- Entry requirements: A 2:1 degree or equivalent
- Full-time: 12 months
- Part-time: 24 months
The Sustainable Civil and Structural Engineering MSc provides an opportunity for you to develop advanced specialist knowledge in structural engineering, understand how to address the increasing challenges for the industry and develop your skills for the working environment.
With the ever increasing environmental challenges, there is strong demand for civil and structural engineers who are practically-skilled in efficient design, green construction and sustainable development and who can play a central role in achieving sustainable adaptation to and mitigation of these challenges.
This MSc programme will help you to develop advanced knowledge and understanding of the novel, inter-disciplinary field of sustainable civil and environmental engineering. You will focus on resilient and sustainable structures and infrastructure, which are exposed to climate change effects as well as to natural disasters.
You will take part in research-led modules in civil and environmental engineering and acquire knowledge for innovative approaches for climate emergencies, low-carbon, sustainable and resilient materials and systems for next generation infrastructure. During the programme, you will interact with several other engineering disciplines and develop robust knowledge in risk analysis and uncertainty quantification.
Our MSc programme is designed for engineers, architects and physicists who intend to develop specialist skills and knowledge relevant to novel civil and environmental sustainable engineering disciplines.
This programme is accredited by the Institute of Civil Engineering (ICE) and Institution of Structural Engineering (IStructe)
Discover what you'll learn, what you'll study, and how you'll be taught and assessed.
This course is available to start in January 2024, which means you will graduate in the summer graduation. If you choose to start in January 2024 you will undertake Semester two modules first, followed by your dissertation project and then undertake Semester one modules in September. Please view more information about the modules and your funding options on the course page.
International students may be able to study this course on a part-time basis but this is dependent on visa regulations. Please visit the Government website for more information about student visas.
If you're able to study part-time, you'll study the same modules as the full-time master's degree over a longer period, usually 24 months. You can make studying work for you by arranging your personal schedule around lectures and seminars which take place during the day. After you complete all the taught modules, you will complete your final dissertation or project and will celebrate your achievements at graduation the following term.
Studying part-time means you can study alongside work or any other life commitments. You will study the same modules as the full-time master's degree over a longer period, usually 24 months. You can make studying work for you by arranging your personal schedule around lectures and seminars which take place during the day. After you complete all the taught modules, you will complete your final dissertation or project and will celebrate your achievements at graduation the following term.
Your first semester will introduce you to theories, concepts and methods of modern geomechanics, industry innovation and employee practice, surface waves, nearshore morphological process and estuary processes, the advances in construction materials, and probability theory.
This module introduces students to advanced theories, concepts and methods of modern geomechanics. These include particle dynamics simulations, plasticity theory, limit analysis, constitutive modelling of soft and hard soils, and finite element analysis.
The aim of the module is to enhance students’ knowledge and understanding of the advances made in conventional construction materials and alternative construction materials that have and are currently being developed for use in construction to achieve more innovative, and sustainable structures.
This module aims to introduce student the basic theory of surface waves, understand the nearshore morphological process and estuary processes.
This module develops understanding and appreciation of basic probability theory. It involves the quantification of uncertainties in the input and modelling, their implementation and the evaluation of the associated results in view of decision making. An introduction to numerical concepts will be provided. The methods shown in the module have a general applicability, which is demonstrated by examples and practical applications.
Management linked to industry innovation and employee practice is an area of professionalism that is very important within the construction and wider built environment sector. It is also emerging as a distinctive and rewarding career path for many graduate civil engineers plus architectural engineers. On completion of this module, students will understand a range of approaches to project management implementation, diverse practices associated with modern methods of construction, as well as effective judgement-making of challenging tasks in complex real-life situations. It will both prepare graduates for professional development in civil engineering, as well as make them fully aware of multiple aspects of strategic, operational and lifecycle management as applied to this specific industrial sector.
To develop technical writing skills for engineers. English Language Centre deliver the module for non-native English speakers, Engineering staff deliver identical syllabus, assessments and learning outcomes for other students.
Project Management is a core skill for professional engineers of all types and a sound education in this subject area is required by the professional accrediting bodies. The knowledge and skills developed in this module will equip students for their future UG project work and for their careers ahead.
This module teaches students the theory of fundamental techniques in project management, risk management, and cost management.
In this modules student undertake a group "virtual project" in which they undertake all stages of project management involved n a major construction projects. The five virtual project tasks require students to apply their theoretical learning; and they provide an opportunity to develop key professional skills.
In your second semester, you’ll see how what you learn during this programmes directly links to project management in the construction industry. You’ll also learn about structural optimisations, both classical and modern, and conceptual design of civil engineering structures, and structural behaviour and assessment.
You get the opportunity to work in groups to conduct a complete holistic design of a real-life engineering project, complete with experience interacting with clients, architects and consultants from different design backgrounds.
This module connects student learning directly to project management in the construction industry. It will both prepare graduates for professional development in civil engineering, as well as make them fully aware of aspects of strategic, operational and lifecycle management as applied to this specific industrial sector.
This module presents an opportunity to practise comprehensive, multidisciplinary design in civil engineering. The students work in teams to provide complete solutions to demanding civil engineering design problems with some significant reliance on self, guided learning.
This module focuses on the conceptual design of civil engineering structures, and structural behaviour and assessment. It provides a review of the basics of structural engineering analysis and design including construction of bending moment and shear force diagrams, cross-sectional analysis, material properties and basic design code requirements.
This module is about classical optimisation and modern optimisation and their numerical methods. Structural optimisation and their numerical methods. Students will get an idea of how to optimise simple structure and get optimal solutions by analytical and numerical methods.
Your summer research projects will focus on cutting edges analysis and design of novel and resilient infrastructure. To do so, you will have access to state-of-art experimental facilities in the structural and hydraulic laboratories which were recently refurbished.
The purpose of the project is to provide students with the opportunity to plan, carry out and control a research project at the forefront of their academic discipline, field of study or area of professional practice. The student will report findings both orally and in writing. Detailed instructions are provided in the PG handbook distributed at the outset of the programme.
You will be taught through a mixture of lectures, tutorials, practical classes, problem classes, private study and supervised project work. In year one, lectures are supplemented by group tutorials and computing work is carried out in supervised practical classes.
Key study skills, presentation skills and group work start in first-year tutorials and are developed within each module of the MSc programme. The emphasis in most modules is on the development of problem-solving skills along with team-working, which are regarded very highly by employers. Project supervision is on a one-to-one basis and it will help to develop in-depth knowledge for the use of new materials, systems and advanced technologies to face tomorrow challenges.
Most modules are assessed by final examinations (lasting either two or three hours) in January or May, but many have an element of coursework assessment too. This might be through homework or class tests.
You will undertake a final research project which will make up 60 credits.
We have a distinctive approach to education, the Liverpool Curriculum Framework, which focuses on research-connected teaching, active learning, and authentic assessment to ensure our students graduate as digitally fluent and confident global citizens.
Studying with us means you can tailor your degree to suit you. Here's what is available on this course.
The School of Engineering has a well-deserved and highly respected reputation for its excellent experimental and computational facilities. Our £32 million redevelopment includes the state of- the-art ‘Active Learning Labs’, a cutting-edge teaching facility, one of the largest and best equipped in Europe.
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We equip our students for rewarding careers and our graduates have found jobs in a wide range of industries and organisations, both in the UK and abroad. Programmes include a strong practical element and incorporate the latest academic and industry research, enabling you to work effectively at the forefront of engineering.
This course has the added value of combining professional skills sets in both structural engineering and sustainability, broadening your access to career opportunities. Graduates from this programme will develop skills in design, implementation, assessment and reporting of innovative, environmentally-compliant, sustainable engineering projects, making them suitable for employment in a range of roles with:
Your tuition fees, funding your studies, and other costs to consider.
|UK fees (applies to Channel Islands, Isle of Man and Republic of Ireland)|
|Full-time place, per year||£11,950|
|Part-time place, per year||£5,975|
|Full-time place, per year||£26,350|
|Part-time place, per year||£13,175|
Tuition fees cover the cost of your teaching and assessment, operating facilities such as libraries, IT equipment, and access to academic and personal support.
If you're a UK national, or have settled status in the UK, you may be eligible to apply for a Postgraduate Loan worth up to £12,167 to help with course fees and living costs. Learn more about tuition fees, funding and Postgraduate Loans.
We understand that budgeting for your time at university is important, and we want to make sure you understand any course-related costs that are not covered by your tuition fee. This could include buying a laptop, books, or stationery.
Find out more about the additional study costs that may apply to this course.
We offer a range of scholarships and bursaries to help cover tuition fees and help with living expenses while at university.
The qualifications and exam results you'll need to apply for this course.
My qualifications are from: United Kingdom.
|Postgraduate entry requirements||
For all applicants we expect normally at least a UK 2:1 (or equivalent) undergraduate degree in Civil Engineering or Structural Engineering only. Previous relevant industry experience is a strong advantage. All applications will be considered on individual merits.
If you hold a bachelor’s degree or equivalent, but don’t meet our entry requirements, you could be eligible for a Pre-Master’s course. This is offered on campus at the University of Liverpool International College, in partnership with Kaplan International Pathways. It’s a specialist preparation course for postgraduate study, and when you pass the Pre-Master’s at the required level with good attendance, you’re guaranteed entry to a University of Liverpool master’s degree.
You'll need to demonstrate competence in the use of English language. International applicants who do not meet the minimum required standard of English language can complete one of our Pre-Sessional English courses to achieve the required level.
|English language qualification||Requirements|
View our IELTS academic requirements key.
Standard Level 5
|TOEFL iBT||88 or above with minimum scores in components as follows: Listening and Writing 19, Reading 19, Speaking 20.|
|INDIA Standard XII||70% or above from Central and Metro State Boards|
|Hong Kong use of English AS level||C|
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Last updated 23 March 2023 / / Programme terms and conditions /