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Engineers are the key to the development of society and solving the problems the world currently faces. They have the power to make the world fundamentally different. Read more
Engineers are the key to the development of society and solving the problems the world currently faces. They have the power to make the world fundamentally different.

The Master of Advanced Engineering is the key transitional stage in your career, transforming you into a global leader. Gain a depth of knowledge, mastering the crucial skills to become a leading contributor in your field.

Customise your degree - the Master of Advanced Engineering offers flexibility to complete your Master degree in just one year, or you can choose a two year option.

This course is designed to extend your knowledge in your chosen specialisation area and advance your leadership and complex problem-solving skills in a cross cultural environment.

Understand, reflect critically upon and apply methods in at least one specialist engineering area to design solutions to complex, multifaceted engineering problems.

Common core units will develop crucial skills in areas such as data analysis and entrepreneurship, translating theory into engineering practice. In discipline core units you will identify, interpret and critically appraise current developments and technologies within your specialisation.

Enhancement units are designed to provide breadth and are taken from either another engineering specialisation or in complementary areas such as information technology and business.

In addition, the two year version of the program offers a range of technical electives that will deepen your understanding of a specific topic, and two, year- long engineering project units. You will work closely with an academic on a topic of your choice and immerse yourself in a multidisciplinary design project.

The Master of Advanced Engineering could also be your stepping stone to a research degree. All of this in highly interactive, expert led classes.

Visit the website http://www.study.monash/courses/find-a-course/2016/advanced-engineering-e6001?domestic=true

Overview

Please select a specialisation for more details:

Chemical engineering

Your qualification will be a Master of Advanced Chemical Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Chemical Engineering allows you to engage in the areas of study including advanced reaction engineering, process design and optimization, conversion of bioresources into fuel, materials and specialty chemicals, and nanostructured membranes for sustainable separations and energy production with an emphasis on the latest developments in the field. In this course, you will develop specialised knowledge and skills that are important to Chemical Engineers in industry and research. This course provides graduates with enhanced opportunities for advancement in their careers.

Civil engineering (Infrastructure systems)

Your qualification will be a Master of Advanced Civil Engineering (Infrastructure Systems)

The Master of Advanced Civil Engineering (Infrastructure Systems) will equip graduates to work with in the area of infrastructure engineering and management. It will provide the fundamental knowledge associated with interfacing both structural and geotechnical designs for infrastructure systems. The program is designed to equip you with advanced skills necessary for managing the challenges posed by ageing and leading designs of new complex infrastructure systems. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills, as well as to develop theoretical and applied knowledge in the area of infrastructure engineering and management.

Civil engineering (Transport)

Your qualification will be a Master of Advanced Civil Engineering (Transport)

Please note that this specialisation is available only in Clayton.

The Master of Advanced Civil Engineering (Transport) program deals with the fundamental knowledge associated with transport engineering and management, traffic engineering, intelligent transport systems and transport planning. The program in is a response to the growing need for engineers with broad awareness of the characteristics and significance of transport, including its technological, economic and social impact. At the same time, the program outlines the state-of-the-art of transport engineering, as it may be applied to the solution of real problems in the planning, design, management and operation of transport facilities. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills as well as to develop theoretical and applied knowledge in the area of transport engineering and management.

Civil engineering (Water)

Your qualification will be a Master of Advanced Civil Engineering (Water)

Please note that this specialisation is available only in Clayton.

The Master of Advanced Civil Engineering (Water) allows you to major in water resources engineering and management. This program deals with the fundamental knowledge associated with surface and ground water flow, stormwater management, water quality, flood forecasting and mitigation. The program is designed to equip you with advanced skills necessary for managing the challenges posed by changing climatic condition on water resource management. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills as well as to develop theoretical and applied knowledge in the area of water resources engineering and management.

Electrical engineering

Your qualification will be a Master of Advanced Electrical Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Electrical Engineering will give you a broad introduction to advanced techniques in signal processing, communications, digital systems and electronics. The units have been chosen around the common theme of embedded systems: special purpose computing systems designed for specific applications. They are found just about everywhere including in consumer electronics, transportation systems, medical equipment and sensor networks. The course will mix theory and practice and will contain a significant amount of hands-on learning in laboratories and team-based design projects.

Energy and sustainability engineering

Your qualification will be a Master of Advanced Engineering (Energy and Sustainability)

Please note that this specialisation is available only in Malaysia.

The Master of Advanced Engineering (Energy and Sustainability) is designed for qualified engineers keen to deepen their knowledge in the energy and sustainability area. The course provides foundations in general engineering through engineering analysis and entrepreneurship units. Students can major in this program by examining energy and sustainability area from a multi-disciplinary perspective. Students can also choose elective units such as environment and air pollution control and smart grids to further enhance their knowledge in this area or undertake a minor research work to pursue a topic of interest related to this area.

Materials engineering

Your qualification will be a Master of Advanced Materials Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Materials Engineering encompasses practical aspects of the key classes of materials such as metals, polymers, biomaterials, nanomaterials and energy-related materials. This program particularly focuses on the most up-to-date aspects of the field, along with the utilisation of materials and their electronic, chemical and mechanical properties as underpinned by the microstructures that are revealed by modern characterisation techniques. This program is designed to prepare students to appreciate and exploit the central role of materials in addressing the present technical, economic and environmental problems involved in the design and construction of engineering structures, processes and devices. This course is ideally suited for new graduates as well as professional engineers who are eager to advance their applied knowledge in the area of Materials Engineering.

Mechanical engineering

Your qualification will be a Master of Advanced Mechanical Engineering

Please note that this specialisation is available only in Clayton.

Most modern engineering projects are multidisciplinary in nature and require a broad range of skills, proficiencies and perspectives to accomplish the task. The Master of Advanced Mechanical Engineering takes a systems approach to the design, monitoring and performance of complex mechanical engineering systems in the fields of renewable energy, aerospace, buildings, transportation, and biomedical devices. The systems approach also permeates the design of the course: four discipline-based core units are vertically integrated so that common problems are examined from different perspectives, culminating in a sustainable systems unit.

For more information visit the faculty website - http://www.study.monash/media/links/faculty-websites/engineering

Find out how to apply here - http://www.study.monash/courses/find-a-course/2016/advanced-engineering-e6001?domestic=true#making-the-application

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Surrey were the pioneers of sophisticated ‘micro-satellites’ in the 1980s. Read more
Surrey were the pioneers of sophisticated ‘micro-satellites’ in the 1980s.

Since then, our sustained programme of building complete satellites, performing mission planning, working with international launch agencies and providing in-orbit operations has kept us at the forefront of the space revolution –utilising new advances in technology to decrease the cost of space exploration.

PROGRAMME OVERVIEW

Our Masters in Space Engineering programme is designed to give you the specialist multidisciplinary knowledge and skills required for a career working with space technology and its applications.

Surrey students have access to all aspects of the design and delivery of spacecraft and payloads, and as a result are very attractive to employers in space-related industries.

As we develop and execute complete space missions, from initial concept to hardware design, manufacturing and testing, to in orbit operations (controlled by our ground station at the Surrey Space Centre), you will have the chance to be involved in, and gain experience of, real space missions.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a project. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Space Dynamics and Missions
-Space Systems Design
-Space Robotics and Autonomy
-Satellite Remote Sensing
-RF Systems and Circuit Design
-Space Avionics
-Advanced Guidance, Navigation and Control
-Launch Vehicles and Propulsion
-Advanced Satellite Communication Techniques
-Spacecraft Structures and Mechanisms
-Space Environment and Protection
-Standard Project

EDUCATIONAL AIMS OF THE PROGRAMME

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:
-Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing & Communications, from the UK, Europe and overseas
-Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
-Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
-Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
-Provide a high level of flexibility in programme pattern and exit point
-Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:
-Underpinning learning– know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin space engineering.
-Engineering problem solving - be able to analyse problems within the field of mobile and satellite communications and more broadly in electronic engineering and find solutions
-Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
-Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within space engineering.
-Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
-Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
-Research & development investigations - be able to carry out research-and- development investigations
-Design - where relevant, be able to design electronic circuits and electronic/software products and systems

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering.

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This fully accredited MSc programme helps graduate engineers to acquire advanced capabilities and in-depth knowledge across a range of civil-engineering disciplines, including bridge engineering, construction management, and geotechnical, structural and water engineering. Read more
This fully accredited MSc programme helps graduate engineers to acquire advanced capabilities and in-depth knowledge across a range of civil-engineering disciplines, including bridge engineering, construction management, and geotechnical, structural and water engineering.

This well-established programme is delivered by experienced University staff, together with practising engineers from consultancies and local authorities.

PROGRAMME OVERVIEW

You can access six study streams on this Masters programme:
-Bridge Engineering
-Construction Management
-Geotechnical Engineering
-Structural Engineering
-Water Engineering and Environmental Engineering
-Infrastructure Engineering and Management

As well as supporting the career development of Civil Engineering graduates, this programme provides the necessary further learning for engineers working in the construction industry who hold related first degrees such as engineering geology or construction management.

It is also designed to update the technical skills of practising engineers engaged in the planning, design, construction and operation of civil-engineering works.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time / distance learning for between two to five academic years. It consists of eight taught modules and a dissertation. This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Structural Engineering Group Modules
-Steel Building Design
-Space Structures
-Structural Mechanics and Finite Elements
-Subsea Engineering
-Concrete Building Design
-Structural Safety and Reliability
-Earthquake Engineering
-Design of Masonry Structures

Bridge Engineering Group Modules
-Bridge Deck Loading and Analysis
-Prestressed Concrete Bridge Design
-Durability of Bridges and Structures
-Bridge Management
-Steel and Composite Bridge Design
-Long-Span Bridges

Geotechnical Engineering Group Modules
-Advanced Soil Mechanics
-Energy Geotechnics
-Geotechnical Structures
-Soil-Structure Interaction
-Deep Foundations and Earth Retaining Structures

Construction Management Group Modules
-Construction Management and Law
-Construction Organisation
-Project and Risk Management

Infrastructure Engineering Group Modules
-Infrastructure Investment and Financing
-Infrastructure Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

Water and Environmental Engineering Group Modules
-Environmental Health
-Water Treatment Optional
-Wastewater Treatment
-Applied Chemistry and Microbiology
-Pollution Control
-Groundwater Control
-Regulation and Management
-Water Resources

Dissertation
-Dissertation Project

EDUCATIONAL AIMS OF THE PROGRAMME

The Civil Engineering programme aims to provide graduate engineers with:
-Advanced capabilities and in-depth knowledge in a range of specialised aspects of civil engineering
-It is also designed to update the technical skills of practising engineers engaged in the planning, design, construction and operation of civil engineering works and to contribute to a personal professional development programme
-A working knowledge of some of the UK and European standards and codes of practice associated with the design, analysis and construction of civil engineering structures and the ability to interpret and apply these to both familiar and unfamiliar problems
-The necessary further learning towards fulfilling the educational base for the professional qualification of Chartered Engineer in both a technical or non-technical capacity dependent upon module selection

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding
-The mathematical principles necessary to underpin their education in civil engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of multi-disciplinary open ended engineering problems
-The properties, behaviour and use of relevant materials
-The management techniques which may be used to achieve civil engineering objectives within that context
-Some of the roles of management techniques and codes of practice in design
-The principles and implementation of some advanced design and management techniques specific to civil engineering
-Mathematical and computer models relevant to civil engineering, and an appreciation of their limitations
-The role of the professional engineer in society, including health, safety, environmental, sustainability, ethical issues and risk assessment within civil engineering
-The wider multidisciplinary engineering context and its underlying principles
-Developing technologies related to civil engineering and the ability to develop an ability to synthesize and critically appraise some of them
-The framework of relevant requirements governing engineering activities, including personnel, health, safety, and risk issues (an awareness of)
-The advanced design processes and methodologies and the ability to adapt them in open ended situations.

Intellectual / cognitive skills
-Analyse and solve problems
-Think strategically
-Synthesis of complex sets of information
-Understand the changing nature of knowledge and practice in the management of culturally diverse construction environments
-Select and transfer knowledge and methods from other sectors to construction-based organisation
-Produce sound designs to meet specified requirements such as Eurocodes, deploying commercial software packages as appropriate
-Dynthesis and critical appraisal of the thoughts of others

Professional practical skills
-Awareness of professional and ethical conduct
-Extract data pertinent to an unfamiliar problem, and apply its solution using computer based engineering tools where appropriate
-Evaluate and integrate information and processes in project work
-Present information orally to others
-Show a capability to act decisively in a coordinated way using theory, better practice and harness this to experience
-Use concepts and theories to make engineering judgments in the absence of complete data
-Observe, record and interpret data using appropriate statistical methods and to present results in appropriate forms for the civil engineering industry

Key / transferable skills
-Communicate engineering design, concepts, analysis and data in a clear and effective manner
-Collect and analyse research data
-Time and resource management planning

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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Take advantage of one of our 100 Master’s Scholarships to study Chemical Engineering at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Chemical Engineering at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

Key Features of MSc in Chemical Engineering

The MSc Chemical Engineering course is built upon the wide range of research in chemical engineering at Swansea University. This includes engineering applications of nanotechnology, bioengineering, biomedical engineering, cell and tissue engineering, chemical engineering, colloid science and engineering, desalination, pharmaceutical engineering, polymer engineering, rheology, separation processes, transport processes, and water and wastewater engineering.

The MSc Chemical Engineering research project provides an opportunity to work with a member of academic staff in one of the above, or related, area of research. The project may also involve collaboration with industry.

The taught component of the MSc Chemical Engineering course covers specific areas of advanced chemical engineering as well as the complex regulations that are found in the engineering workplace. It also provides an opportunity for the development of personal and transferable skills such as project planning, communication skills, and entrepreneurship.

As a student on the Master's course in Chemical Engineering, you will advance your technical knowledge, which can lead to further research or a career in chemical engineering.

Modules

Modules on the MSc Chemical Engineering course typically include:

Complex Fluids and Rheology
Entrepreneurship for Engineers
Colloid and Interface Science
Communication Skills for Research Engineers
Water and Wastewater Engineering
Membrane Technology
Environmental Analysis and Legislation
Optimisation
Desalination
Polymers: Properties and Design
Principles of Nanomedicine
Nanoscale Structures and Devices
Pollutant Transport by Groundwater Flows
MSc Research Practice
MSc Dissertation - Chemical Engineering

Accreditation

The MSc Chemical Engineering at Swansea University is accredited by the Institution of Chemical Engineers (IChemE).

The MSc Chemical Engineering degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

Links with Industry

One of the major strengths of Chemical Engineering at Swansea University is the close and extensive involvement with local, national and international engineering companies. The companies include:

Acordis
Astra Zeneca
Avecia
BP Chemicals
Bulmers
Dow Corning
GlaxoSmithKline
Nestle
Murco
Phillips 66
Unilever
Valero

Swansea staff have research links with local, national, and international companies. An industrial advisory board, consisting of eight industrialists from a range of chemical engineering backgrounds, ensure our courses maintain their industrial relevance.

Facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Careers

The demand for Chemical Engineering graduates remains excellent with the highest starting salaries out of all engineering disciplines.

Chemical engineers find employment in a variety of public and private sector industries, applying the principles of chemical engineering to health, energy, food, the environment, medicine, petrochemicals and pharmaceuticals.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

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This Master's degree is designed for students who wish to practice across a broad range environmental engineering and apply new sustainable risk management strategies for complex environmental problems. Read more
This Master's degree is designed for students who wish to practice across a broad range environmental engineering and apply new sustainable risk management strategies for complex environmental problems. Water, Waste and Environmental Engineering has been traditionally referred to as public health engineering in the United Kingdom. In this postgraduate course, the technical aspects of both natural and engineering environmental systems will be covered. There will be broad interdisciplinary subjects synthesizing knowledge from a wide spectrum of science and engineering, expanding the content of public health engineering, which in the UK has traditionally been responsible for developing the infrastructure for managing water and waste.

Students will develop engineering skills and be able to design, develop and apply concepts for water and waste as a resource based on environmental sensitivity and be competent in planning, modelling, design, construction, operations, maintenance and control of both engineered and natural water and earth resources.

Students who select this postgraduate programme will gain a skill set that will enable them to progress in the fields of:

- Environmental engineering
- Desalination and water reuse
- Water resources engineering
- Hydraulics and hydrology
- Environmental fluid hydraulics
- Environmental remediation
- Waste management
- Other specialities valued in both the private and public sectors.

The MSc in Water, Waste and Environmental Engineering will incorporate solid waste management, contaminated land treatment and the use of geographic information systems (GIS) with emphasis on management of the earth's resources.

The programme will explain the relationship between different earth resources including hydrosystems, both 'engineered' - hydro-power plants, water/wastewater treatment plants, sewers - and 'natural' - rivers, lakes, wetlands, irrigation districts, reservoirs etc., solid wastes, brownfield land, and geo-derived primary resources and their sustainable management.

The aims of the programme are:

- To show you how to design, implement and manage sustainable, risk-reduced eco-friendly solutions for reducing the environmental impact of exploitation of earth's resources in the context of environmental engineering-related issues facing global societies

- To provide you with the skills to further your careers in these areas

- To support you in understanding the innovative and pioneering approaches in this field and to be able to apply them to the solution of real-world problems in developing novel industrially-relevant solutions.

Visit the website http://www2.gre.ac.uk/study/courses/pg/enggen/wwee

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Environmental Engineering and Sustainability (15 credits)
Hydrosystems Engineering and Management (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Information Technologies for Environmental Engineering (15 credits)
Research, Planning and Communication (15 credits)
Waste Management and Remediation Technology (15 credits)
Desalination and Water Reuse (15 credits)
Water and Sanitation for Developing Countries (15 credits)
Water and Wastewater Engineering (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Environmental Engineering and Sustainability (15 credits)
Information Technologies for Environmental Engineering (15 credits)
Waste Management and Remediation Technology (15 credits)
Desalination and Water Reuse (15 credits)

-Year 2:
Students are required to study the following compulsory courses.

Hydrosystems Engineering and Management (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Research, Planning and Communication (15 credits)
Water and Sanitation for Developing Countries (15 credits)
Water and Wastewater Engineering (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Teaching and learning

The number of contact hours (e.g. lectures, seminars and feedback on assignments) per module/course ranges from 50-75 hours for the one year full time programme or roughly equivalent to four hours per week per module. The expected self-study time is approximately 80-90 hours per module per year (roughly equivalent to four hours per week per module).

You will be taught by academics with a range of industrial and academia experience for each module.

Assessment

Project work, assignments and laboratory exercises in addition to substantial written examination of course materials will occur in most modules. The Environmental Engineering Research Project will require submission of a substantial final report/dissertation. Assessment of this module will involve participation in a poster and seminar presentation and a final oral examination.

Professional recognition

Accreditation will be sought from the Chartered Institution of Water and Environmental Management (CIWEM) and The Joint Board of Moderators (JBM) including the Institution of Civil Engineers, The Institution of Structural Engineers, the Chartered Institution of Highways and Transportation and Institute of Highway Engineers.

Career options

Postgraduate students from this programme will find such employment opportunities as engineers, scientist and technical managers in the private sector (engineering design firms, engineering consultancy, project management, risk management and waste management), in the public sector (environmental protection engineering, regulations and standards, local government) and in non-governmental sectors (NGOs, environmental advocacy) or may wish to pursue further qualifications such as a PhD within the Faculty of Engineering and Science at the University of Greenwich to become even more specialised. Employers of environmental engineers include engineering consultancies (such as AECOM, Atkins, Mott MacDonald Group, Hyder), government agencies (such as Environment Agency, Scottish Environment Protection Agency) and NGOs (such as Oxfam, Engineers without Boarders, Water Aid).

Careers and employability

FACULTY OF ENGINEERING & SCIENCE
We work with employers to ensure our degrees provide students with the skills and knowledge they need to succeed in the world of work. They also provide a range of work experience opportunities for undergraduates in areas such as civil engineering, manufacturing and business information technology.

Students also benefit from the services provided by the university’s Guidance and Employability Team, including ‘JobShop’, mentoring, volunteering and the student ambassador scheme.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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Upon completing the master’s programme in Urban Studies & Planning, you will be able to. -Understand theories and identify concepts and empirical research methods relevant to urban studies and planning from the related fields of social sciences, humanities, ecology, engineering, architecture, design and art. Read more
Upon completing the master’s programme in Urban Studies & Planning, you will be able to:
-Understand theories and identify concepts and empirical research methods relevant to urban studies and planning from the related fields of social sciences, humanities, ecology, engineering, architecture, design and art.
-Demonstrate a working understanding of the role of urban government, policy-making and planning in urban development.
-Critically and creatively pose and answer significant research questions relevant within and across multiple fields of theory and practice.
-Gather, process and develop relevant conclusions based on information from multiple sources.
-Produce, collect and analyse cases and data relevant to urban phenomena.
-Use digital and other tools to collect, analyse and share data.
-Develop responses to urban problems using relevant tools and techniques for representing, modelling, prototyping, testing and evaluating solutions.
-Understand and develop integrated approaches within and across urban research and applied planning.
-Communicate your understanding of and responses to urban phenomena visually, graphically, orally and in writing.
-Write academic, professional and popular texts on urban themes based on relevant literature.
-Apply and develop skills for co-production of knowledge and co-design.
-Work productively and cooperatively in multidisciplinary, multiprofessional and international environments.

And in terms of knowledge and skills in relation to specialisations and professions, you will be able to:
-Apply the general knowledge and skills introduced, developed and demonstrated within the courses and thesis work.
-Place urban analyses and proposals in relation to your specialisation and contextualise them in relation to others.
-Identify, differentiate and articulate relations among various theories and methods relevant to your specialisation.
-Develop and reflect on your competence in urban studies and planning in relation to your professional role.
-Carry out independent research on urban issues in your field using relevant research methods and responsible scientific practice.
-Analyse phenomena and develop solutions through the use of digital and other tools, such as GIS and CAD.
-Fulfil specific professional degrees in accordance with the relevant professional codes and directives (such as those of architects, landscape architects, and urban planners.
-Demonstrate your competence to work as a professional and/or researcher in urban studies and planning.
-Communicate professionally and constructively with different experts, practitioners and stakeholders in the field of urban studies and planning.
-Articulate your professional identity in terms of established and emerging roles relevant to urban studies and planning.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees.

Programme Contents

Urbanisation is a global phenomenon that is shaping the future of our societies. Most of the key challenges of contemporary societies are encountered and addressed in cities. Cities provide enormous economic, technical and cultural opportunities, but they are also places of social conflict and segregation as well as environmental and health problems. The magnitude of these challenges implies that no single profession or field of research can tackle them. Urban development requires an integrated approach. To this end, two prominent Finnish universities have joined forces in this unique and interdisciplinary Master’s programme.

The Master’s Programme in Urban Studies and Planning prepares you to excel as a professional capable of understanding and addressing complex urban development challenges. You will learn to address such challenges through a curriculum and pedagogical approach that includes interdisciplinary breadth as well as depth in core areas of knowledge, skills and practice. The programme balances theoretical, historical and conceptual knowledge with the acquisition of methods, skills and experience. You will thus gain a broad understanding of urban phenomena as well as practical experience in collaborative and practical situations. This is the foundation of the programme and of the elements in the curriculum.

Taking full advantage of the joint university structure, the programme unites leading expertise from the University of Helsinki and Aalto University into three major study lines. The signature elements in the programme are interdisciplinary studies that address urban challenge themes. These themes relate to urgent contemporary issues found not only in Finland but on the European and global scale, including controversies intrinsic to urbanisation. The urban challenge themes may be attached to focus areas, research projects or collaborations within our universities, municipalities and regions in order to provide a constructive and critical framework for study and practice. These themes cross the boundaries of disciplines and professions, and are united in addressing a common challenge and emphasising a forward-looking perspective.

Selection of the Major

There are three study lines in the Master’s programme in Urban Studies & Planning:

Urban Planning and Design
Urban Planning and Design (USP Plans) addresses urban development by integrating the knowledge, skills and pedagogical approaches of planning and design and by developing synergies across multiple disciplines. The constructive power of design to imagine, structure, visualise and communicate is combined with the analytical rigour and critical understanding of planning and urban governance history, methodologies and tools. USP Plans develops and deepens such skills while advancing your professional capabilities through challenge-based learning within concrete cases, multi-disciplinary collaboration, and learning-by-doing experimentation. USP Plans is oriented towards planners, architects, landscape architects, and spatial, service and strategic designers.

Urban Life, Economy and Cultures
Urban Life, Economy and Cultures (USP Peoples) addresses urban development by integrating analysis of socio-economic, digital and physical structures with planning. Here you will explore and apply theories and methodologies from the social and political sciences. The focus is on socio-spatial dynamics changes, including influences of policies and markets, actors and structures, decision-making processes, social mixing and demographics. USP Peoples deepens your knowledge of foundational studies while advancing your professional capabilities through challenge-based and collaborative learning, including situated municipal and field studies. USP Peoples is oriented towards planners, urban economists and managers and those interested in urban humanities.

Urban Ecologies and Systems
Urban Ecologies and Systems (USP Systems) addresses urban development by integrating technical and natural science knowledge. This includes methodologies for studying, assessing and planning for social and ecological resilience, technological innovation and complex adaptive systems. It applies systems approaches to identify multi-dimensional planning while retaining a holistic perspective on the complex and historical dynamics affecting multiple scales. USP Systems develops your understanding of foundational studies while advancing your professional capabilities through challenge-based and collaborative learning, including urban, digital and ecological field studies. USP Systems is oriented towards planners, engineers, architects, landscape architects, and environmental managers.

Programme Structure

The requirement for completing the Master’s programme in Urban Studies and Planning is 120 credits (ECTS), which can be done in two years. The curriculum consists of:

Core Urban Challenge Studios (20 credits)
Common urban challenge studios integrate multiple expert areas to study and address contemporary urban phenomena from different perspectives. Here you will explore urban challenge themes theoretically from different perspectives and you will address them practically within specific cases, sites or initiatives. Your teachers represent key disciplines and professions, and your studies will be conducted in cooperation with partners in research and municipalities. Examples of urban challenge themes include:
-Urban economies and the challenge of governance and welfare.
-Social integration and the challenge of urban typologies and heritage.
-Liveability and the global challenge of fast-paced cities.
-Socio-Ecological habitats and the challenge of densification.

Specialisation coursework (20 credits)
The three study lines offer courses for you to specialise within one of the three competence areas in the broad field of urban studies and planning. Both universities offer courses for each study line; these can be adapted to support your advancement, background knowledge and skills. The courses cover topics such as urban geography, urban sociology, urban ecology, urban economics, urban ethnology and history, environmental policy, urban planning, urban design, landscape architecture, real estate economics, service and strategic design, etc.

Core skills and methods coursework (20 credits)
Core skills for thesis research and professional practice are offered as basic courses. These include skills relevant to digital representation, analysis and communication, modalities and techniques of communication and argumentation, research methods and methodologies of academic research. You will learn, for example, how to use digital tools to analyse and study urban phenomena and how to illustrate your ideas and solutions visually and graphically. You will also become familiar with the theories and tools of communication and argumentation, and you will study and apply research methods.

Electives (30 credits)
You can select elective courses according to your personal study plan. You can select electives to deepen your knowledge in a specialisation or broaden your exposure to additional areas relevant to planning. For architects and landscape architects, some electives will guide your development according to the EU directive for these professions. You can also take courses at other Finnish universities, in a student exchange abroad, or in an internship in city planning and development.

Master’s Thesis (30 credits)

Career Prospects

The programme prepares you to be a professional in a field that is meaningful, growing and in demand. You will acquire the knowledge, skills and experience needed to fill both traditional and emerging planning roles (such as urban planning and design, real estate development, strategic planning, environmental planning, landscape architecture, policy and service design). To these established or emerging roles, you will bring an integrated understanding of, and training in applying, more interdisciplinary and collaborative approaches to urban development. As a graduate you will be prepared to compete for local and international positions within public, private and non-profit organisations, planning, architectural and policy advisory firms, research institutes and NGOs.

Internationalization

The Master’s Programme in Urban Studies & Planning provides international scope in many ways, taking advantage of the unique Helsinki context and diverse urban contexts around the world. Each year, new students in the Master’s Programme in Urban Studies & Planning include both Finnish and international applicants. We look for students whose varied backgrounds, experiences, and education reflect the richness of contemporary society. The teachers of the programme have an international background and experience, and the programme builds on their strong international connections in their respective fields. Researchers and invited lecturers from abroad take part in the teaching of the programme. The Master’s Programme builds on the joint University of Helsinki and Aalto University Bachelor’s Program ‘Urban Academy’, including its teaching faculty, international network and advisory board of leading international experts. Your elective coursework can include a student exchange or internship abroad, and you are also encouraged to collaborate internationally on your Master’s thesis. You will thus have an opportunity to study in an international environment and acquaint yourself with different cultures. For international and Finnish students, Helsinki and Finland are well-known internationally for progressive approaches to planning. Helsinki is a UNESCO creative city; planning and design have strong roles within municipalities, government and the public sector. Finland is a European and international forerunner in technological research and innovation, such as open data in municipalities. Local and national policies support experimental and participatory culture and development. In the context of urban challenges, Helsinki provides a unique case for engaging with progressive approaches to welfare state paradigms, including public-private dynamics, changing demographics and cultures, and diverse approaches to market growth and sustainability.

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The Master of Engineering Studies in Geotechnical Engineering programme aims to further educate graduate students in the discipline of geotechnical engineering so as to enhance their contribution to engineering practice. Read more

Invest in your future

The Master of Engineering Studies in Geotechnical Engineering programme aims to further educate graduate students in the discipline of geotechnical engineering so as to enhance their contribution to engineering practice.

Graduates will be able to take leading roles in planning, evaluating, designing, constructing, maintaining, and managing the geotechnical infrastructure.

The programme alsos provide valuable background expertise for those wishing to enter into asset management or to begin to pursue a career in research and development.

The Master of Engineering Studies in Geotechnical Engineering programme aims to build on the geotechnical content of the BE (Civil) degree and develop graduates with enhanced ability to contribute to geotechnical engineering practice.

New Zealand is a stimulating country in which to practise geotechnical engineering with its young and varied geology, seismic activity and diverse rainfall patterns. Many unique problems occur here as a result and these present challenges for innovative and novel solutions.

The programme has been designed with courses relevant to the New Zealand geotechnical environment, to fill the needs of the country.

There is a large demand for geotechnical engineers in the local workplace, as well as a worldwide shortage of geotechnical professionals.

Programme Structure

Taught (120 points)
The Geotechnical Engineering specialisation is offered as a taught masters (eight courses).

Electives

Elective enrolments may depend on your prior study and professional experience, but ultimately, choosing the appropriate courses and topics can allow you to concentrate on and develop strengths in your energy field of choice.

Our broad list of electives include courses in:
• Design of Earthquake Resistant Foundations
• Earthquake Engineering
• Rock Mechanics and Excavation Engineering
• Soil Behaviour
• Geotechnical Earthquake Engineering
• Engineering Geological Mapping
• Geological Hazards
• Advanced Engineering Geology
• Hydrogeology
• Studies in Civil Engineering
• Foundation Engineering
• Slope Engineering
• Engineering Geology
• Ground Improvements and Geosynthetics Engineering
• Geotechnical Modelling
• Advanced Mathematical Modelling
• Surface Water Quality Modelling
• Risk, LCA and Sustainability

Next generation research at the Faculty of Engineering

The Faculty of Engineering is dedicated to providing you with all the facilities, flexibility and support needed for you to develop the skills needed for the workforce. We boast research themes and programmes that provoke interdisciplinary projects, bringing together expertise from our five departments, other faculties, and industry partners and research organisations. Collaborative study is strongly encouraged – postgraduates in particular have the benefit of experiencing cohorts with diverse academic and industry backgrounds.

You will gain access to world-renowned experts who actively demonstrate the positive impacts research have on society. High-performance equipment and labs beyond industry standards are at your fingertips. Our facilities extend beyond study hours – we take pride in our involvement in student events and associations across the University, and are dedicated to providing you with academic, personal and career advice. We encourage you to take advantage of our resources, and use them to expand the possibilities of your research and career path.

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Take advantage of one of our 100 Master’s Scholarships to study Mechanical Engineering at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Mechanical Engineering at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

Mechanical Engineering at Swansea maintains a high standard of teaching and research, set in a relaxed and sociable atmosphere. As a student on the Master's course in Mechanical Engineering, you will be provided with a high quality overview of the techniques of modern mechanical engineering, presenting examples of use from a wide range of disciplines and industries.

Key Features of MSc in Mechanical Engineering

The MSc Mechanical Engineering course is stimulating and our graduates are rewarded with excellent job prospects. It will equip you with the ability to make informed judgements on the most appropriate approach to a range of mechanical engineering problems.

The MSc Mechanical Engineering course covers the development of mechanical engineering tools, methods and techniques for problem solving, the ability to formulate an adequate representation of sets of experimental data, the use of these tools and techniques for real world applications, the ability to formulate an accurate representation of sets of experimental data, and business and management methods and their application in the field of engineering.

The research project undertaken as part of the MSc Mechanical Engineering course is industrially relevant and the topics of the course are of high industrial relevance.

Mechanical Engineering at Swansea University is recognised as one of the top 200 departments in the world (QS World Subject Rankings).

MSc programmes are modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation. Students must successfully complete Part One before being allowed to progress to Part Two.

Modules

Modules on the MSc Mechanical Engineering course can vary each year but you could expect to study:

Strategic Project Planning
Additive Manufacturing
Entrepreneurship for Engineers
Optimisation
Composite Materials
Simulation Based Product Design
Advanced Thermo Fluid Mechanics
Advanced Solid Mechanics
Environmental Analysis and Legislation
Polymer Processing
Systems Monitoring, Control, Reliability, Survivability, Integrity and Maintenance
Process Metallurgy and Optimisation
Power Generation Systems

Accreditation

The MSc Mechanical Engineering course is accredited by the Institution of Mechanical Engineers (IMechE).

The MSc Mechanical Engineering degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

Facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Mechanical Engineering at Swansea University has extensive laboratory and computing facilities for both teaching and research purposes.

In the mechanical laboratories are two large rotating rigs. One is used to study the dynamics of high speed machinery whilst the other is devoted to the analysis of heat transfer in turbine blade.

Careers

The modules on the MSc Mechanical Engineering course are of high industrial relevance and the benefits to employability are immediate in a wide range of industries.

Links with Industry

Members of staff work closely with a range of industries through knowledge transfer projects, consultancy and strategic research, which informs the practical problems used in our teaching.

Within Wales we have close interaction with large companies such as Tata Steel and Ford, as well as small and medium-sized enterprises (SMEs). Across the UK there is or has been recent work with companies such as Astra-Zeneca, British Aerospace, Qinetiq, GKN and Rolls-Royce whilst further afield there is close working with companies such as SKF (Netherlands), Freeport (USA), One Steel (Australia), Barrick Gold (USA) to name a few.

Careers

The modules on the MSc Mechanical Engineering course are of high industrial relevance and the benefits to employability are immediate in a wide range of industries.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

Student Quotes

“Every single day at the College of Engineering has been a learning process for me. The MSc in Mechanical Engineering involves leading world class professors, tutors and academics with whom we were lucky to be associated with. There is also a great peer group too.

I would like to pursue a PhD from Swansea University and become an entrepreneur. The College of Engineering has helped immensely with these ambitions.”

Arnab Dasgupta, MSc Mechanical Engineering

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This programme enables graduates and engineers to develop their technical knowledge and skills to meet the future demands of the construction industry. Read more
This programme enables graduates and engineers to develop their technical knowledge and skills to meet the future demands of the construction industry. It will give you the opportunity to develop your professional, analytical and management skills to an advanced level. It provides a broad, subject-specific curriculum with the chance to specialise through a variety of course options and an individual project. Topics for the project cover a variety of industrial applications and are inspired by the consultancy and research activities of academic staff. The programme is run by a team of research-active staff and is supported by world-class experimental facilities, including the largest concrete slab testing rig in Europe, geotechnical and hydraulics laboratories, and one of the largest environmental chambers in the country. This environment will provide you with unique support and enable you to undertake course-related activities that involve analytical and experimental tasks as well as computer simulations. Our staff work hard to support learning and are committed to student satisfaction. In return, we have received very positive feedback: No.1 in the UK for student satisfaction with the quality of teaching for civil engineering from the Complete University Guide 2016.

The Department of Engineering Science, part of the Faculty of Engineering & Science, has built strong links with local and national employers. We enjoy the support of an industrial board, a forum which enables us to constantly revise our programmes to reflect the changing needs of industry. Our students leave equipped with the skills and practical experience that employers value. We have invested in the very latest facilities and industry-standard equipment, so you will graduate with hands-on experience of the technology being used in the workplace. Many of our programmes are accredited or recognised by relevant professional bodies, which can widen your career options and increase your opportunities for career progression. Our success has been widely acknowledged.

The aims of the programme are:

- To enhance specialist knowledge in selected areas of civil engineering which build upon studies at the undergraduate level

- To develop a broader insight into aspects of civil engineering design

- To develop critical insight into broader management issues relating to civil engineering in particular and construction in general.

Visit the website http://www2.gre.ac.uk/study/courses/pg/engciv/civeng

Engineering - Civil

Our programmes offer graduates and engineers an opportunity to update technical knowledge and enhance skills to serve the future demands of the construction industry, to participate in professional development and to achieve career progression. The School of Engineering seeks to make the postgraduate experience both challenging and rewarding, and, by working closely with industry, strive to uphold our tradition of the high level of industrial relevance of our programmes.

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Computer Modelling of Civil Engineering Problems (15 credits)
Highway Engineering (15 credits)
Principles of Management for Civil Engineering. (15 credits)
Analysis and Management of Risk in Civil Engineering (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Research, Planning and Communication (15 credits)
Dynamics of Structures (15 credits)

Students are required to choose 15 credits from this list of options.

Advanced Materials Engineering for Construction (15 credits)
Water and Wastewater Engineering (15 credits)

Students are required to choose 15 credits from this list of options.

Analysis and Design for Seismic Action (15 credits)
Advanced Geotechnical Engineering (15 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Computer Modelling of Civil Engineering Problems (15 credits)
Highway Engineering (15 credits)
Analysis and Management of Risk in Civil Engineering (15 credits)
Dynamics of Structures (15 credits)

- Year 2:
Students are required to study the following compulsory courses.

Principles of Management for Civil Engineering. (15 credits)
Individual Research Project for Civil and Environmental Engineering (60 credits)
Research, Planning and Communication (15 credits)

Students are required to choose 15 credits from this list of options.

Advanced Materials Engineering for Construction (15 credits)
Water and Wastewater Engineering (15 credits)

Students are required to choose 15 credits from this list of options.

Analysis and Design for Seismic Action (15 credits)
Advanced Geotechnical Engineering (15 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Assessment

You will be assessed through examinations, case studies, assignments, practical work and a dissertation.

Professional recognition

This programme is accredited by the Joint Board of Moderators (comprising the Institution of Civil Engineers, the Institution of Structural Engineers, the Chartered Institution of Highways and Transportation and the Institute of Highway Engineers) as fully satisfying the further learning requirement for chartered engineer (CEng) registration. An individual holding an accredited MSc must also hold a CEng-accredited honours degree to have the full exemplifying qualifications for CEng status.

Career options

You may join world-class engineering consultants, contractors and clients with established, accredited training programmes and continuing professional development opportunities worldwide.

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/?a=643911

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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This course has been running for more than forty years and is recognised as providing a good grounding for students interested in the management, engineering and planning of transport infrastructure. Read more
This course has been running for more than forty years and is recognised as providing a good grounding for students interested in the management, engineering and planning of transport infrastructure. It takes students from a wide range of relevant backgrounds.

The emphasis of the course is on current methodology and practice to improve your employability with engineering and planning departments of local and central governments, passenger transport executives, and transport consultants.

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

Key benefits:

• Member of the national Universities Transport Partnership
(http://www.utp.org.uk)
• Emphasis on methodology and practice, guided by the needs of employers
• Meets requirements for Further Learning for a Chartered Engineer (CEng)

Visit the website: http://www.salford.ac.uk/pgt-courses/transport-engineering-and-planning

Suitable for

Graduates come from a wide variety of backgrounds including civil engineering, geography, economics, mathematics, physics, business studies and social studies wishing to specialise in the field of transport engineering and planning. Students will need a reasonable aptitude for mathematics/statistics.

Programme details

Transport engineering modules relate to traffic engineering and transport systems design. Transport planning modules consider policy (such as reducing car dependency), travel demand forecasting and appraisal. If you have a civil engineering background you can elect to take an optional module in transport infrastructure design as an alternative to the extended modelling and appraisal work.

The course is supported by field surveys, seminars and studio work, allowing students to experience a range of relevant computer packages and methodological approaches.

You are also required to produce a dissertation with the close supervision of an expert academic member of staff.

This course may be taken on a full-time or part-time basis. The part-time course enables candidates who would not normally be able to obtain a year’s release from employment to also study in depth and is used by some employers as part of their formal graduate training programme.

Format

The course combines formal lectures and seminars with extensive coursework including transport planning studio work, traffic survey projects, appraisal assignments and statistics tutorials. The teaching panel includes visiting specialists with expert knowledge of specific topics.

You will be exposed to a range of relevant transport software.

Part-time students study the taught modules over two years on a day-release basis (currently Thursdays)

Module titles

• Transport Planning: Policy and Principles
• Transport Engineering: Principles and Methodologies
• Transport Engineering: Analysis and Road Safety
• Transport Planning: Forecasting and Appraisal (option)
• Transport Infrastructure Design and Analysis (option)
• MSc Dissertation

Assessment

Assessment is by a combination of formal examinations, tutorial and seminar work, course assignment portfolio and a dissertation. The overall breakdown is:

• Examination: 50%
• Coursework: 50%

Career potential

Graduates come from a wide variety of backgrounds including civil engineering, geography, economics, mathematics, physics, business studies and social studies wishing to specialise in the field of transport engineering and planning. Students will need a reasonable aptitude for mathematics/statistics.

How to apply: http://www.salford.ac.uk/study/postgraduate/applying

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Running for over 35 years, this fully accredited MSc programme builds advanced capabilities in specialist aspects of bridge engineering. Read more
Running for over 35 years, this fully accredited MSc programme builds advanced capabilities in specialist aspects of bridge engineering.

Successful completion of this programme will aid you in pursuing a career as a bridge engineer with a consultancy, a specialist contractor or a local authority.

PROGRAMME OVERVIEW

Graduate students will find the programme of substantial use in developing their knowledge and skills base for bridge analysis, design and management.

The programme also offers the opportunity for practising bridge engineers to update their knowledge of current design and assessment codes and guidelines, become familiar with developments in new techniques for the design, construction and management of bridges.

The Bridge Engineering programme encompasses a wide range of modules addressing the whole life-analysis of bridge structures from design to end-of-life.

Optional modules from some of our other study streams are also offered, covering structural engineering, geotechnical engineering, water engineering, construction management, and infrastructure engineering and management.

Graduates are highly employable and may progress to relevant specialist PhD or EngD research programmes in the field.

PROGRAMME STRUCTURE

This programme is studied over either one year (full-time) or between two and five years (part-time or distance learning). It consists of eight taught modules and a dissertation project.

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Bridge Engineering Group Modules
-Bridge Deck Loading and Analysis
-Prestressed Concrete Bridge Design
-Durability of Bridges and Structures
-Steel and Composite Bridge Design
-Long-Span Bridges

Structural Engineering Group Modules
-Steel Building Design
-Space Structures
-Structural Mechanics and Finite Elements
-Subsea Engineering
-Concrete Building Design
-Structural Safety and Reliability
-Earthquake Engineering
-Design of Masonry Structures

Geotechnical Engineering Group Modules
-Advanced Soil Mechanics
-Energy Geotechnics
-Geotechnical Structures
-Soil-Structure Interaction
-Foundation Engineering

Construction Management Group Modules
-Construction Management and Law
-Construction Organisation
-Project and Risk Management

Infrastructure Engineering and Management Group Modules
-Infrastructure Investment and Financing
-Infrastructure Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

Water and Environmental Engineering Group Modules
-Environmental Health
-Water Treatment
-Wastewater Treatment
-Applied Chemistry and Microbiology
-Pollution Control
-Groundwater Control
-Regulation and Management
-Water Resources Management and Hydraulic Modelling
-Water Policy and Management
-Dissertation
-Dissertation Project

EDUCATIONAL AIMS OF THE PROGRAMME

The programme aims to provide graduates with:
-A comprehensive understanding of engineering mechanics for bridge analysis
-The ability to select and apply the most appropriate analysis methodology for problems in bridge engineering including advanced and new methods
-The ability to design bridge structures in a variety of construction materials
-A working knowledge of the key UK and European standards and codes of practice associated with the design, analysis and construction of bridge structures and the ability to interpret and apply these to both familiar and unfamiliar problems
-The necessary technical further learning towards fulfilling the educational base for the professional qualification of Chartered Engineer

PROGRAMME LEARNING OUTCOMES

The programme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:

Knowledge and understanding
-A knowledge and understanding of the key UK and European standards and codes of practice relating to bridge engineering
-The ability to interpret and apply the appropriate UK and European standards and codes of practiceto bridge design for both familiar and unfamiliar situations
-A knowledge and understanding of the construction of different types of bridge structures using different types of materials (e.g. concrete and steel)
-A knowledge and understanding of the common and less common materials used in bridge engineering
-A comprehensive understanding of the principles of engineering mechanics underpinning bridge engineering
-The ability to critically evaluate bridge engineering concepts
-The ability to apply the appropriate analysis methodologies to common bridge engineering problems as well as unfamiliar problems
-The ability to understand the limitations of bridge analysis methods
-A knowledge and understanding to work with information that may be uncertain or incomplete
-A Knowledge and understanding of sustainable development related to bridges
-The awareness of the commercial, social and environmental impacts associated with bridges
-An awareness and ability to make general evaluations of risk associated with the design and construction of bridge structures including health and safety, environmental and commercial risk
-A critical awareness of new developments in the field of bridge engineering

Intellectual / cognitive skills
-The ability to tackle problems familiar or otherwise which have uncertain or incomplete data (A,B)
-The ability to generate innovative bridge designs (B)
-The ability to use theory or experimental research to improve design and/or analysis
-The ability to apply fundamental knowledge to investigate new and emerging technologies
-Synthesis and critical appraisal of the thoughts of others

Professional practical skills
-The awareness of professional and ethical conduct
-A Knowledge and understanding of bridge engineering in a commercial/business context
-Ability to use computer software to assist towards bridge analysis
-Ability to produce a high quality report
-Ability of carry out technical oral presentations

Key / transferable skills
-Communicate engineering design, concepts, analysis and data in a clear and effective manner
-Collect and analyse research data
-Time and resource management planning

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This well-established and fully accredited MSc programme will develop the knowledge and skills acquired in your undergraduate programme. Read more
This well-established and fully accredited MSc programme will develop the knowledge and skills acquired in your undergraduate programme. It builds the advanced capabilities in analysis and codified design in specialised aspects of structural engineering that are required by industry.

PROGRAMME OVERVIEW

Our Structural Engineering postgraduate programme is delivered by the Faculty’s own staff, together with practising engineers from consultancies and local authorities.

For practising engineers engaged in the planning, design and construction of structural engineering works, this programme provides an opportunity to update their knowledge of current design practice and to become familiar with developments in codes and methods of analysis.

You will be able to choose from a rich and varied selection of specialist structural engineering subjects. The programme is offered in the standard full-time mode, in addition to part-time and distance learning options.

Graduates from the programme are highly employable and may progress to relevant specialist PhD or EngD research programmes in the field.

PROGRAMME STRUCTURE

This programme is studied full-time over one academic year and part-time or distance learning over two to five academic years. It consists of eight taught modules and a dissertation project.

This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng (Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree. The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Structural Engineering Group Modules
-Steel Building Design
-Space Structures
-Structural Mechanics and Finite Elements
-Subsea Engineering
-Concrete Building Design
-Structural Safety and Reliability
-Earthquake Engineering
-Design of Masonry Structures

Bridge Engineering Group Modules
-Bridge Deck Loading and Analysis
-Prestressed Concrete Bridge Design
-Durability of Bridges and Structures
-Bridge Management
-Steel and Composite Bridge Design
-Long-Span Bridges

Geotechnical Engineering Group Modules
-Advanced Soil Mechanics
-Energy Geotechnics
-Geotechnical Structures
-Soil-Structure Interaction
-Deep Foundations and Earth Retaining Structures

Construction Management Group Modules
-Construction Management and Law
-Construction Organisation
-Project and Risk Management

Infrastructure Engineering Group Modules
-Infrastructure Investment and Financing
-Infrastructure Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

Water and Environmental Engineering Group Modules
-Environmental Health
-Water Treatment
-Wastewater Treatment
-Applied Chemistry and Microbiology
-Pollution Control
-Groundwater Control
-Regulation and Management
-Water Resources

Dissertation
-Dissertation Project

Apart from the usual full-time mode, there are also part-time options. The majority of Bridge, Geotechnical and Structural Engineering modules can be studied by distance learning through the use of an interactive web-based e-learning platform (SurreyLearn). This programme can be studied via distance learning, which allows a high level of flexibility and enables you to study alongside other commitments you may have.

EDUCATIONAL AIMS OF THE PROGRAMME

The programme aims to provide graduates with:
-A comprehensive understanding of engineering mechanics for structural analysis
-The ability to select and apply the most appropriate analysis methodology for problems in structural engineering including advanced and new methods
-The ability to design structures in a variety of construction materials
-A working knowledge of the key UK and European standards and codes of practice associated with the design, analysis and construction of civil engineering structures and the ability to interpret and apply these to both familiar and unfamiliar problems
-The necessary technical further learning towards fulfilling the educational base for the professional qualification of Chartered Engineer

PROGRAMME LEARNING OUTCOMES

Knowledge and understanding
-A knowledge and understanding of the key UK and European standards and codes of practice relating to structural engineering
-The ability to interpret and apply the appropriate UK and European standards and codes of practice to structural design for both familiar and unfamiliar situations
-A knowledge and understanding of the construction of different types of structures using different types of materials (e.g. concrete and steel)
-A knowledge and understanding of the common and less common materials used in structural engineering
-A comprehensive understanding of the principles of engineering mechanics underpinning structural engineering
-The ability to critically evaluate structural engineering concepts
-The ability to apply the appropriate analysis methodologies to common structural engineering problems as well as unfamiliar problems
-The ability to understand the limitations of structural analysis methods
-A knowledge and understanding to work with information that may be uncertain or incomplete
-A Knowledge and understanding of sustainable development related to structures
-The awareness of the commercial, social and environmental impacts associated with structures
-An awareness and ability to make general evaluations of risk associated with the design and construction of structures including health and safety, environmental and commercial risk
-A critical awareness of new developments in the field of structural engineering

Intellectual / cognitive skills
-The ability to tackle problems familiar or otherwise which have uncertain or incomplete data
-The ability to generate innovative structural designs
-The ability to use theory or experimental research to improve design and/or analysis
-The ability to apply fundamental knowledge to investigate new and emerging technologies
-Produce sound designs to meet specified requirements such as Eurocodes, deploying commercial software packages as appropriate
-Synthesis and critical appraisal of the thoughts of others

Professional practical skills
-The awareness of professional and ethical conduct
-A Knowledge and understanding of structural engineering in a commercial/business context
-Ability to use computer software to assist towards structural analysis
-Ability to produce a high quality report
-Ability of carry out technical oral presentations

Key / transferable skills
-Communicate engineering design, concepts, analysis and data in a clear and effective manner
-Collect and analyse research data
-Time and resource management planning

GLOBAL OPPORTUNITIES

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.

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This programme has been designed to meet the challenges of the rapidly changing global market by providing the skills and abilities to contribute to the availability of well-designed products, process and systems. Read more
This programme has been designed to meet the challenges of the rapidly changing global market by providing the skills and abilities to contribute to the availability of well-designed products, process and systems.

As a broad-based Mechanical Engineering degree this programme provides a wide variety of career options in the engineering sector.

Core study areas include experimental mechanics, simulation of advanced materials and processes structural analysis, computer aided engineering, engineering design methods, sustainable development: the engineering context, the innovation process and project management, thermofluids and a project.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/mechanical-manufacturing/mechanical-engineering/

Programme modules

- Experimental Mechanics
This module introduces the following elements: experimental techniques for analysis and characterisation of various engineering materials and full-field, non-contact optical methods for deformation and strain measurements. Students will learn to identify the most appropriate experimental techniques for evaluating material response in a specific setting and for different types of materials.

- Simulation of Advanced Materials and Processes
The objective of this module is to introduce students to the concepts in numerical simulation of advanced materials and processes. To enable students to gain theoretical and practical experience in simulating mechanical behaviour of advanced materials and modelling processes related to these materials using finite element modelling techniques.

- Structural Analysis
Students will gain an understanding of modern concepts of structural analysis. They will gain practical experience in analyses of structures using finite-element modelling and understand the need for structural analysis in design.

- Computer Aided Engineering
Students will learn how to evaluate, choose and implement CAE systems. Students will learn to select and apply appropriate computer based methods and systems for modelling engineering products; analysing engineering problems; and assisting in the product design process.

- Engineering Design Methods
The aims of this module are to provide students with a working understanding of some of the main methods which may be employed in the design of products and systems. Students will learn to identify appropriate methods and techniques for use at different times and situations within a project.

- Sustainable Development: The Engineering Context
The objective of this module are to provide students with an understanding of the principles and practices of sustainable development and to provide them with an understanding of how engineers can help manufacturing businesses develop into more sustainable enterprises.

- The Innovation Process and Project Management
This module allows students to gain a clear overview of the innovation process and an understanding of the essential elements within it. Students will learn strategies for planning and carrying out innovative projects in any field.

- Thermofluids
In this module students study the fundamentals of combustion processes and understand key aspects relating to performance and emissions. Students develop knowledge and skills required by engineers entering industries involved in the design and use of combustion equipment.

- Project
In addition to the taught modules, all students undertake an individual major project. Part-time students normally undertake a major project that is based on the needs of their employing company.

How you will learn

You will learn through a carefully balanced combination of lectures, in-class guided workshops, hands-on computer modelling and independent research.

The programme consists of eight, week-long, taught lecture modules plus project work. Each taught module is self-contained and covers a complete target. This programme is available in both full-time and part-time forms. Full-time students commence their studies on the first Monday in October for a period of 12 months. Part-time students may commence their registration at any time between October and the following March, and take 3 years (typical) to complete the programme.

On completion of this programme, students should be able to:
- Plan and monitor multi-disciplinary projects;
- appreciate the central role of design within engineering;
- demonstrate competence in using computer based engineering techniques;
- analyse and understand complex engineering problems; and
- use team working skills and communicate effectively at an advanced technical level.

Facilities

As a student within the School of Mechanical and Manufacturing Engineering you will have access to a range of state-of-the-art equipment. Our computer labs are open 24/7 and use some of the latest industry standard software including STAR-CCM and CAD.

We have high-tech laboratories devoted to:
- Dynamics and control
- Electronics
- Fluid mechanics
- Materials
- Mechatronics
- Metrology
- Optical engineering
- Structural integrity
- Thermodynamics

Careers and further study

The programme will allow students to acquire the technical and transferable skills required to succeed in a career in industry or academic research. Graduates may also study for an MPhil or PhD with the School.

Scholarships

The University offers over 100 scholarships each year to new self-financing full-time international students who are permanently resident in a country outside the European Union. These scholarships are to the value of 25% of the programme tuition fee and that value will be credited to the student’s tuition fee account.
You can apply for a scholarship once you have received an offer for a place on this programme.

Why Choose Mechanical and Manufacturing Engineering at Loughborough?

The School of Mechanical and Manufacturing Engineering is a leader in technological research and innovation, with extensive national and international industrial links, and a long standing tradition of excellent teaching.

Our Industrial Advisory Committee, comprising of engineers at senior levels in the profession, ensures that our programmes contain the optimal balance of subjects and industrial relevance, with our programmes accredited by the Institution of Mechanical Engineers, Institution of Engineering and Technology and Institution of Engineering Designers.

- Facilities
The School has laboratories devoted to disciplines such as; dynamics and control, automation, fluid mechanics, healthcare engineering, internal combustion engines, materials, mechatronics, metrology, optical engineering, additive manufacturing, sports engineering, structural integrity and thermodynamics.

- Research
The School has a busy, multi-national community of well over 150 postgraduate research students who form an important part of our internationally recognised research activities.
We have seven key research centres (Electronics Manufacture, Intelligent Automation, Regenerative Medicine Embedded Intelligence, High Efficiency SCR for Low Emission Vehicles and High Value Manufacturing Catapult Centre) and we are a lead governing partner in the newly formed UK Manufacturing Technology Centre.

- Career prospects
90% of our graduates were in employment or further study within six months of graduating. Our graduates go on to work with companies such as Airbus, BAE Systems, Caterpillar, EDF Energy, Ford, IBM, Jaguar Land Rover, Millbrook Proving Ground, Rolls Royce and Tata Steel.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/mechanical-manufacturing/mechanical-engineering/

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Why this course?. Engineering graduates are in high demand from recruiting companies worldwide. This course has been designed to meet the needs of a broad range of engineering industries. Read more

Why this course?

Engineering graduates are in high demand from recruiting companies worldwide.

This course has been designed to meet the needs of a broad range of engineering industries. As a Masters student, you’ll gain the specialist and generic skills necessary to lead future developments.

This one-year MSc in civil engineering is suitable for graduates with a background in any discipline of civil engineering. Applicants with a degree in environmental engineering, earth science, maths, physics and mechanical engineering may also be considered.

You can graduate with an MSc in Civil Engineering or choose to follow a specialist named stream:

- Civil Engineering with Structural Engineering & Project Management

- Civil Engineering with Geotechnical Engineering & Project Management

- Civil Engineering with Geoenvironmental Engineering & Project Management

- Civil Engineering with Water Engineering & Project Management

See the website https://www.strath.ac.uk/courses/postgraduatetaught/civilengineering/

You’ll study

You'll take the compulsory module Civil Engineering Design Projects. This module gives you the opportunity to work on real projects. You can choose between a renewable energy project or an industrial project. You’ll develop comprehensive and innovative designs that involve structural engineering, geotechnical engineering and water engineering, management, environmental and financial planning.

You'll also take the compulsory module Research Protocols for Science & Engineering which supports the dissertation project. You also have a wide choice of optional modules.

Following successful completion of the taught component, you’ll undertake a dissertation. If you’re on one of the specialist streams you’ll undertake a research project on a topic related to that stream. The dissertation can be linked to the industrial placement and worked on together with the industrial partner.

Placements

As part of the class Independent Study in Collaboration with Industry, you can apply to work with industry projects.

Facilities

In the Department of Civil & Environmental Engineering we’ve invested £6million in state-of-the-art laboratories which cover core areas of activity including:

- geomechanics

- microbiology

- analytical chemistry

- structural design

- Field investigation

We’re equipped with:

- nanoseismic systems for monitoring the mechanical evolution of soil and rock masses

- Electrical Resistivity Tomography systems to detect clay fissuring and ground water flow in earth-structures

- dielectric permittivity-based sensors to monitor water flow in the sub-surface environment

- Geomechanics Laboratory

We’re equipped with state-of-the art technologies for testing multiphase (unsaturated) porous geomaterials. These include:

- suction-controlled double-wall triaxial cells

- pressure plates

- triaxial cells equipped with bender elements for dynamic testing

- image analysis unit to monitor soil specimen deformation

- instruments for measurement of pore-water tensile stress

- Mercury Intrusion Porosimeter and SEM for microstructure investigation

- Software & numerical modelling

You’ll have access to a wide range of software packages relevant to civil and geotechnical engineering applications, including:

- GEOSTUDIO suite (Slope, Seep, Sigma, Quake, Temp, CTran, Air and Vadose)

- ABAQUS finite element packages

- Ansys

- Autodesk Civil 3D

- Limit State

- Strand 7

- Talren 4

Accreditation

This degree 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.

Open Access

Home students can also choose to study through Open Access. This is initially a non-graduating route. You register for one module at a time and have the option to build up credits eventually leading to a Postgraduate Certificate, Postgraduate Diploma or MSc. You can take up to five years to achieve the qualification.

This option is popular with students in employment, who may wish to undertake modules for Continuing Professional Development purposes.

Home students who do not meet the normal MSc entry requirements for this programme are welcome to apply through the Open Access route instead.

Additional requirements

For candidates whose first language is not English, minimum standards of English proficiency are an IELTS score of 6.5. Applicants with slightly lower scores have the opportunity to attend the University's Pre-Sessional English classes to bring them up to the required level. Some exceptions to the above may apply to nationals of UKBA-approved Majority English Speaking countries.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at the University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

The course has two semesters of taught classes. Some classes involve fieldtrips and/or lab work. For fieldtrips, you need to wear warm clothing, waterproof jacket/trousers and sturdy shoes/boots (e.g. hiking boots or non-slip wellington boots).

For lab work, you’ll need a lab coat. At the start of your course you’ll attend a two-day induction welcoming you to the department

Careers

High-calibre civil engineers are in demand throughout the world. As a graduate you'll have many different career options including:

- engineering consultancies, where the work normally involves planning and designing projects

- contractors, where you’ll be managing and overseeing works on-site

- working for utilities or local authorities

- working for large companies such as those within oil production, mining and power generation

How much will I earn?

As a contracting civil engineer the average graduate starting salary is around £23,500. With five years' experience this could rise to £28,523

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp



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Why this course?. Civil engineering develops and improves facilities and services that society needs – from the supply of clean water and energy to the design and construction of roads, railways and stations. Read more

Why this course?

Civil engineering develops and improves facilities and services that society needs – from the supply of clean water and energy to the design and construction of roads, railways and stations. Solving problems of air, land and water pollution and protecting society against natural disasters are also important aspects of civil engineering.

Engineering graduates are in high demand from recruiting companies worldwide.

This 18-month MSc course has been designed to meet the needs of a broad range of engineering industries. As a Masters student, you’ll gain the specialist and generic skills necessary to lead future developments, with practical experience provided by the industrial placement.

The course has a significant design element based on the most up-to-date specialist design guidelines. This includes a major design project that integrates acquired knowledge and acts as a platform for structured self-learning.

This MSc in Civil Engineering with Industrial Placement is suitable for graduates with a background in any discipline of civil engineering. Applicants with a degree in environmental engineering, earth science, mathematics, physics and mechanical engineering may also be considered.

The MSc in Civil Engineering with Industrial Placement has three optional specialist streams:

- Structural Engineering & Project Management

- Geotechnical Engineering & Project Management

- Geoenvironmental Engineering & Project Management

- Civil Engineering with Water Engineering & Project Management

See the website https://www.strath.ac.uk/courses/postgraduatetaught/civilengineeringwithindustrialplacement/

Industrial placement

A wide range of companies, such as AECOM, ATKINS, CAPITA, CH2M HILL and ClimateXChange (Scotland’s Centre of Expertise on Climate Change), are offering placements exclusively for this MSc. A full list of companies can be provided upon request. The 8 to 12 weeks industrial placement will take place in the period from June to September.

You’ll study

You'll take the compulsory module Civil Engineering Design Projects. This module gives you the opportunity to work on real projects. You can choose between a renewable energy project or an industrial project. You’ll develop comprehensive and innovative designs that involve structural engineering, geotechnical engineering and water engineering, management, environmental and financial planning.

In additional to the industrial placement you'll also take the compulsory module Research Protocols for Science & Engineering which supports the dissertation project. You also have a wide choice of optional modules.

Following successful completion of the taught component, you’ll undertake a dissertation. If you’re on one of the specialist streams you’ll undertake a research project on a topic related to that stream. The dissertation can be linked to the industrial placement and worked on together with the industrial partner.

Facilities

In the Department of Civil & Environmental Engineering we’ve invested £6million in state-of-the-art laboratories which cover core areas of activity including:

- geomechanics

- microbiology

- analytical chemistry

- structural design

- Field investigation

We’re equipped with:

- nanoseismic systems for monitoring the mechanical evolution of soil and rock masses

- Electrical Resistivity Tomography systems to detect clay fissuring and ground water flow in earth-structures

- dielectric permittivity-based sensors to monitor water flow in the sub-surface environment

- Geomechanics Laboratory

We’re equipped with state-of-the art technologies for testing multiphase (unsaturated) porous geomaterials. These include:

- suction-controlled double-wall triaxial cells

pressure plates

- triaxial cells equipped with bender elements for dynamic testing

- image analysis unit to monitor soil specimen deformation

- instruments for measurement of pore-water tensile stress

- Mercury Intrusion Porosimeter and SEM for microstructure investigation

- Software and numerical modelling

You’ll have access to a wide range of software packages relevant to civil and geotechnical engineering applications, including:

- GEOSTUDIO suite (Slope, Seep, Sigma, Quake, Temp, CTran, Air and Vadose)

- ABAQUS finite element packages

- Ansys

- Autodesk Civil 3D

- Limit State

- Strand 7

- Talren 4

Accreditation

This degree 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.

Additional requirements

For candidates whose first language is not English, minimum standards of English proficiency are an IELTS score of 6.5. Applicants with slightly lower scores have the opportunity to attend the University's Pre-Sessional English classes to bring them up to the required level. Some exceptions to the above may apply to nationals of UKBA-approved Majority English Speaking countries.

Pre-Masters preparation course

The Pre-Masters Programme is a preparation course for international students (non EU/UK) who do not meet the entry requirements for a Masters degree at the University of Strathclyde. The Pre-Masters programme provides progression to a number of degree options

To find out more about the courses and opportunities on offer visit isc.strath.ac.uk or call today on +44 (0) 1273 339333 and discuss your education future. You can also complete the online application form. To ask a question please fill in the enquiry form and talk to one of our multi-lingual Student Enrolment Advisers today.

Learning & teaching

Some classes involve fieldtrips and/or lab work. For fieldtrips, you need to wear warm clothing, waterproof jacket/trousers and sturdy shoes/boots (e.g. hiking boots or non-slip wellington boots).

For lab work, you’ll need a lab coat. At the start of your course you’ll attend a two-day induction welcoming you to the department

Careers

High-calibre civil engineers are in demand throughout the world. As a graduate you'll have many different career options including:

- engineering consultancies, where the work normally involves planning and designing projects

- contractors, where you’ll be managing and overseeing works on-site

- working for utilities or local authorities

- working for large companies such as those within oil production, mining and power generation

How much will I earn?

As a contracting civil engineer the average graduate starting salary is around £23,500. With five years' experience this could rise to £28,523*.

*Information is intended only as a guide.

Find information on Scholarships here http://www.strath.ac.uk/search/scholarships/index.jsp



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