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Masters Degrees (Water Resources Engineering)

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This programme is jointly organized by the Katholieke Universiteit Leuven and the Vrije Universiteit Brussel. It is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS). Read more

International Course Programme

This programme is jointly organized by the Katholieke Universiteit Leuven and the Vrije Universiteit Brussel. It is one of the International Course Programmes supported by the Flemish Interuniversity Council (VLIR-UOS).

The Master of Water Resources Engineering addresses water-related issues in developed and developing countries, with a focus on problems in the latter. The MSc programme provides multi-disciplinary and high-quality higher education in the field of water resources engineering.

Water Resources Engineering deals with the methods and techniques applied in the study of:
- water needs for agriculture, industry, households, recreation, navigation, hydroelectric power generation;
- problems related to storm water drainage and flood damage mitigation;
- problems related to water quality in streams and aquifers, erosion, sedimentation, protection of ecosystems and other natural resources;
- integrated water management; and
- institutional, socio-economic, and policy issues related to water resources development and management.

This is an initial Master's programme and can be followed on a full-time or part-time basis.

Curriculum

Details available on http://www.iupware.be/

The Interuniversity Programme in Water Resources Engineering offers a two year Master of Water Resources Engineering course, which is intended for graduates (or equivalent) in engineering, agriculture, hydrology and other related subjects. The main goal is to offer comprehensive training in water resources engineering to engineers and scientists from developing as well as industrialized countries. The programme blends various basic and applied courses, hydrology and engineering sciences associated with water resources development with appropriate organizational and managerial skills. The course is specially tailored for those who want to develop their knowledge and understanding of water resources engineering, and are or expect to be involved in the design, operation or day-to-day management of water resources schemes in developing countries or anywhere in the world.

The first year curriculum is common for all participants while in the second year, a common base with optional courses. After successful completion of the 2-year study programme, a Master of Water Resources Engineering degree is offered.

In the 1st year of the study programme a review of the basic knowledge is proposed, in order to achieve a common base level between students with different backgrounds. The 1st year is primarily organized at the K.U.Leuven. This programme consists of a number of courses (Advanced mathematics for water engineering, Statistics for water engineering, Irrigation agronomy, Aquatic ecology, Hydraulics, Surface Hydrology, Groundwater Hydrology and Water quality assessment, monitoring and treatment) and 4 workshops: (1) Hydrological data processing; (2) GIS; (3) Hydrological measurements and (4) Remote sensing.

In the the 2nd year of the Master programme, a broad spectrum of topics is given to ensure the coverage of the main aspects related to water resources engineering. The topics in the second year are intended to broaden the water resources engineering knowledge and to provide a deeper understanding in either Hydrology, Irrigation, Water Quality or Aquatic Ecology depending on the area of specialization. The 2nd year is primarily organized at the V.U.B. The courses in the programme make extensive use of modelling tools relevant to various aspects of the design, operation and management of water resources development projects.

Admission requirements

Candidates must hold a Bachelor's degree from a four-stage programme in agricultural, civil or environmental engineering. Study results should reflect the equivalent of a 70% pass rating in Flanders. Students should have a proven proficiency in English. Applicants from non-English-speaking countries should have a TOEFL score of at least 550 on the written test and 213 on the computer-based test or equivalent results on similar language test.

Students from a 5-stage engineering or equivalent degree, including the prerequisites to the second stage courses, can be exempted from 60 ECTS. Applications are evaluated on an individual basis.

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Details available on http://www.iupware.be/ . The MSc in Water Resources Engineering addresses water-related issues in developed and developing countries. Read more

Details available on http://www.iupware.be/ ;

The MSc in Water Resources Engineering addresses water-related issues in developed and developing countries. It is jointly organized by KU Leuven and the Vrije Universiteit Brussel (VUB). The general programme objective is to educate professionals and scientists through multidisciplinary and high-quality university education to contribute effectively to the development and management of local and global water resources. The programme trains students with cutting-edge technical and managerial knowledge and skills to  

(i) successfully plan, design, operate and manage water resources projects; and (ii) advise and support authorities in decision-making and policy-making that enhance the safe exploitation and re-use of wastewater and the equitable distribution and conservation of local, regional, and global water resources.  

A strong focus is put on the use of state-of-the-art numerical simulation tools for integrated water management. 

The programme deals with the methods and techniques applied in the study of 

- water needs for agriculture, industry, households, recreation, navigation, hydroelectric power generation - problems related to storm water drainage and flood damage mitigation - problems related to water quality in streams and aquifers, erosion, sedimentation, protection of ecosystems and other natural resources - integrated water management - institutional, socio-economic, and policy issues related to water resources development and management 

Employment prospects 

A combination of theory and practice ensures that students are equipped with excellent knowledge for further research and exciting job opportunities across the world. Graduates of the programme are primarily employed as 

(i) academics or scientists at universities and research institutions. Their major task is to strengthen the training and research capacity of those institutions in the field of water resources 

(ii) engineers or managers in public administrations, water user associations or private companies. 

Water resources engineers and scientists play a decisive role in the development and management of aquifers and river basins, and in deciding who does what, how much services cost, and who pays. They are the decision-makers and water managers of the future, who are capable of taking into account increased user demand and environmental needs, i.e. managing limited water resources in a sustainable and responsive way. 

International Mobility 

The master programme takes place in an intercultural and international environment. Students have the possibility to join excursions and field trips abroad and to carry out master thesis research in cooperation with our partner universities. 

Curriculum 

The full programme comprises 120 ECTS. Students with a relevant Master degree can apply for the 1-year abridged programme (60 ECTS) and will mainly follow second year courses. 

The first year curriculum builds a common foundation and is the same for all students. In the second year students design a personal programme through the selection of three elective courses, an integrated project and their master thesis research. Courses are held both at KU Leuven and the VUB campus.  

Year 1 (compulsory) 

- Advanced Mathematics for Water Engineering - Statistics for Water Engineering - Hydraulics - Groundwater Hydrology - Surface Water Hydrology - Irrigation Agronomy - Aquatic Ecology - Waste Water Treatment and Resource Recovery - Water Quality - Integrated Water Management - GIS & Data Processing for Water Resources Engineering - Remote Sensing and Measuring Techniques for Water Resources Engineering 

Year 2 

Compulsory 

- Systems Approach to Water Management - Social, Political, Institutional, Economic and Environmental Aspects of Water Resources 

Electives (three courses to be chosen) 

- Surface Water Modelling - Groundwater Modelling - River Modelling - Soil Water Modelling - Irrigation Design and Crop Water Productivity Management - Urban Hydrology and Hydraulics - Environmental Programming - Freshwater and Marine Ecology 

 

Integrated Project: Students work in groups on a particular watershed and travel to the case study area. They define problems and tackle them from different angles using modelling as well as nonmodelling tools



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The global shortage of qualified civil engineers includes specialists in water engineering and this MSc programme helps redress this imbalance by providing graduates with an advanced knowledge and skill base to equip them for senior industry roles. Read more

About the course

The global shortage of qualified civil engineers includes specialists in water engineering and this MSc programme helps redress this imbalance by providing graduates with an advanced knowledge and skill base to equip them for senior industry roles.

Brunel’s MSc in Water Engineering is unique in providing specialist knowledge on the critical sub-topics of water and wastewater management and engineering, desalination systems, building water services engineering, industrial waste water management, and water in health care.

The programme demonstrates the links between theory and practice by including input from our industrial partners and through site visits. This is a key aspect for establishing a competitive and high added value course that provides adequate links with industry.

Features of the course include:

Students’ skills in gathering and understanding complex information from a variety of sources (including engineering, scientific and socio-economic information) will be developed in an advanced research methods module. 

Issues relating to risk and health and safety will be introduced in the research methods module and built on in specialist modules. 

Generic modules in financial and project management will underpin specialist modules focusing on water engineering topics.

Real problem-solving examples – starting from basic principles, to the identified problem, the solution, the implementation process and was implemented and the end result. 

Real case studies – demonstrating how environmental and economic sustainability is considered within civil engineering, particularly in water resources management.

Aims

Problems associated with water resources, access, distribution and quality are amongst the most important global issues in this century. Water quality and scarcity issues are being exacerbated by rising populations, economic growth and climate change*.

Brunel's programme in Water Engineering aims to develop world class and leading edge experts on water sustainability who are able to tackle the industry’s complex challenges at a senior level. During the programme you will also learn about the development and application of models that estimate the carbon and water footprint within the energy and food sector.

The MSc is delivered by experienced industry professionals who bring significant practical experience to the course – and the University’s complete suite of engineering facilities and world-class research experience are set up for development and engineering of advanced systems, testing a variety of processes, designs and software tools.

*Recent figures indicate that 1.1 billion people worldwide do not have access to clean drinking water, while 2.6 billion do not have adequate sanitation (source: WHO/UNICEF 2005). 

Course Content

The primary aim of this programme is to create master’s degree graduates with qualities and transferable skills for demanding employment in the water engineering sector. Graduates will have the independent learning ability required for continuing professional development and acquiring new skills at the highest level.

Specific aims are as follows:

- To provide education at postgraduate level in civil engineering. 
- To develop the versatility and depth to deal with new, complex and unusual challenges across a range of water engineering issues, drawing on an understanding of all aspects of water engineering principles. 
- To develop imagination, initiative and creativity to enable graduates to follow a successful engineering career with national and international companies and organisations. 
- To provide a pathway that will prepare graduates for successful careers including, where appropriate, progression to Chartered Engineer status.

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

Knowledge and understanding of:

- The principles of water engineering, including fluid mechanics, hydrology, and sustainable design. 
- Specialist areas that impact on the successful application of water engineering knowledge projects, e.g. sustainable construction management, financial management and risk analysis. 
- The interplay between engineering and sustainability in complex, real-world situations.

At the cognitive level students will be able to:

- Select, use and evaluate appropriate investigative techniques.
- Assemble and critically analyse relevant primary and secondary data.
- Recognise and assess the problems and critically evaluate solutions to challenges in managing water engineering projects.
- Evaluate the environmental and financial sustainability of current and potential civil engineering activities.

Personal and transferable skills that students develop will allow them to:

- Define and organise a substantial advanced investigation. 
- Select and employ appropriate advanced research methods. 
- Organise technical information into a concise, coherent document.
- Effectively employ a variety of communication styles aimed at different audiences. 
- Plan, manage, evaluate and orally-presented personal projects. 
- Work as part of, and lead, a team.

Typical Modules

Each taught module will count for 15 credits, approximating to 150 learning hours. The Master's programme can be taken full time, over 12 months. The first eight months of the full time course will eight taught modules. For the final four months, students will complete a dissertation counting for 60 credits. Modules cover:

Sustainable Project Management
GIS and Data Analysis
Water Infrastructure Engineering
Risk and Financial Management
Hydrology & Hydraulics
Water Treatment Engineering
Water Process Engineering
Research Methods
Civil Engineering Dissertation

Teaching

Our philosophy is to underpin theoretical aspects of the subject with hands-on experience in applying water engineering techniques. Although you may move on to project management and supervision roles, we feel it important that your knowledge is firmly based on an understanding of how things are done. To this end, industrial partners will provide guest lectures on specialist topics.

In addition to teaching, water engineering staff at Brunel are active researchers. This keeps us at the cutting edge of developments and, we hope, allows us to pass on our enthusiasm for the subject.

How many hours of study are involved?

Contact between students and academic staff is relatively high at around 20 hours per week to assist you in adjusting to university life. As the course progresses the number of contact hours is steadily reduced as you undertake more project-based work.

How will I be taught?

Lectures:
These provide a broad overview of the main concepts and ideas you need to understand and give you a framework on which to expand your knowledge by private study.
Laboratories:
Practicals are generally two- or three-hour sessions in which you can practise your observational and analytical skills, and develop a deeper understanding of theoretical concepts.
Design Studios:
In a studio you will work on individual and group projects with guidance from members of staff. You may be required to produce a design or develop a solution to an engineering problem. These sessions allow you to develop your intellectual ability and practice your teamwork skills.
Site visits:
Learning from real-world examples in an important part of the course. You will visit sites featuring a range of water engineering approaches and asked to evaluate what you see.
One-to-one:
On registration for the course you will be allocated a personal tutor who will be available to provide academic and pastoral support during your time at university. You will get one-to-one supervision on all project work.

Assessment

Several methods of assessment are employed on the course. There are written examinations and coursework. You will undertake projects, assignments, essays, laboratory work and short tests.

Project work is commonplace and is usually completed in groups to imitate the everyday experience in an engineering firm, where specialists must pool their talents to design a solution to a problem.

In this situation you can develop your management and leadership skills and ensure that all members of the group deliver their best. Group members share the mark gained, so it is up to each individual to get the most out of everyone else.

Special Features

Extensive facilities
Students can make the most of laboratory facilities which are extensive, modern and well equipped. We have recently made a major investment in our Joseph Bazalgette Laboratories which includes hydraulic testing laboratory equipment and facilities such as our open channel flow flumes.

Personal tutors
Although we recruit a large number of highly qualified students to our undergraduate, postgraduate and research degrees each year, we don’t forget that you are an individual. From the beginning of your time here, you are allocated a personal tutor who will guide you through academic and pastoral issues.

World-class research
The College is 'research intensive' – most of our academics are actively involved in cutting-edge research. Much of this research is undertaken with collaborators outside the University, including construction companies, water utilities, and other leading industrial firms. We work with universities in China, Poland, Egypt, Turkey, Italy, Denmark and Japan. This research is fed directly into our courses, providing a challenging investigative culture and ensuring that you are exposed to up-to-date and relevant material throughout your time at Brunel.

Strong industry links
We have excellent links with business and industry in the UK and overseas. This means:
Your degree is designed to meet the needs of industry and the marketplace.
The latest developments in the commercial world feed into your course.
You have greater choice and quality of professional placements.
We have more contacts to help you find a job when you graduate.

Visting Professors 
The Royal Academy of Engineering - UK’s national academy for engineering has appointed senior industrial engineers as visiting professors at Brunel University London.
The Visting Professors Scheme provides financial support for experienced industrial engineers to deliver face-to-face teaching and mentoring at a host of institutions. Our engineering undergraduates will benefit from an enhanced understanding of the role of engineering and the way it is practised, along with its challenges and demands. 

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

This course has been designed in close consultation with the industry and is accredited as a designated 'technical' MSc degree by the Join Board of Moderators (JBM). The JBM is made up of Institution of Highways and Transport and the Institution of Highway Engineeres respectively.

1. This means this course provides Further Learning for a Chartered Engineer who holds a CEng accredited first degree (full JBM listing of accredited degrees).
2. As a designated ‘technical’ MSc, it will also allow suitable holders of an IEng accredited first degree to meet the educational base for a Chartered Engineer.

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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. Water, waste and environmental engineering has been traditionally referred to as public health engineering in the United Kingdom. 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
  • Geo-derived primary resources and their sustainable management.

Outcomes

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
  • Provide you with the skills to further your careers in these areas
  • 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.

Full time

Year 1

Students are required to study the following compulsory courses.

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

Part time

Year 1

Students are required to study the following compulsory courses.

Year 2

Students are required to study the following compulsory courses.

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

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.

Careers

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).



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Water management systems are fundamental to society. Through the supply of clean drinking water, the treatment of waste water, as well as flood and coastal protection, high-quality water management can have an enormous social and ecological impact. Read more

Water management systems are fundamental to society. Through the supply of clean drinking water, the treatment of waste water, as well as flood and coastal protection, high-quality water management can have an enormous social and ecological impact. Significant resources are invested all over the globe to ensure that complex water systems meet the levels of service and performance required by increasing economic and environmental pressures, whilst minimizing financial and social costs. The constant development, operation and management of these systems requires highly trained experts with knowledge and practical skills that cover science, engineering and management disciplines.

The M.Sc. Management and Engineering in Water (MME-Water) program provides the educational basis and professional foundation for water specialists that stand out for their ability to integrate scientific principles, engineering knowledge and management techniques for innovative problem-solving.

Our Engineering graduates of all programs...

  • work at companies such as Anvis, BASF, Continental, Fiat, Ford, Kautex, Liebherr, Rolls Royce, Toyota and Volkswagen
  • are very successful on the job market: half of our graduates find employment within a month of graduating and two thirds within three months
  • increase their salary by more than 50% (about 40 %)

As a graduate of the MME-Water program you are qualified to work in, among others:

  • drinking water purification (for example, for municipal or commercial water utilities)
  • wastewater treatment (for example, sewage treatment plants)
  • water resource management (including groundwater, floods, base flow, land and waterway restoration)
  • water and energy industry (for example, energy production from sewage water or sludge or hydropower)
  • process and facility engineering
  • international cooperation and developmental aid (water re-use, emergency management)
  • digitalization in water management (data processing, big data, modelling)

An expert in water resources is someone who...

  • Develops sustainable coast and river protection systems cost-efficiently
  • Unifies the ecological and economical approaches to natural water resources
  • Develops sustainable waste water treatment systems and provides high-quality drinking water
  • Consults municipal water companies in developing investment strategies to improve their water management systems
  • Combines the technical demands of an urban water supply with the preservation of ecological systems
  • Consults the government in water conservation strategies and sustainable water cycle management

... to make a difference. Is this you?

The program Master of Science Management and Engineering in Water combines the wide range of applied science, engineering and management disciplines required in water management.



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You can access six study streams on this Masters programme. Bridge Engineering. Construction Management. Geotechnical Engineering. Read more

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.

Example module listing

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

Bridge Engineering Group Modules

Geotechnical Engineering Group Modules

Construction Management Group Modules

Infrastructure Engineering Group Modules

Water and Environmental Engineering Group Modules

Dissertation

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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This MSc attracts UK and overseas graduates who wish to take advantage of the considerable global interest in water, wastewater, sanitation and waste to develop their careers. Read more

This MSc attracts UK and overseas graduates who wish to take advantage of the considerable global interest in water, wastewater, sanitation and waste to develop their careers.

Many graduates from the programme go on to work for consultancies, water utilities, contractors, relief agencies, regulatory bodies and international organisations.

Graduates from the programme also have the potential to progress to relevant specialist PhD or EngD research programmes in the field.

In the past, scholarship students have been accepted from a range of schemes, including: Foreign Office and British Council Chevening, World Bank, Commonwealth, Thames Water, Commonwealth Shared Scholarships, and the Royal Academy of Engineering, together with students from numerous overseas national schemes.

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 dissertation project.

Example module listing

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.

Modes of study

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).

Distance learning

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. Download our distance learning PDF to learn more.

Facilities and resources

Laboratories and pilot plants

In recent years, CEHE has benefited from investment in new equipment in both the small centre facility, which primarily supports fieldwork, and a larger, more extensively equipped microbiology and chemistry laboratory.

The laboratories are equipped with recently acquired state-of- the-art analytical equipment including ICP-OES, GC/MS, TOC, Ion Chromatograph, Particle Counter, water quality loggers, Delagua kits and so on, available for fieldwork.

A water and wastewater research pilot plant is located at Thames Water’s Shalford and Godalming Water Treatment Works, just a few kilometres away from the University campus. Over the years, many MSc dissertation projects have been completed at this facility, most of them to assist in the development or testing of relief agency systems.

A parallel wastewater research pilot plant has recently been established, again with the support of Thames Water, at Godalming Sewage Treatment Works.

Library facilities

The University library is currently resourced for books, journals and electronic resources, as the postgraduate programme in Water and Environmental Engineering has been well established over the last decade.

The programme draws on science, engineering and other areas of knowledge, and the overall diversity of academic groups within the University ensures that there are library resources to answer most needs.

The provision of British Standards online has reduced the copyright requirements and the quantity of photocopying required. Passwords are available from the library web pages for all other electronic resources.

CEHE resource centre

Provision is made within CEHE to access a limited range of textbooks, previously completed MSc dissertations, a selected range of journals and software mounted on PCs in the Catchment Modelling Laboratory or available on CD.

Professional Institution resources

Library and learning resources are available at the Institution of Civil Engineers, the Chartered Institution of Water and Environmental Management and other appropriate professional bodies.

All categories of members of the professional institutions are allowed to borrow books from the institution libraries by post, and in some cases to access other services online.

Computing

There are suitable computing facilities available both within the Faculty of Engineering and Physical Sciences and through central university facilities.

Teaching rooms

Teaching is primarily in flat floor teaching rooms, although there are occasions when formal lecture theatre facilities are used. All of the usual academic support materials and systems are available and pre-printed notes are distributed during every lecture.

Educational aims of the programme

The programme aims to provide graduates with:

  • A comprehensive and robust understanding of key areas of water and environmental engineering 
  • Skills that will enable students to explore, critically assess and evaluate problems and produce systematic and coherent solutions integrating core engineering science with practical applications both independently and within a team structure
  • An understanding of how this knowledge can be articulated around sustainable development practices
  • A sound base for enhanced communication skills both oral and written
  • A pathway that will prepare graduates for successful careers in the field including, where appropriate, progression to Chartered Engineer status

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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A country's physical land resources are a fundamental pillar of support for human life and welfare. Read more
A country's physical land resources are a fundamental pillar of support for human life and welfare. Worldwide, population pressures and severe degradation, pollution and desertification problems are threatening this - for several countries relatively scarce - natural resource, and cause competition between agricultural or industrial purposes, urban planning and nature conservation. To guarantee a proper use and management of this for a nation basic commodity, well trained specialists with a thorough knowledge of the properties and characteristics of this natural resource, and a solid insight in factors and measures that may alter its actual state and value are warranted and call for a high standard scientific and practical education.

The main subject in Land Resources Engineering offers training in non-agricultural use and application of soil, and includes geotechnical aspects (use of soil as a building material or for foundations, slope stability and stability of excavations), the role of soil- and groundwater for water management and supply, soil management in relation to environment and land use (erosion, sediment transport, coastal development and protection).

Structure

The Master of Science degree programme in Physical Land Resources is a two year, full time course. The first year provides a fundamental basis in physical land resources, with a main subject in either Soil Science or Land Resources Engineering. The second year offers specialised courses in one of the two main subjects. The students have to prepare a master dissertation in the second year. Successful completion of the programme leads to the award of an Master of Science degree in Physical Land Resources. The course curriculum of the first year, and of the main subject in soil science of the second year is organised at the Ghent University, whereas all courses of the main subject in Land Resources Engineering of the second year are lectured at "Vrije Universiteit Brussel".

The academic year starts the last week of September. However students are advised to arrive in Ghent in the first week of September to follow the preparatory summer course.

Teaching methods
A wide variety of teaching methods are used in the PLR programme. All course units, except for “Internship” and “Master Dissertation” include lectures. Lectures are fundamental to provide students with the necessary basic knowledge in order to acquire the requested competences. Besides lectures the following teaching methods are very frequently used: practical classes, PC-room classes and coached exercises. Teaching methods like guided self-study, group work and microteaching are occasionally used. Field work and excursions are naturally an important component of the Physical Land Resources programme, especially in the first year.

Learning outcomes

The Master of Science in Physical Land Resources is organized at both UGent and VUB and aims to contribute to an increased knowledge in Physical Land Resources both in terms of quantity (more experts with a broad knowledge) and of quality (knowledge and its use at an advanced scientific level). The incoming students have diverse backgrounds in geology-related sciences, civil engineering or agronomy and the large majority of students originate from developing countries.
-Possesses a broad knowledge at an advanced level in basic disciplines (soil physics, soil chemistry, soil mineralogy, meteorology and climatology) that provide a polyvalent scientific understandinga. needed to evaluate land potential for agricultural and environmental applications, understand the evolution of soils under natural and human-impacted conditions, and contribute to sustainable land use planning and integrated management of land and water (Soil Science); or in non-agricultural applications of land, such as geotechnical aspects, the role of soil and groundwater in water resources management and water supplies, and of land management in relation to other environmental and land use aspects (Land Resources Engineering).
-Possesses the basics to conduct field work (soil survey, soil profile description, soil sampling), interpret analytical data, classify the soil, and manage and interpret existing cartographic and remote sensing data using modern equipment, informatics and computer technology.
-Characterize soil physico-chemically and mineralogically with advanced techniques to understand soil processes, translate this to soil quality and assess the influences by and on natural and anthropogenic factors.
-Recognize interaction with other relevant science domains and identify the need to integrate them within the context of more advanced ideas and practical applications and problem solving.
-Demonstrate critical consideration of and reflection on known and new theories, models or interpretation within the specialty.
-Plan and execute target orientated experiments or simulations independently and critically evaluate the collected data.
-Develop and execute original scientific research and/or apply innovative ideas within research units.
-Formulate hypotheses, use or design experiments to test these hypotheses, report on the results, both written and orally, and communicate findings to experts and the general public.

Other admission requirements

The applicant must be proficient in the language of the course or training programme, i.e. English. The English language proficiency can be met by providing a certificate (validity of 5 years) of one of the following tests: (TOEFL/IELTS predictive tests and TOEIC will not be accepted)
-TOEFL IBT 80.
-TOEFL PBT 550.
-ACADEMIC IELTS 6,5 overall score with a min. of 6 for writing.
-CEFR B2 Issued by a European university language centre.
-ESOL CAMBRIDGE English CAE (Advanced).

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Water and Environmental Management aims to provide students with a multi-disciplinary understanding of water resources and environmental issues through the development of knowledge and skills necessary for the planning and management of these resources to meet the needs of society and the environment within the context of climate change. Read more
Water and Environmental Management aims to provide students with a multi-disciplinary understanding of water resources and environmental issues through the development of knowledge and skills necessary for the planning and management of these resources to meet the needs of society and the environment within the context of climate change.

About the programme

On-campus (full-time/part-time) students study eight courses from a range of optional courses. Independent Distance Learning (IDL) students can also choose courses from a range of options in both Semester 1 and 2.

The programme is delivered by experts in the field of water and environmental management, covering a wide range of relevant disciplines.

Topics covered:
=============
• Environmental Hydrology and Water Resources
• Computational Simulation of River Flows
• Water Supply and Drainage for Buildings
• Water Conservation
• Environmental Geotechnics
• Urban Drainage and Water Supply
• Water and Wastewater Treatment
• Marine Waste Water Disposal
• Environmental Statistics
• Innovative Technologies and Global Water Challenges
• Environmental Planning (on-campus only);
• Flood Inundation Modelling (on-campus only);
• Irrigation Water Management.

Career opportunities

Training is provided in water resources engineering, environmental engineering, flood risk management, integrated water resources management, environmental implications of water engineering schemes, and industrial software packages. On completion, graduates will be able to offer employers a broad range of skills and advanced knowledge in a number of important areas of water engineering.

Primary employment destinations include:
- Leading UK and international consultants (e.g. Jacobs, HR Wallingford, JBA, Halcrow, Hyder Consulting and Fairhursts)
- Local and National Government (in the UK and elsewhere)
- Environmental regulators (e.g. SEPA & EA)
- Academic institutions (including PhD study and research associate posts)
- Non-Governmental Organisations

Professional recognition

This MSc 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. See http://www.jbm.org.uk for further information.

Part-time and Distance Learning study options

This programme can be studied full-time, part-time or via Independent Distance Learning (IDL), ideal for those in employment or with other commitments, providing flexible study options that fit around work or family. As an IDL student you will not be required to attend any lectures, tutorials or other events at any of Heriot-Watt University’s campuses.

Industry Links

Where possible MSc dissertation projects are set up in collaboration with industry, the aim being to encourage contact between the student and industry, and to underpin the industrial relevance of the projects.

This programme is supported by the Civil Engineering Industry Advisory Committee, which includes representatives from major multi-national employers AECOM, ARUP, Balfour Beatty, Halcrow, Jacobsand WSP Group. This committee convenes regularly and advises on the programme content and structure, ensuring quality, up-to-date content and relevance to industry needs.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.5 or equivalent.

We offer a range of English language courses: http://www.hw.ac.uk/study/english.htm

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This programme is ideal for engineers and scientists who want to improve the delivery of water and sanitation services in low- and middle-income countries. Read more

This programme is ideal for engineers and scientists who want to improve the delivery of water and sanitation services in low- and middle-income countries. You will develop knowledge, expertise and skills in many aspects of inclusive and sustainable public health infrastructure and services.

The programme is based in the School of Civil and Building Engineering’s Water, Engineering and Development Centre (WEDC), one of the world’s leading education and research institutes of its kind.

Externally accredited, WEDC programmes are well-established, and held in high regard by practitioners and employers from both the emergency and development sectors.

Key Facts

- Research-led teaching from international experts. 75% of the School’s research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework.

- An outstanding place to study. The School of Architecture, Building and Civil Engineering is ranked 1st in the UK for Building in the Times Good University Guide 2018. 

- Excellent graduate prospects. Many of our graduates are employed by relief and development agencies.

- Professionally accredited. The Chartered Institution of Water and Environmental Management (CIWEM) have accredited this programme. Students registered for this programme are eligible for free student membership of CIWEM. The Joint Board of Moderators (JBM) has also accredited all WEDC MSc degrees as meeting requirements for Further Learning.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/water-waste/

Programme modules

Core modules:

- Water and Waste Engineering Principles

- Management of Water and Sanitation

- Water Utilities Management

- Data Collection, Analysis and Research

- Group Project

- Research Dissertation

Optional Modules (choose 3):

- Water Source Development

- Wastewater Treatment

- Integrated Water Resources Management

- Solid Waste Management

- Water Distribution and Drainage Systems

- Short Project

Facilities

All masters students have access to our excellent laboratory facilities which include equipment for field sampling and analysis of water and wastewater, and some of the largest hydraulics equipment in the UK. There are three dedicated water laboratory staff available to help you use our equipment who are specialists in pollutant analysis, hydraulics and running continuous trials.

Practical training includes:

- Hand-pump maintenance using the largest single site collection of hand-pumps;

- latrine slab construction;

- flow measurements; and

- water quality sampling and analysis.

Field visits are made to relevant UK facilities.

WEDC has a unique sector Resource Centre with a dedicated and skilled information officer. Over 19,000 items can be searched on a customized database allowing ready access to this collection of books, series, country files, student projects, videos, journals, maps, and manufacturers' catalogues.

The Resource Centre also provides a dedicated quiet study space for WEDC students. Many items including all WEDC publications and over 2500 papers presented at 37 WEDC International Conferences are available in the open access sector knowledge base.

How you will learn

The programme comprises both compulsory core modules and optional modules which may be selected. A group case study module draws together material from across the programme and develops team working skills. The individual research project and dissertation (frequently linked to specific needs of an agency) of between 75 and 150 pages in length concludes the programme. To support your learning you will have access to our comprehensive facilities including laboratories, hand-pumps, and a dedicated Resource Centre.

Scholarships / Bursaries

Bursaries are available for self-funding international students.

The University also offers over 100 scholarships each year to new self-financing full-time international students who are permanently resident in a county 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 one of these scholarships once you have received an offer for a place on this programme.

Why choose civil engineering at Loughborough?

As one of four Royal Academy of Engineering designated Centres of Excellence in Sustainable Building Design, the School of Civil and Building Engineering is one of the largest of its type in the UK and holds together a thriving community of over 60 academic staff, 40 technical and clerical support staff and over 240 active researchers that include Fellows, Associates, Assistants, Engineers and Doctoral Students.

Our world-class teaching and research are integrated to support the technical and commercial needs of both industry and society. A key part of our ethos is our extensive links with industry resulting in our graduates being extremely sought after by industry and commerce world-wide,

- Postgraduate programmes

The School offers a focussed suite of post graduate programmes aligned to meet the needs of industry and fully accredited by the relevant professional institutions. Consequently, our record of graduate employment is second to none. Our programmes also have a long track record of delivering high quality, research-led education. Indeed, some of our programmes have been responding to the needs of industry and producing high quality graduates for over 40 years.

Currently, our suite of Masters programmes seeks to draw upon our cutting edge research and broad base knowledge of within the areas of contemporary construction management, project management, infrastructure management, building engineering, building modelling, building energy demand and waste and water engineering. The programmes are designed to respond to contemporary issues in the field such as sustainable construction, low carbon building, low energy services, project complexity, socio-technical systems and socio-economic concerns.

- Research

Drawing from our excellent record in attracting research funds (currently standing at over £19M), the focal point of the School is innovative, industry-relevant research. This continues to nurture and refresh our long history of working closely with industrial partners on novel collaborative research and informs our ongoing innovative teaching and extensive enterprise activities. This is further complemented by our outstanding record of doctoral supervision which has provided, on average, a PhD graduate from the School every two weeks.

- Career Prospects

Independent surveys continue to show that industry has the highest regard for our graduates. Over 90% were in employment and/or further study six months after graduating. Recent independent surveys of major employers have also consistently rated the School at the top nationally for civil engineering and construction graduates.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/water-waste/



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Chemical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Chemical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

From authoring definitive text books on chemical engineering to finding solutions to the world's water shortages, Swansea University has a proud tradition of delivering pioneering innovative process engineering solutions. As we have a wide range of research in chemical engineering, Swansea University provides an excellent base for your research as an MSc by Research student in Chemical Engineering.

Key Features of MSc by Research in Chemical Engineering

There is a wide range of research in chemical engineering at Swansea University. This includes:

Membrane separation

Biochemical engineering

Biomanufacturing

Engineering applications of nanotechnology

Bioengineering, biomedical engineering

Cell and tissue engineering

Colloid science and engineering

Desalination

Pharmaceutical engineering

Polymer engineering

Rheology

Separation processes

Transport processes

Water and wastewater engineering

The MSc by Research in Chemical Engineering at Swansea University provides an opportunity to work with a member of academic staff in one of the above, or related, area of research.

The MSc by Research in Chemical Engineering typically lasts one year full-time, two to three years part-time. This is an individual research project written up in a thesis of 30,000 words.

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

Facilities

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

Swansea University has resources specific to Chemical Engineering.

Research

Research in Chemical Engineering at Swansea is located within the Systems and Process Engineering Research Centre which has a number of focused research groups including the Centre for Water Advanced Technologies and Environmental Research (CWATER), the Centre for Complex Fluids Processing and the Multidisciplinary Nanotechnology Centre.

The Centre for Water Advanced Technologies and Environmental Research (CWATER) is an internationally leading centre of excellence for the development of advanced technologies in water treatment. The Centre benefits from world-leading expertise in the areas of desalination and membrane technologies for water treatment.

The Centre for Complex Fluids Processing is internationally recognised for its leading and innovative research on the processing of complex fluids which is a major feature of modern industry. Such fluids are extremely diverse in origin and composition - ranging, for example, from fermentation broths and food products to inks and mineral slurries. However, underlying this diversity are certain properties that must be understood if the processing is to be effective and efficient. These include flow behaviour in process equipment, how the components of the fluid determine its overall properties and how individual components may be selectively separated.

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.



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Around the world, the quality and quantity of water in streams, rivers, lakes, wetlands and underground is significantly affected by human activity. Read more

Around the world, the quality and quantity of water in streams, rivers, lakes, wetlands and underground is significantly affected by human activity. At Cranfield University, we capitalise on our industry connections to provide students with the up-to-date skills and knowledge needed to tackle these challenges in a career in today’s environmental water management sector.

Who is it for?

The course is ideal for graduates wishing to develop the expertise needed to solve environmental water management problems. It is designed to complement and expand your existing knowledge of science, policy and practice, making it suitable for students from a range of backgrounds. Recent students have joined us from undergraduate and postgraduate degrees in engineering (civil, hydraulic, agricultural), physical geography, chemistry and environmental sciences, as well as from professional careers.

Our strong industry links make the course particularly suited for those looking to work in the water industry, government or environmental and engineering consultancy, and in a wide range of roles including water quality, water resources, aquatic habitat and wildlife, flood defence, and policy.

The option to undertake the course on a part-time basis allows you to extend your professional development within your current employment.

Why this course?

At the UK’s only exclusively postgraduate university, students get the unique experience to work with researchers whose primary purpose is to understand the needs of their sector. Therefore all components of the Environmental Water Management course are designed with the same end goal in mind: to produce the best graduates for jobs in water resources, hydrology, water quality, habitat conservation and creation, and flood risk management.

To do this, you will first reinforce your knowledge of topics and methods in eight core areas (hydrology, ecology, water quality, modelling, drought, flood risk, urban water, and catchment management). You then integrate this learning and apply it to a real-world problem in the group project. Over a 10-week period, you will work in a team of 6-8 students from a range of MSc courses on a consultancy project, handling all stages of project design and delivery from initial meetings to scope out the work to the final report and presentation. Topics vary yearly as they respond to the needs of our industrial partners, put typically relate to water resources, aquatic ecology and flood risk management. Finally, you will delve into a single topic for your individual thesis project, strengthening your skills in project design and management; data collection, analysis and interpretation; and report writing, all of which are essential for your future career.

By completing this course, you will become part of a long line (>30 years) of environmental water management alumni who can now be found across the entire water sector, from entry-level scientists to senior managers and regulators, in the UK, Europe and beyond.

Informed by Industry

Our courses are designed to meet the training needs of industry and have a strong input from experts in their sector. Industrial involvement comes in the form of sponsored group and thesis projects, and oversight from an Industrial Advisory Panel.

Sponsored projects stem from the active research and consultancy work of the Cranfield Water Science Institute, a leader in water research, whose researchers have expertise in water and wastewater treatment, water supply and irrigation, flood risk management, and water policy and economics.

The Industrial Advisory Panel performs an essential role in course review and the proposition of new content. As it is composed of members from consultancy, government, industry and charitable sectors, the panel ensures that Cranfield graduates have the knowledge and skills to be immediately employable. 

Accreditation

This MSc, PgDip and PgCert has been accredited by the Chartered Institution of Water and Environmental Management (CIWEM). As a graduate of the MSc course, you are eligible for graduate membership in this leading professional body.

Course details

The course comprises eight assessed modules, a group project and an individual project.

Group project

A unique component of a Cranfield University taught MSc is the group project. Group projects are usually sponsored by industry partners and provide students with experience of working on real challenges in the workplace along with skills in team working, managing resources and developing reporting and presentation skills. Experience gained is highly valued by both students and prospective employers.

Interested? Find out more about the past group projects.

Individual project

The individual project provides students with the opportunity to demonstrate their ability to carry out independent research, think and work in an original way, contribute to knowledge, and overcome genuine problems. Students have the choice to work on projects sponsored by industry or related to current Research Council, EU or industry funded research. 

Assessment

Taught modules 40%, Group project 20%, Individual project 40%

Your career

Cranfield University environmental water management graduates are found all over the UK, EU and world working at all levels of the water industry, government, environmental and engineering consultancy, and charitable sector. Therefore you will join a large and supportable alumni network.



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Advance your career with a master’s degree in civil engineering. Our convenient evening classes provide the flexibility your schedule demands. Read more
Advance your career with a master’s degree in civil engineering. Our convenient evening classes provide the flexibility your schedule demands.

MSOE’s Master of Science in Civil Engineering (MSCVE) program is designed to equip students with the advanced knowledge 
and skills necessary for professional practice. The MSCVE program was designed to address the new civil engineering Body of Knowledge requirements for graduate programs developed by the American Society of Civil Engineers. Students will be able to specialize in one of the following three areas: (1) construction management, (2) environmental and water resources engineering, and (3) structural engineering.

Completion of the MSCVE program satisfies the proposed educational requirement promulgated by the National Council of Examiners for Engineering and Surveying calling for a minimum of a master’s degree or equivalent as a prerequisite for professional engineering licensure.

MSOE’s MSCVE program is tailored to the student who already has an undergraduate degree from an ABET-accredited civil engineering program. Students who do not have an ABET-accredited undergraduate degree in civil engineering may have to take additional prerequisite courses as specified by the Program Director. These additional prerequisite courses will be chosen by the MSCVE Program Director based on the student’s academic background to help ensure that the student is equipped to be successful in civil engineering graduate studies at MSOE.

Curriculum Format

The MSCVE program requires completion of 45 graduate credits. At least 36 of these credits shall be taken from courses within the student’s chosen specialty; up to 9 credits may be taken from courses within other civil engineering specialty areas or from courses offered by other departments.

During the last year of the student’s graduate studies, the student must complete either (a) a nine-credit, three-quarter Capstone Project consisting of CV-800, CV-890, and CV-892, or (b) a three-credit, one-quarter Capstone Report consisting of CV-800 only. The former is appropriate for students wishing to conduct graduate-level research for personal enrichment or as preparation for subsequent graduate studies; the latter is appropriate for students who wish to take additional coursework in preparation for professional civil engineering practice.

Objectives and Outcomes

Program Educational Objectives

- Formulate and solve ill-defined engineering or construction problems appropriate to civil engineering.
- Conduct a literature review in a specialized technical area appropriate to civil engineering.
- Analyze and/or design a complex system or process in a specialized technical area appropriate to civil engineering.

Student Outcomes

Graduate of the MSCVE program will:
- be able to evaluate complex systems or processes within realistic constraints such as customary standards of practice, costs, and sustainability.
- be able to choose to pursue registration as a professional engineer or certification as a professional construction manager will, after attaining the required years of work experience stipulated by the relevant licensing board, achieve that distinction.
- pursue opportunities to advance their technical and professional skills through lifelong learning.
- be able to obtain a Ph.D. in their area of civil engineering specialization, if desired.

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

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.

Example module listing

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

Structural Engineering Group Modules

Geotechnical Engineering Group Modules

Construction Management Group Modules

Infrastructure Engineering and Management Group Modules

Water and Environmental Engineering Group Modules

Dissertation

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

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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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Desalination and Water Re-use at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Desalination and Water Re-use at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Swansea University is a world-leader in the area of desalination for water treatment.

Key Features of Desalination and Water Re-use Programme

Pressure is increasing on our limited water resources. With more people requiring clean water, effective solutions need to come from reusing water in the most efficient way.

The Centre for Water Advanced Technologies and Environmental Research (CWATER) is an internationally leading centre of excellence for the development of advanced technologies in water treatment.

The Centre benefits from world-leading expertise in the area of desalination for water treatment.

The Centre for Water Advanced Technologies and Environmental Research (CWATER) research areas, broadly speaking, fit into one of three categories:

- Drinking water treatment: improved methods of portable water treatment, with a view to meeting tightening regulations at cheaper capital and operating costs.

- Waste-water treatment: technologies for the efficient removal of environmentally harmful materials and thus reduced emissions per output of discharge.

- Process-water treatment: methods for the treatment of process streams enabling the recycling of water and valuable chemical intermediates.

The MSc by Research Desalination and Water Re-use has a wide range of subject choices including:

- Modelling membrane processes

- Membrane and process characterisation

- Hazardous substances

- Ozonation and Advanced Oxidation Processes (AOPs)

- Pilot scale studies

MSc by Research in Desalination and Water Re-us typically lasts one year full-time, two to three years part-time. This is an individual research project written up in a thesis of 30,000 words.

Facilities

The new home of the Desalination and Water Re-use programme is at the innovative Bay Campus which provides some of the best university facilities in the UK, in an outstanding location.

The Desalination and Water Re-use programme also benefits from the facilities at the Centre for Water Advanced Technologies and Environmental Research (CWATER) at Swansea University.

Links with industry

One of the major strengths of Desalination and Water Re-use at Swansea University is the close and extensive involvement with local, national and international engineering companies. The Desalination and Water Re-use programme has links with the following companies:

Acordis

Astra Zeneca

Avecia

BP Chemicals

Bulmers

Dow Corning

GlaxoSmithKline

Nestle

Murco

Phillips 66

Unilever

Valero

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.

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.

Highlights of the Engineering results according to the General Engineering Unit of Assessment:

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

Research Power (3*/4* Equivalent staff) ranked 10th in the UK



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