical in Engineering.
Techniques covered include: method of variation of parameters, Laplace transform methods, Taylor series method, Frobenius method, asymptotic regular perturbations and strained coordinates and multiple scales. Each week there will normally be a one one-hour lecture and a two hour workshop to introduce key mathematical knowledge on module topics.
The methodology and associated numerical techniques are introduced to enable a selection of mathematical operations to be evaluated with the use of computer-based software algorithms to problems that cannot be solved analytically.
Topics include: introduction to concepts of numerical analysis, quadrature and curve fitting, numerical linear algebra, qualitative and finite-difference methods for ODEs and numerical methods for solving PDEs. Each week there will normally be one one-hour lecture and a two hour workshop to introduce key mathematical knowledge on module topics.
The fourth year of this course is spent in industry. You will receive support in applying for a year-long placement with an appropriate company. During the placement you will significantly enhance your engineering knowledge and skills. You will have regular meetings with your tutor throughout the year and will remain fully registered with the University.
Students choose a project in their preferred discipline and plan a detailed investigation. Projects involve lab work, field investigations or computer modelling and require data collection and analysis.
Working in groups, you'll design and plan a major civil engineering project. Typical projects include water works, major highway schemes and retail parks. Staff and visiting professional engineers provide guidance.
This module is designed to deliver an understanding of sustainability principles and how, in particular, transport infrastructure engineering as well as the wider construction industry can contribute to sustainable development.
The module will include the following themes:
Delivery
Activity | Number of Weeks | Number of sessions | Duration of a session |
---|---|---|---|
Lecture | 11 weeks | 1 week | 2 hours |
Workshop | 11 weeks | 1 week | 1 hour |
Assessment method
Assessment Type | Weight | Requirements |
---|---|---|
Coursework | 100.00 | 2 hour exam |
This module will introduce the components of railway track structures, conventional and otherwise. It will include analysis of forces on a railway track and consequent deflections, stresses, alignment design principles, and an overview of the railway as a total system including operational issues, signalling and control.
Assessment method
This module is assessed by individual and group coursework (40%) and an exam (60%).
Delivery
Activity | Number of Weeks | Number of sessions | Duration of a session |
---|---|---|---|
Lecture | 11 weeks | 1 week | 2 hours |
Lecture | 11 weeks | 1 week | 1 hour |
Assessment method
Assessment Type | Weight | Requirements |
---|---|---|
Coursework 1 | 20.00 | Track maintenance group coursework - 4 spreadsheet returns at approx. 2 hours. |
Coursework 2 | 20.00 | Track design individual coursework - 1,000 word report |
Exam | 60.00 | One 2 hour exam |
This module covers the design of highway alignments, including curvatures, gradients, number of lanes, junction design and drainage. It also includes analysis and design of pavement structures and surfaces using different techniques and materials together with the deterioration mechanisms involved.
It module aims to:
Delivery
Activity | Number of Weeks | Number of sessions | Duration of a session |
---|---|---|---|
Lecture | 11 weeks | 1 week | 2 hours |
Lecture | 11 weeks | 1 week | 1 hour |
Assessment method
Assessment Type | Weight | Requirements |
---|---|---|
Coursework 1 | 20.00 | Highway design exercise |
Coursework 2 | 20.00 | Pavement design exercise |
Exam | 60.00 | 2 hour exam |
This module considers the effects of wind on structures. It shows how the wind loading codes are developed from first principles and how they can be applied to predict wind induced forces in structures. The dynamic response of structures to wind is studied with the help of wind tunnel tests.
This module is delivered through six hours of lectures and computer-based tutorials each week and covers the principles of water height variation, ocean forces (from waves and tides) and energy conversion into electrical power and to the design of energy production systems.
This module considers some of the most commonly-used system reliability assessment techniques applied to support system management.
It covers the construction of reliability models that use basic component failure information to describe specific system failure modes, the qualitative and quantitative analyses of these models, and the critical evaluation of systems using the analytical results. The models will be discussed in the context of their application to engineering systems and infrastructure assets.
The module aims to provide students with:
Assessment method
This module will be assessed by an in-class test (20%) and an exam (80%).
The module will look into advanced structural analysis methods including finite element, non-linear analysis and stability. It will also look into the analysis of dynamic systems.
This module will reinforce and advance some of the principles of soil mechanics previously learnt, and describe the principles of Critical State Soil Mechanics (CSSM), a model used to predict the behaviour of soils.
It includes revision of previous concepts, shear box and triaxial tests data analysis, critical state line, elasticity and plasticity, development of an elasto-plastic soil model, and constitutive model application in numerical simulations.
Students will learn about and conduct their own triaxial tests on soil samples within the laboratory such that they can obtain constitutive model parameters for the soil. Students will learn to use a finite element method (FEM) software package that is popular for geotechnical analyses as well as the principles of physical modelling using a geotechnical centrifuge. The coursework element will require students to use constitutive model parameters obtained from triaxial testing within FEM analyses.
The FEM analyses will include
Delivery
Activity | Number of Weeks | Number of sessions | Duration of a session |
---|---|---|---|
Computing | 3 weeks | 3 weeks | 2 hours |
Lecture | 8 weeks | 3 weeks | 2 hours |
Assessment method
Assessment Type | Weight |
---|---|
Coursework | 50.00 |
Coursework | 50.00 |
The module will look into the design of specialised structural systems such as composite beams and floors, portal frames, tubular trusses, and pre-stressed concrete beams and slabs. It will also look into connection behaviour, the design of steel moment connections and sway stability of buildings. A major group design exercise will illustrate the approach to the design of complete structures.
Teaching methods
Assessment methods
On average, you will have at least 20 contact hours a week in year one and two. Combined with coursework and self-study, you may spend over 40 hours a week on your studies.
Students will be equipped to embark on a career in civil engineering, or other disciplines that require numerate problem-solving graduates.
Find out how our links with industry could give you a head start while you study with us.
Average starting salary and career progression
97.6% of undergraduates from the Department of Civil Engineering secured graduate level employment or further study within 15 months of graduation. The average annual salary for these graduates was £26,595.*
* HESA Graduate Outcomes 2020. The Graduate Outcomes % is derived using The Guardian University Guide methodology. The average annual salary is based on graduates working full-time within the UK.
Studying for a degree at the University of Nottingham will provide you with the type of skills and experiences that will prove invaluable in any career, whichever direction you decide to take.
Throughout your time with us, our Careers and Employability Service can work with you to improve your employability skills even further; assisting with job or course applications, searching for appropriate work experience placements and hosting events to bring you closer to a wide range of prospective employers.
Have a look at our careers page for an overview of all the employability support and opportunities that we provide to current students.
The University of Nottingham is consistently named as one of the most targeted universities by Britain’s leading graduate employers (Ranked in the top ten in The Graduate Market in 2013-2023, High Fliers Research).
University Park Campus covers 300 acres, with green spaces, wildlife, period buildings and modern facilities. It is one of the UK's most beautiful and sustainable campuses, winning a national Green Flag award every year since 2003.
I spent a year working for one of the biggest construction companies in the world. I was working on a student accommodation project for The University of Essex where my main job was to manage the façade. The placement team helped me a lot in finding a placement, getting my CV right and getting through interviews
Weixhao Zhu
talking about his industrial year with Bouygues
Faculty of Engineering
3 years full-time
Qualification
BEng Hons
Entry requirements
AAA
UCAS code
H8HF
Faculty of Engineering
4 years full-time
Qualification
MEng Hons
Entry requirements
AAA
UCAS code
H200
Faculty of Engineering
4 years full-time
Qualification
BEng Hons
Entry requirements
AAB-ABB
UCAS code
K24B
Our webpages contain detailed information about all processes in your student journey. Check them out alongside our student enquiry centre to find the information you need. If you’re still struggling, head to our help page where you can find details of how to contact us in-person and online.