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Masters Degrees (Cost Engineer)

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This postgraduate course has been specifically developed to enable students to professionally enhance their commercial skills. The course has been developed in close collaboration with industry and includes a contemporary industry perspective from sector experts from all parts of the supply chain. Read more
This postgraduate course has been specifically developed to enable students to professionally enhance their commercial skills. The course has been developed in close collaboration with industry and includes a contemporary industry perspective from sector experts from all parts of the supply chain.

The course will allow you to gain a professionally accredited qualification and develop the demonstrable core commercial competencies much in demand by the oil, gas, renewables and decommissioning industries.

Visit the website: http://www.rgu.ac.uk/architecture-construction-and-surveying/study-options/part-time-learning/commercial-practice-for-the-energy-sector

Course detail

Building on our expertise in providing surveying, commercial and project management education, the course has been designed to meet the particular requirements of the energy sectors, in alignment with the Royal Institution of Chartered Surveyors (RICS) competency framework, namely:

•Commercial management
•Design economics
•Risk and supply chain management
•Contract practice
•Procurement and tendering practices
•Project financial control
•Project Management

Every module includes input and learning from industry experts so you will gain knowledge and skills which are directly applicable to the workplace. Individual modules can be studied on a stand-alone basis for CPD or personal development. Modules may also be delivered on a commercial bespoke basis for organisation learning and development.

Stage 1:

•Commercial Business Dynamics
•Core Business Skills
•Commercial Project Management
•Contractual Approaches to Procurement

Exit award: PgCert Commercial Practice for the Energy Sectors

Stage 2:

•Commercial Value Creation
•Contract Performance Management
•Risk Management & Supply Chain Vulnerability

Pick one elective module from:
•Corporate Governance and Value Assurance
•Advanced Supply Chain & Category Management

Exit award: PgDip Commercial Practice for the Energy Sectors

Stage 3:

•Dissertation

Award: MSc Commercial Practice for the Energy Sectors

Format

Our supported distance learning mode of delivery allows you to study online from any location and is designed to fit in around your work commitments. You will be taught and supported by experienced industry professionals who will recreate the same challenging interactive format of the on-campus courses for those studying at a distance.

Our virtual learning environment, CampusMoodle offers students flexibility of where and when they can study, offering full and open access to tutors and other class members. Students have the benefit of being part of a group of learners with the invaluable opportunity to participate in active, group-related learning within a supportive online community setting. The online campus provides students with lectures and course materials and it also includes:

•Virtual tutorials
•Live chat
•Discussion forums - student and tutor led
•Up-to-date web technology for delivery methods
•User friendly material
•Access to our online library

As online learners, students are part of a 'virtual cohort' and the communication and interaction amongst members of the cohort is a significant aspect of the learning process. If you would like to find out more about our online learning environment get in touch to access our pre-enrolment Campus Moodle area where you will be able to see how the system works and take a look at sample teaching materials.

Assessment

All our Modules on this MSc course are assessed entirely by coursework. The main assessment is normally by means of one significant piece of integrative coursework (which may include a combination of individual and group work) which would be submitted electronically via the Moodle Dropbox facility. This coursework will be graded in accordance with our procedures.

In addition to this significant piece of coursework, you will be asked to undertake a minimum of 2 activities or tests within the teaching programme which will be short concise submissions as determined by the Module tutors; these will be graded pass/fail but you must pass these short activities in order to be awarded the Module credits.

Placements and Accreditation

This course is accredited by the Chartered Institute of Building (CIOB). The course is also fully accredited by The Royal Institution of Chartered Surveyors. This will allow you, upon successful completion of the course, to enrol for the RICS Assessment of Professional Competence (APC), the final step to becoming a Chartered Surveyor.

Careers

Aberdeen is Europe's Energy Capital and our School has an excellent reputation for graduate employment.

Over the last two decades a large number of our surveying and project management graduates have found employment in the oil and gas industries in positions such as: Commercial Manager, Contracts Engineer, Surveyor, Cost Engineer, Project Manager, Contracts Manager, Estimator, Purchasing and Supply Chain Manager.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN. - Skills and know-how in the latest technologies in E & I oil and gas engineering. Read more
IN THIS INTENSIVE, PART-TIME, 18-MONTH ONLINE PROGRAM YOU WILL GAIN:

- Skills and know-how in the latest technologies in E & I oil and gas engineering
- Tremendous boost to your E & I oil and gas career – no matter whether you are a new graduate or a technician
- Decades of real experience distilled into the course presentations and materials
- Guidance from real E & I oil and gas experts in the field
- Hands-on practical knowledge from the extensive experience of instructors, rather than the theoretical information from books and colleges
- Credibility as the local expert in E & I oil and gas
- Networking contacts in the oil and gas industry
- Improved career prospects and income
- An Advanced Diploma in Electrical & Instrumentation Engineering for Oil and Gas

Next intake is scheduled for September 26, 2017. Applications are now open; places are limited.

INTRODUCTION

There is a growing shortage, and hence opportunity, for Electrical and Instrumentation (E & I) technicians, technologists and engineers in the oil and gas industry. This is due to an increasing need for higher technology methods of obtaining and processing oil and gas as it is a finite declining resource. The technical challenges of extracting oil and gas are becoming ever more demanding, with increasing emphasis on more marginal fields and previously inaccessible zones such as deep oceans, Polar regions, Falkland Islands and Greenland. The aim of this 18-month e-learning program is to provide you with core E & I engineering skills so that these opportunities may be accessed, to enhance your career, and to benefit your firm.

This advanced diploma is presented by lecturers who are highly experienced engineers from industry, having 'worked in the trenches' in the various E & I engineering areas. When doing any course today, a mix of both extensive experience and teaching prowess is essential. All our lecturers have been carefully selected and are seasoned professionals.

This advanced diploma course provides a practical treatment of electrical power systems and instrumentation within the oil, gas, petrochemical and offshore industries. Whilst there is some theory this is used in a practical context giving you the necessary tools to ensure that the Electrical and Instrumentation hardware is delivering the results intended. No matter whether you are a new electrical, instrumentation or control technician/technologist/graduate engineer or indeed, even a practicing facilities engineer, you will find this course beneficial in improving your understanding, skills and knowledge of the whole spectrum of activities ranging from basic E & I engineering to advanced practice including hazardous areas, data communications along with a vast array of E & I equipment utilized in an oil and gas environment.

WHO SHOULD COMPLETE THIS PROGRAM?

This program would be ideal for you if you are seeking to get know-how and expertise in the oil and gas business and are an:

- Instrument and process control technician or technologist
- Instrument fitter
- Chemical or mechanical engineer
- Electrical engineer currently working in a different area to oil and gas
- Experienced electrician
- A recent graduate electrical, instrumentation or mechanical engineer

Even if you are highly experienced you will find this a great way to become familiar with the oil and gas technology as quickly as possible.

COURSE CONTENT

The valuable oil and gas program has five main streams:

- Electrical engineering
- Instrumentation and Control engineering
- General Oil and Gas engineering
- Subsea Instrumentation and Control
- Floating Production, Storage and Offloading (FPSO) Facilities

COURSE FEES

EIT provides distance education to students located almost anywhere in the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. A full list of fees in a currency appropriate for every country would be complex to navigate and, with today’s exchange rate fluctuations, difficult to maintain. Instead we aim to give you a rapid response regarding fees that is customized to your individual circumstances.

We understand that cost is a major consideration before a student commences study. For a rapid reply to your query regarding courses fees and payment options, please query via the below button and we will respond within 2 business days.

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This course is one of a very few aimed at mid-career professionals wishing to make the move to senior management within industrial and manufacturing organisations. Read more

This course is one of a very few aimed at mid-career professionals wishing to make the move to senior management within industrial and manufacturing organisations.

We designed it to provide the business expertise essential for senior managers by combining specific engineering subjects with managing technology and manufacturing systems.

You examine the latest business thinking and gain expert knowledge of engineering and technology issues and theories.

We combine topics such as

  • finance
  • marketing
  • management strategy

with modern industrial issues such as

  • project and quality management
  • manufacturing effectiveness
  • advanced manufacturing technology
  • supply chain management.

This mix of subjects reflects the challenges faced by today’s traditional manufacturing organisations.

The course includes the SAP Production Planning e-academy (USCM4e). You also have the opportunity to sit the SAP certification at extra cost.

Sheffield Hallam University is a SAP Student Academy and a founding member of the SAP University Alliance.

Why study for an MBA?

The role of the engineer is changing and in an industrial company the engineer is likely to be the manager who has to implement new practices and technologies.

In this role you are likely to be the primary instigator of change in the organisation and for this you need specific skills and knowledge. It is important that you widen your knowledge and skills in management areas if you are to be and effective senior manager in a manufacturing industry.

This course complements your technical degree by completing your education in the wider areas of management that usually include subjects such as • finance • marketing • human resource management • lean operations • management strategy. It also enables you to progress quickly in your career – usually through fast track promotion into very senior management posts.

Professional recognition

This course is accredited by the Institution of Mechanical Engineers (IMechE) on behalf of the Engineering Council and will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng (Hons) accredited for CEng, will be able to show that they have satisfied the educational base for CEng registration. It should be noted that graduates from an accredited MSc programme, who do not also have an appropriately accredited Honours degree, will not be regarded as having the exemplifying qualifications for professional registration as a Chartered Engineer with the Engineering Council; and will need to have their first qualification individually assessed through the Individual Case Procedure if they wish to progress to CEng.

Course structure

Full time - September start - typically 12 or 18 months

Full time - January start - typically 12 or 18 months

Part time - September start - typically 36 months

Part time - January start - typically 36 months

Core modules

  • sustainability, energy and environmental management
  • finance and marketing
  • lean operations and six sigma
  • project and quality management
  • manufacturing systems
  • management of strategy, change and innovation
  • advanced manufacturing technology
  • global supply chain and manufacturing strategy

MBA

  • project and dissertation (60 credits)

Assessment

By final examination, coursework and project reports               

Employability

As an MBA graduate you will be well-versed in management knowledge, skills and techniques, as well as technical engineering abilities. Both your sponsoring company and you benefit from the knowledge you gain, both during and after the course.

An MBA gives you the confidence to apply your skills to develop strategies for growth for your employer, giving you a much sought after edge in your career progression.



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Renewable Energy Systems and the Environment is one of the pathways offered in the Sustainable Engineering programme. This course examines the design and operation of the energy systems that provide the environments in which people live and work. Read more

Why this course?

Renewable Energy Systems and the Environment is one of the pathways offered in the Sustainable Engineering programme.

This course examines the design and operation of the energy systems that provide the environments in which people live and work. It explores how quality of life can be balanced by the need for conservation of world resources.

You’ll learn about different energy resources:
- renewable
- fossil
- nuclear

You’ll look at the systems that are employed to control these resources such as:
- combined heat & power schemes
- heat pumps
- solar capture devices
- high efficiency condensing boilers
- advanced materials
- adaptive control systems

You’ll explore the impact energy has on the environment and how it can be reduced.

Our course has been running for over 20 years and has over 400 graduates. External examiners consistently refer to our beneficial links with industry and the high quality of our project work.

Study mode and duration:
- MSc:12 months full-time, up to 36 months part-time
- PgDip: 9 months full-time

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

You’ll study

Studying at least three generic modules will meet the key requirements to attain Chartered Engineer status.

You must take three specialist modules if you’re studying for the Postgraduate Certificate and up to five if you’re studying for a Postgraduate Diploma or MSc.

Successful completion of six modules leads to the award of a Postgraduate Certificate.

Major projects

- Group project
This usually involves four or five students working together. Each project focuses on a particular energy/environment system and includes a technical appraisal, and, where appropriate, an assessment of its cost effectiveness and environmental impact.
At the end of the project, students perform a presentation during the University’s Knowledge Exchange week to invited guests from industry. This event provides an important networking opportunity for students.

- Individual project
The individual project is an opportunity for students to work independently on an energy topic with a more in-depth analysis than the group project.

Accreditation

The course is approved by the Energy Institute, the Institution of Mechanical Engineers and the Royal Aeronautical Society and meets the academic requirements for Chartered Engineer (CEng) status.
Students are encouraged to take up free membership of these professional organisations.

Facilities

Students have access to departmental laboratories with a range of testing equipment. For example, a recent MSc project included the use of sophisticated thermal measurement of thermal storage materials undertaken in the Advanced Materials Research Laboratory.

Student competitions

Students can enter a number of competitions, which vary year-to-year. Recent examples include:
- District Heating and Cooling (DHC+) Student Competition
- Chartered Institution of Building Services Engineers Simulation Group Award for Best MSc Dissertation

- Guest lectures
Students are regularly invited to talks by research visitors from the Energy Systems Research Unit. Talks on career options are also given by representatives of the Energy Institute.

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 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 comprises compulsory technical modules, a choice of broader generic modules, which are recommended by accrediting professional bodies, group projects with industry input, and individual projects.

Teaching methods are varied, and include lectures, discussions, group work, informal reviews, on-line questionnaires, and computer modelling laboratories.

Assessment

Assessment of taught modules are by written assignments and exams. Group projects are assessed by project websites and presentations. Individual projects are assessed on the submitted thesis.

Careers

- Where are they now?
100% of our graduates are in work or further study.*

Job titles include:
- Artificial Intelligence Engineer
- Biomass Engineer
- Renewable Energy Consultant
- Renewable Energy Development Officer
- Technical Analyst

Employers include:
- Greenspan
- Mott Macdonald
- Natural Power
- SSE
- Scottish Power Energy Networks
- The Campbell Palmer Partnership
- RSP Consulting Engineers

*Based on the results of the national Destinations of Leavers from Higher Education Survey (2010/11 and 2011/12).

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

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The MSc in Petroleum Engineering programme aims at broadening, strengthening and integrating knowledge and understanding of the oil and gas industry processes. Read more
The MSc in Petroleum Engineering programme aims at broadening, strengthening and integrating knowledge and understanding of the oil and gas industry processes. You'll learn the mathematics, science, computer-based methods, design, and engineering practice to solve petroleum engineering problems of varying complexity, taking in consideration the economic, social and environmental context.

You'll gain a detailed knowledge of the integrated model of the oil reservoir, so that you'll be able to predict, maintain and improve oil and gas production processes. You'll benefit from the detailed instruction you receive on a suite of software packages that are used in the oil and gas industries to maximise cost effective production from the field, these include: PETREL, HYSYS, Eclipse, Prosper and GAP.

At the end of the programme you should have obtained a deep and broad knowledge of the integrated model of the oil reservoir in order to predict, improve, maintain and to innovate the processes of oil and gas production.

Modules

Petroleum geoscience
Petro physics
Reservior engineering and simulation
Drilling and production
Advanced reservoir engineering
Petroleum economics and oilfield management
Group project (summer period)
Dissertation (summer period)

Professional links

• This Masters course is accredited by the Energy Institute.

The Energy Institute (EI) is the professional body for the energy industry delivering good practice and professionalism across the depth and breadth of the sector.

• Society of Petroleum Engineers

LSBU gained approval for the creation of the Society of Petroleum Engineers (SPE) Student Chapter in March 2007. The interaction with SPE-London allows our students to attend specialised conferences related to the oil industry, and also to have invited speakers from the industry, delivering presentations on relevant topics.

Employability

The complexity of the oil and gas industry offers a wide variety of opportunities for career development to petroleum engineers.

In most oil companies worldwide the petroleum engineering team consists of a geologist, a reservoir engineer, a petro-physicist, a drilling engineer and a production engineer. With this Masters qualification you'll be qualified to apply for positions in all of these fields. Each member of this team will be concentrating on their own aspect of the larger task in hand, which is to maximise cost-effective production from the field.

As a graduate of the MSc in Petroleum Engineering your profile will match the needs in different areas of oil and gas production, and reservoir engineering in large companies, which offer attractive graduate programmes, and in medium and small operating and consulting companies.

LSBU Employability Services

LSBU is committed to supporting you develop your employability and succeed in getting a job after you have graduated. Your qualification will certainly help, but in a competitive market you also need to work on your employability, and on your career search. Our Employability Service will support you in developing your skills, finding a job, interview techniques, work experience or an internship, and will help you assess what you need to do to get the job you want at the end of your course. LSBU offers a comprehensive Employability Service, with a range of initiatives to complement your studies, including:

• Direct engagement from employers who come in to interview and talk to students
• Job Shop and on-campus recruitment agencies to help your job search
• Mentoring and work shadowing schemes.

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This course is for engineers who wish to develop their skills and knowledge in energy systems that will meet future energy needs. Read more
This course is for engineers who wish to develop their skills and knowledge in energy systems that will meet future energy needs. Such energy systems will need to be designed and implemented in accordance with principles of sustainability.

The course content is designed to be relevant to international, national and local government energy policies and strategies, and will be of value to anyone working in an energy related engineering discipline. The primary focus of the course is for graduates in building services, mechanical, electrical and chemical engineering.

The aims of the course are to:

• Present and take forward arguments for sustainability in the design and implementation of energy delivery systems
• Provide you with a broad basis of advanced understanding in the technologies that deliver high quality energy services with minimum environmental impact
• Design appropriate decentralised energy delivery systems, based on a range of criteria including environment, cost and engineering potential
• Develop your understanding of policy, market and institutional factors that promote or constrain innovation.

Excellent scholarship opportunity

Students who have accepted an offer for a full-time place on this course are encouraged to apply for LSBU's Kevin Herriott scholarship. Find out more about the Kevin Herriott scholarship:

http://www.lsbu.ac.uk/courses/postgraduate/fees-and-funding/scholarships/kevin-herriott-scholarship

Students on this course are also eligible to apply for a bursary from the Panasonic Trust fellowship scheme, worth £8,000.

Modules

An indicative list of topics covered on this course are:

Renewable energy technologies 1
Renewable energy technologies 2
Energy resource and use analysis
Electrical power
Sustainable refrigeration
Environmental management
Energy engineering project

Please visit the website to see how these modules are assessed:

http://www.lsbu.ac.uk/courses/course-finder/sustainable-energy-systems-msc#course_tab_modules

Timetable

Full-time timetable: 2 days per week

Part-time day release timetable: 1 day per week

Accreditation

This course is accredited by the Chartered Institution of Building Services Engineers (CISBE) and the Energy Institute as masters further learning to meet the academic requirements of becoming a Chartered Engineer (with a suitable first degree).

The course is accredited on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Employability

The emergence of sustainable energy technologies, together with targets for implementation, mean that specialist engineers will increasingly be in demand to specify, design and install these systems. Many engineering consultancies and energy service companies are developing specialist sustainability teams, and already there is a shortage of skilled personnel.

Professional accreditation

The course provides the Masters level academic requirements leading to Chartered Engineer status when following on from an appropriate accredited BEng degree.

The course is accredited on behalf of the Engineering Council as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

LSBU Employability Services

LSBU is committed to supporting you develop your employability and succeed in getting a job after you have graduated. Your qualification will certainly help, but in a competitive market you also need to work on your employability, and on your career search. Our Employability Service will support you in developing your skills, finding a job, interview techniques, work experience or an internship, and will help you assess what you need to do to get the job you want at the end of your course. LSBU offers a comprehensive Employability Service, with a range of initiatives to complement your studies, including:

• Direct engagement from employers who come in to interview and talk to students
• Job Shop and on-campus recruitment agencies to help your job search
• Mentoring and work shadowing schemes.

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A dual pathway conversion course that gives STEM students the opportunity to gain the knowledge and skills needed for a career in building services engineering. Read more
A dual pathway conversion course that gives STEM students the opportunity to gain the knowledge and skills needed for a career in building services engineering.

Building services engineers are responsible for the mechanical and electrical systems that contribute to people's comfort, health and productivity. They provide analytic and design skills to buildings of all scales and levels of complexity, from residential and commercial, to industrial and cultural.

With greater efficiency constantly being sought in the use of energy and materials (for environmental and economic reasons) there is a growing demand for a new generation of environmentally responsible buildings. Currently however, the field of architecture and engineering is facing a deficit of people with the right type of expertise. In response, this full time Masters course has been created to provide a route through which STEM graduates (or people with relevant experience) can align their skills with the needs of the profession.

Course detail

The MSc Building Services Engineering is suitable for graduates with degrees in technological subjects (such as mechanical, aeronautical, civil and automotive engineering), or maths or science graduates. Graduates of the pure sciences will be recommended to enter the MSc course through the pathway offering some preparatory grounding in relevant technical subjects.

In developing the skills to practice as a building services professional, you will learn about the relevant technologies and methods of the discipline, and will be introduced to themes related to management and professional conduct within an engineering context.

Modules

Over the course of one year, you will study the following compulsory modules:

• Mechanical Services
• Construction Procurement
• Low Carbon Building Services
• Building Services Design Project
• Building Engineering Research
• Dissertation

Format

Input from industry practitioners as well as other interdisciplinary professionals is a key part of the course. Along with field trips to working sites, this will help you develop an understanding of how to apply the concepts and principles to real world situations and projects.

Through project work, group work, hands-on practice and theory, you will gain the skills needed to make a positive impact on the places where people live, study and work.

Much of the teaching will focus around a studio-based engineering design project under the guidance and critique of your tutor. There will also be traditional teacher-led classroom delivery supported by online materials.

Assessment

We use a range of assessment tools throughout the course, including exams, coursework, presentations, lab reports and portfolio development.

Careers / Further study

A career in building services engineering is likely to be varied, analytical and inventive. This Masters will equip you with the knowledge and experience needed to step into a wide range of roles, including Building Services Consulting Engineer, Mechanical Building Services Design Engineer, Sustainability Engineer and MEP Construction Engineer.

How to apply

Information on applications can be found at the following link: http://www1.uwe.ac.uk/study/applyingtouwebristol/postgraduateapplications.aspx

Funding

- New Postgraduate Master's loans for 2016/17 academic year –

The government are introducing a master’s loan scheme, whereby master’s students under 60 can access a loan of up to £10,000 as a contribution towards the cost of their study. This is part of the government’s long-term commitment to enhance support for postgraduate study.

Scholarships and other sources of funding are also available.

More information can be found here: http://www1.uwe.ac.uk/students/feesandfunding/fundingandscholarships/postgraduatefunding.aspx

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The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. Read more

About the programme

The programme is co-organised by Vrije Universiteit Brussel (VUB) and Universite Libre de Bruxelles (ULB), offering students the possibility to obtain a double master's degree at the end of the programme. The first year of courses is taught at the ULB Engineering Campus in Brussels, while the second year is taught at VUB.

This Master offers

- An in-depth understanding of the main aspects of analysis and design of all kinds of advanced load-bearing constructions, as well as of material technology.
- Strong links with a wide range of industrial organisations in all branches of engineering, including civil engineering consultants, contractors, public service organisations and materials suppliers.
These help to provide an exciting and industrially relevant environment for study and project work throughout the degree courses.

Focus on design and analysis of advanced structures

The main objectives of this master programme are to develop an in-depth understanding of the main aspects of analysis and design of all kinds of advanced load-bearing constructions, as well as of material technology. Important issues are the optimization of the form of the structure, the selection of the materials and the construction method in terms of mechanical properties, environmental impact, life cycle cost and sustainability. Both conventional reinforced and pre-stressed concrete or steel structures and systems in novel materials (fibre reinforced, cellular, hybrids...) are considered.

A competent civil engineer within broad range of technical skills

In addition, the objective is to provide civil engineers within a broad range of technical skills which will enable them to take a professional approach to civil engineering problems, to gather and assimilate the required information in an efficient manner, to formulate and implement a solution method and to execute and administer the projects they are involved in.

Conduct scientific research in critical and self-reliant manner

This balanced training is closely linked to scientific research in related fields. This will serve as a basis for 'lifelong learning'. In particular, the education shall provide the necessary knowledge and competences to conduct scientific research in a critical and self-reliant manner or as a member of a team. This Master provides a profound scientific background to the design and construction of all kinds of advanced load-bearing systems, as well as the required competences and attitudes to become a responsible staff member.

Generic skills

Practicing the profession of Civil Engineer involves a number of generic skills, including:
- reasoning skills: logical thinking and spatial vision
- communication skills: the ability to compile reports and hold presentations
- managerial skills: planning, organizing and leading activities, efficient time management
- interpersonal and social skills: a sense of responsibility and teamwork
- creativity and entrepreneurial spirit
- awareness of the necessity of ongoing training in recent technological, industrial and scientific developments

Student profile

You are interested in becoming a competent civil engineer with a broad range of technical skills
You are someone with good reasoning skills, logical thinking and spatial vision and would like to study in an international environment
You are someone who enjoys working in close contact with professors and wants to study in the capital of Europe

Curriculum

Available on http://www.vub.ac.be/en/study/civil-engineering/programme

The standard track in Master of Science in Civil Engineering (120 ECTS) is made up of 4 modules:
1) compulsory common courses (60 ECTS)
2) option blocks (1 option to choose out of 3 that are provided, 16 ECTS each)
3) electives (thematic lists) (20 ECTS to choose)
4) the Master Thesis (24 ECTS)

Each of the modules should be succesfully completed to obtain the master degree. The student must respect the specified registration requirements. The Curriculum Board strongly suggests the student to follow the standard learning track. Only this model track can guarantee a timeschedule without overlaps of the compulsory course units.

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This internationally-leading joint EngD with IDCORE aims to meet the UK’s ambitious deployment targets for offshore renewable energy technologies. Read more
This internationally-leading joint EngD with IDCORE aims to meet the UK’s ambitious deployment targets for offshore renewable energy technologies.

An EngD is a four year research degree awarded for industrially relevant research, the degree provides a more vocationally oriented approach to obtaining a doctorate in engineering commensurate with that of a PhD.

Led by the University of Exeter at its Penryn Campus and based at the University of Edinburgh, this EngD programme is delivered through a partnership with the universities of Edinburgh, Strathclyde and Exeter together with the Scottish Association for Marine Science and HR-Wallingford.

The programme will allow you to receive postgraduate-level technical and transferable skills training at three leading UK universities in the renewable energy research field together with the Scottish Association for Marine Science and HRWallingford. This university and industry collaboration forms the Engineering and Physical Sciences Research Council (EPSRC), RCUK Energy programme/ETI-funded Industrial Doctorate Centre in Offshore Renewable Energy (IDCORE).

Students will benefit from a vibrant learning environment and, in partnership with industry, will learn to deliver world-class industrially-focused research outcomes that will accelerate the deployment of offshore wind, wave and tidal-current technologies. This will help the UK to meet its 2020 and 2050 targets for renewable energy generating capacity, and expand and sustain a community of high-quality post-doctoral staff for the UK offshore renewable energy industry.

This programme will produce highly trained scientists and engineers, they will gain the skills, knowledge and confidence to tackle current and future offshore renewable energy challenges. This includes developing new techniques and technologies to design, build, install, operate and maintain devices in hostile environments at an affordable economic cost with minimal environmental impact.

This will reinforce and support the UK’s conjoined infrastructure, which begins in the best academic research centres with leading test facilities and extends through a unique combination of demonstration facilities, ultimately to test and deployment sites.

Programme structure

Each Research Engineer will spend approximately 25% (180 credits) of his or her time in a structured training programme.
The following are some examples of the taught modules;
Introduction to Offshore Renewable Technologies; Hydrodynamics of Offshore Renewable Energy Devices; Electromechanical & Electronic Energy Conversion Systems; Marine Renewable Resource Assessment; Economics Tools for Offshore Renewables; Physical Model Testing for Offshore Renewables; Structural Behaviour of Offshore Renewable Energy Devices; Electricity Network Interaction, Integration and Control; Moorings and Reliability and Innovation Design and Manufacturing Management.

Research project

Research Projects will comprise 540 credits, amounting to 75% of the research engineer effort on the EngD. Research Engineers will attend a total of three summer schools during their projects, and will attend the annual Company Day, and appropriate technical conferences

Research projects are proposed by renewable energy companies in wave, tidal and offshore wind energy. Projects are allocated during the first year of the programme, at the beginning of the second semester (in January). The Research Engineer will take an active role in defining his or her professional development programme in line with the needs of the research project and his or her individual aims.

The modules we outline here provide examples of what you can expect to learn on this degree course based on recent academic teaching. The precise modules available to you in future years may vary depending on staff availability and research interests, new topics of study, timetabling and student demand.

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A brand new, one of its kind qualification for those seeking specialist skills in the design and construction of temporary works. Read more
A brand new, one of its kind qualification for those seeking specialist skills in the design and construction of temporary works.

Who is it for?

This MSc degree is aimed at graduates with at least two years of practical experience in construction; however, more recent graduates with a good appreciation of construction processes will also benefit.

Having achieved a firm grounding in engineering you may be keen to develop your skills as a practical engineer working on site or enhance design skills if you are engaged in permanent works design.

Objectives

The course provides the following:
-An introduction to statutory obligations, management methods and special design considerations for temporary works.
-Design of structures used in and for temporary works, their construction and monitoring.
-Design of geotechnical temporary works and processes, including groundwater control and ground investigation.
-Design of temporary works for marine construction, in particular floating structures and the effect of waves and varying water levels.
-The use of plant in temporary works and the provision of appropriate working platforms and access.
-Demolition and alteration of structures, including the disposal/reuse of construction waste.

Teaching and learning

The learning and teaching approach for the course encompasses a range of methods which support active learning including lectures, workshops, group work, case studies, problem-based learning, presentations and peer review.

Workshops, group work, case studies and problem-based learning will be used to build your ability to critically review and assess options for design and assessment of temporary works. Your learning will be supported by the online learning environment Moodle, which will provide resources for independent learning, such as further reading, links to wider sources of information and quizzes for self-assessment.

All modules involve undertaking a certain number of individual and/or group assignments (coursework) during the teaching terms, as well as comprehensive final examinations.

Part-time students are expected to complete all the modules within the two-year period. The teaching periods are structured to deliver core modules in a sequence, which permits engagement by part-time students alongside full-time students. The project is undertaken by part-time students in the second year.

Teaching normally takes place on two full days per week, although there may be some variations to accommodate practical exercises and site visits. In addition, there is an introduction week at the start of the programme each year which is attended by all full and part-time students.

This method of delivery is designed to accommodate students working full-time within reasonable commuting distance of City, University of London, as well as to full-time students, by concentrating tuition into two days per week on average, and encouraging flexibility for independent study.

Modules

Temporary works refers to works enabling the construction of, protection, support or provision of access to permanent works which might or might not remain in place at the completion of a construction project. Examples of temporary works include structures such as gantries for heavy plant, materials or accommodation as well as supports for partially-completed or partially-dismantled structures, excavations and accesses. The course delivery and content is actively supported by the Temporary Works Forum (TWf), which promotes best practice within the UK construction industry and sponsors the Centre of Excellence in Temporary Works and Construction Method Engineering at City, University of London. The course content has been developed in collaboration with the TWf membership and TWf members will contribute to lectures and design exercises.

The course addresses the regulatory background to temporary works for construction, the design of geotechnical, structural and marine temporary works, demolition, plant, safe working methods and access works. You will gain both the technical understanding to undertake safe but cost-effective designs for a full range of temporary works and a good understanding of the wide range of plant and techniques that can be employed.

The programme will be delivered by industry experts providing insights into current practice in temporary works and academic members of staff experienced in the theory underlying the design methods employed. There will be visits to operational sites and practical exercises to provide opportunities to experience decision-making in the field, combined with group sessions to develop your knowledge further through active engagement. This will also require you to present your work occasionally, participate in peer review sessions and work in teams.

The course consists of eight taught modules and a project. The project is a major individual research exercise on a topic relevant to temporary works and construction method engineering. The main outcome of the project is a written report (dissertation).

Taught modules - the Temporary Works and Construction Method Engineering MSc comprises 180 credits, with 60 credits awarded to the project. Attendance is required to obtain 120 credits by studying all of the taught modules.

The taught modules address the following topics:
-An introduction to statutory obligations, management methods and special design considerations for temporary works.
-Design of structures used in and for temporary works, their construction and monitoring.
-Design of geotechnical temporary works and processes, including groundwater control and ground investigation.
-Design of temporary works for marine construction, in particular floating structures and the effect of waves and varying water levels.
-The use of plant in temporary works and the provision of appropriate working platforms and access.
-Demolition and alteration of structures, including the disposal/reuse of construction waste.

Project - the topics/titles for the major project can be chosen from:
-A list suggested by the lecturers of the course.
-Your own ideas/initiatives.
-Where applicable, by your sponsoring company/industrial partner.

Our collaboration with members of the TWf means that many of the topics offered will relate to problems of current interest to industry and will be co-supervised by industry organisations.

Career prospects

Temporary works are an important aspect of most construction projects. Consequently, a qualification in this field will have widespread application across all civil engineering disciplines, whether you are working as an on-site engineer or as a design office engineer. You could also go into the research arena conducting innovative research in the area of temporary works.

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Electrical and electronic engineering are the foundation of 21st century innovations. from digital communications to robotics systems, from sustainable energy to smart environments. Read more

Electrical and electronic engineering are the foundation of 21st century innovations: from digital communications to robotics systems, from sustainable energy to smart environments. With the MSc Electrical and Electronic Engineering from GCU, you'll develop the skills to work at the forefront of these exciting fields. Through discovery and invention, you can build a better future for humanity and contribute to the common good.

Accredited by the Institution of Engineering and Technology (IET), the programme also meets the Engineering Council's further learning requirements to become a Chartered Engineer. It offers advanced study and ideal preparation so you can enter the next stage of your career. You'll also find professional development opportunities for your continued growth as a successful engineer.

The curriculum offers a comprehensive exploration of electrical and electronic engineering, with particular emphasis on today's fast-growing fields of energy engineering and renewable technologies.

  • Expand your understanding of power systems and instrumentation systems
  • Investigate telecommunications systems and technologies
  • Solidify your personal skills and practise collaborating with a team
  • Connect your learning to the real world with industry case studies and on-the-ground assignments

The MSc Electrical and Electronic Engineering offers two options for specialisation.

  • Digital Systems and Telecommunications - Master communication technologies and systems
  • Mechatronics - Study the electronic control of mechanical and intelligent robotic systems

What you will study

In addition to the knowledge and understanding of electrical and electronic engineering the programme will provide an integrated understanding of power systems, instrumentation systems, telecommunications systems and business operations, reinforced with personal and inter-personal skills.

Electrical Power Systems

The module examines topics relating to electric power generation, transmission, distribution and utilisation. This will include examination of individual power system components such as generators, transformers, overhead lines, underground cables, switchgears and protection systems as well as analysis of load flow and system fault conditions which are required for power system design and operation.

Advanced Industrial Communication Systems

Aims to provide a comprehensive knowledge and understanding of modern industrial communications systems. The operation of a wide range of state-of-the-art advanced communications systems will be studied, e.g. SCADA, satellite systems, digital cellular mobile networks and wireless sensor networks.

Measurement Theories and Devices

The generalised approach to measurement theory and devices adopted in this module will allow students to become familiar with the characteristics of measurement systems in terms of the underlying principles. Students should find this methodology to be a considerable benefit to them when they apply their expertise to solving more complex industrial measurement problems.

Measurement Systems

A range of advanced measurement systems will be studied in depth. Sensors, signal processing, low-level signal measurements, noise reduction methods and appropriate measurement strategies will be applied to industrial and environmental applications. The influence of environmental factors and operation conditions will be considered in relation to the optimisation of the measurement system.

Energy, Audit and Asset Management

Focuses on techniques for auditing and managing the amount of energy used in a range of industrial processes. The module will provide an understanding of the strategies and procedures of energy audit and energy asset management. Using case studies throughout, the module will present energy audit, managing energy usage, factors affecting energy efficiency on plant, and cost benefit analysis of introducing alternative strategies and technologies.

Professional Practice

Focuses on two themes, the first aims to develop student moral autonomy within a professional technology framework. It will examine moral issues and moral decision processes through evaluative enquiry and application of professional codes of conduct specifically in relation to design, information technology and the Internet. The second theme enhances the student's knowledge of concepts, methods and application of technology and environmental management as applied to a new or existing venture.

Renewable Energy Technologies

Renewable energy is regarded as an integral part of a sustainable development strategy. This module concentrates on the renewable energy technologies most likely to succeed in the UK and other temperate countries, i.e. solar energy, energy from waste, wind, hydro and biomass.

Condition Monitoring

Aims to provide an understanding of both Mechanical and Electrical Condition monitoring and associated instrumentation requirements for successful condition monitoring. The main focus in Mechanical Condition Monitoring is vibration monitoring since this is the most popular method of determining the condition and diagnosing faults in rotational machines, although other techniques used in condition monitoring are also covered.

Accreditation

MSc Electrical and Electronic Engineering is accredited by the Institution of Engineering and Technology (IET) and its students meet the UK Engineering Council’s further learning requirements for registration as a Chartered Engineer.

Assessment methods

Students will be assessed via a combination of examinations, coursework, presentations,case study analysis, reports and the final dissertation.

Graduate prospects

Your degree and specialist knowledge will guarantee you excellent career opportunities around the world. You might find work in the electrical power industry, the renewable energy sector, the offshore industry, transport engineering, electronic engineering or telecommunications.



Read less
Electrical and electronic engineering are the foundation of 21st century innovations. from digital communications to robotics systems, from sustainable energy to smart environments. Read more

Electrical and electronic engineering are the foundation of 21st century innovations: from digital communications to robotics systems, from sustainable energy to smart environments. With the MSc Electrical and Electronic Engineering from GCU, you'll develop the skills to work at the forefront of these exciting fields. Through discovery and invention, you can build a better future for humanity and contribute to the common good.

Accredited by the Institution of Engineering and Technology (IET), the programme also meets the Engineering Council's further learning requirements to become a Chartered Engineer. It offers advanced study and ideal preparation so you can enter the next stage of your career. You'll also find professional development opportunities for your continued growth as a successful engineer.

The curriculum offers a comprehensive exploration of electrical and electronic engineering, with particular emphasis on today's fast-growing fields of energy engineering and renewable technologies.

  • Expand your understanding of power systems and instrumentation systems
  • Investigate telecommunications systems and technologies
  • Solidify your personal skills and practise collaborating with a team
  • Connect your learning to the real world with industry case studies and on-the-ground assignments

The MSc Electrical and Electronic Engineering offers two options for specialisation.

  • Digital Systems and Telecommunications - Master communication technologies and systems
  • Mechatronics - Study the electronic control of mechanical and intelligent robotic systems

What you will study

In addition to the knowledge and understanding of electrical and electronic engineering the programme will provide an integrated understanding of power systems, instrumentation systems, telecommunications systems and business operations, reinforced with personal and inter-personal skills.

Electrical Power Systems

The module examines topics relating to electric power generation, transmission, distribution and utilisation. This will include examination of individual power system components such as generators, transformers, overhead lines, underground cables, switchgears and protection systems as well as analysis of load flow and system fault conditions which are required for power system design and operation.

Advanced Industrial Communication Systems

Aims to provide a comprehensive knowledge and understanding of modern industrial communications systems. The operation of a wide range of state-of-the-art advanced communications systems will be studied, e.g. SCADA, satellite systems, digital cellular mobile networks and wireless sensor networks.

Measurement Theories and Devices

The generalised approach to measurement theory and devices adopted in this module will allow students to become familiar with the characteristics of measurement systems in terms of the underlying principles. Students should find this methodology to be a considerable benefit to them when they apply their expertise to solving more complex industrial measurement problems.

Measurement Systems

A range of advanced measurement systems will be studied in depth. Sensors, signal processing, low-level signal measurements, noise reduction methods and appropriate measurement strategies will be applied to industrial and environmental applications. The influence of environmental factors and operation conditions will be considered in relation to the optimisation of the measurement system.

Energy, Audit and Asset Management

Focuses on techniques for auditing and managing the amount of energy used in a range of industrial processes. The module will provide an understanding of the strategies and procedures of energy audit and energy asset management. Using case studies throughout, the module will present energy audit, managing energy usage, factors affecting energy efficiency on plant, and cost benefit analysis of introducing alternative strategies and technologies.

Professional Practice

Focuses on two themes, the first aims to develop student moral autonomy within a professional technology framework. It will examine moral issues and moral decision processes through evaluative enquiry and application of professional codes of conduct specifically in relation to design, information technology and the Internet. The second theme enhances the student's knowledge of concepts, methods and application of technology and environmental management as applied to a new or existing venture.

Renewable Energy Technologies

Renewable energy is regarded as an integral part of a sustainable development strategy. This module concentrates on the renewable energy technologies most likely to succeed in the UK and other temperate countries, i.e. solar energy, energy from waste, wind, hydro and biomass.

Condition Monitoring

Aims to provide an understanding of both Mechanical and Electrical Condition monitoring and associated instrumentation requirements for successful condition monitoring. The main focus in Mechanical Condition Monitoring is vibration monitoring since this is the most popular method of determining the condition and diagnosing faults in rotational machines, although other techniques used in condition monitoring are also covered.

Accreditation

MSc Electrical and Electronic Engineering is accredited by the Institution of Engineering and Technology (IET) and its students meet the UK Engineering Council’s further learning requirements for registration as a Chartered Engineer.

Assessment methods

Students will be assessed via a combination of examinations, coursework, presentations,case study analysis, reports and the final dissertation.

Graduate prospects

Your degree and specialist knowledge will guarantee you excellent career opportunities around the world. You might find work in the electrical power industry, the renewable energy sector, the offshore industry, transport engineering, electronic engineering or telecommunications.



Read less
This programme responds to the worldwide demand for building services engineers who have a sound knowledge of engineering principles and the ability to apply this knowledge within the building services industry. Read more

About the course

This programme responds to the worldwide demand for building services engineers who have a sound knowledge of engineering principles and the ability to apply this knowledge within the building services industry.

Professional ‘Building Services Engineers’ design all of the systems that are necessary in a building for occupants to carry out their business. These systems include: heating, lighting, air-conditioning and electrical systems. The role is increasingly involved with the provision of sustainable, energy efficient and green building within our society. Services have to be carefully designed and installed so that they are unobtrusive and aesthetically pleasing, and also work in harmony with the architecture of the building. The programme will respond to the worldwide demand for building services engineers who have a sound knowledge engineering principles and the ability to apply this knowledge to the complex situations prevailing within the building services industry.

The course is available either as a full-time, 1-year programme at Brunel or as a 3-to-5 year distance learning programme.

Aims

With the growing complexity of engineering services in modern buildings and the significance of energy conservation and emissions control, the role of the building services engineer is becoming increasingly important.

As an interdisciplinary profession that involves the specification, design, installation and management of all the engineering services associated with the built environment, comfort and function also need to be combined – which calls for engineers with a wide range of knowledge and skills.

This MSc programme is suitable for:

Recent engineering and technology graduates, moving into building services and related disciplines.
Established engineers and technologists, working in building services and faced with the challenge of new areas of responsibility.
Engineers who want to develop technical understanding and expertise across the multi-disciplines of building services engineering.
Managers and designers, who need to broaden their experience and require updating.
Lecturers in higher education, moving into or requiring updating in building services engineering.
Others with engineering and technology backgrounds, perhaps working in advisory or consultancy roles, who wish to familiarise themselves with building services engineering. However, choice of course will be dependent upon the type and extent of knowledge and skills required.

Course Content

Modes of Study

1 Year Full-Time: The taught element of the course (September to April) includes seven modules; delivery will be by a combination of lectures, tutorials and group/seminar work. A further four months (May to September) is spent undertaking the dissertation.

3-5 Years Distance Learning: The distance learning programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace.

There is no requirement to attend lectures at Brunel University and there is no set timetable of lectures, instead you follow a structured programme of self-study at home or at work. This gives you the freedom to arrange a work programme to study yourself and you should usually allow about twelve hours each week for study.

There are set submission dates for assignments but we have tried to design the programme so that they are well-spaced, giving you the maximum flexibility in your study plans.

You can take between three and five years to complete the course. The average is three years, with students taking four modules in the first year, four modules in the second year and the dissertation in the third year. However, depending on your other commitments you can take longer up to a maximum of five years.

You are supplied with a study pack in the form of textbooks and CD-ROMs; you have assignments to submit and exams to sit each year.

Examinations can be taken either at Brunel University or in the country you are resident in. We have an extensive network of organisations (universities, colleges and British Council offices) throughout the world who will provide invigilation services.

The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Typical Modules

The course comprises four core modules, three technical modules and a dissertation. The taught modules are:

Core Modules:

Building Heat Transfer and Air Conditioning
Electrical Services and Lighting Design
Acoustics, Fire, Lifts and Drainage
Energy Conversion Technologies
Dissertation

Technical Modules:

Building Management and Control Systems
Design of Fluid Services and Heat Transfer Equipment
Building Services Design and Management

Special Features

There are several advantages in choosing the Brunel Building Services programme:

Award-winning courses: Building Services Engineering courses have been awarded the Happold Brilliant Award for teaching excellence by the Chartered Institution of Building Services Engineers.

Relevance: It is well established within the building services industry, with sponsors of students that include major design and contracting organisations, area health authorities, local authorities and the British Council, as well as several national governments.

Applicability: Emphasis on applications enables students and employers to benefit immediately from the skills and knowledge gained.

Responsiveness: Brunel's proximity to London, where large and innovative building developments have been taking place over the last decade, enables rapid infusion of new ideas and technological innovations into the programme content.

Excellent facilities
We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

Collaborative research
Engineering at Brunel benefits from research collaboration with numerous outside organisations including major oil companies, vehicle manufacturers, and other leading industrial firms and governmental laboratories. We have links with at least six teaching hospitals and work with universities in China, Poland, Egypt, Turkey, Denmark, Japan, Brazil, Germany, Belgium, Greece, Italy and the US.

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 is approved by the Chartered Institute of Building Services Engineers (CIBSE) and the Institution of Mechanical Engineers (IMechE) as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng). Additioanlly we are seeking reaccreditation with the Energy Institute.

Teaching

Students are supplied with a study pack in the form of text books and CD-ROMs; you have assignments to submit and exams to sit each year. Examinations can be taken either at Brunel University or in the country you are resident in.
We have an extensive network of organisations (Universities, Colleges and British Council Offices) throughout the world who will provide invigilation services. The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of the academic year.
Examinations are normally taken in May. MSc dissertation project normally is carried out over four months (full-time students) or one year (distance learning students) and it is accessed by submission of an MSc dissertation.

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This course is aimed at professional engineers aspiring to increased management responsibility in the building services sector or who have reached a stage in their careers when they are carrying increasing management responsibility. Read more

About the course

This course is aimed at professional engineers aspiring to increased management responsibility in the building services sector or who have reached a stage in their careers when they are carrying increasing management responsibility.

It caters to the worldwide demand for building services engineering managers who have a sound knowledge of engineering and management principles – and the ability to apply this knowledge to complex situations.

Management modules cover engineering finance and accounting, people management, business organisation and facilities and contract management.

Aims

Building Service Engineers help buildings to deliver on their potential by working with architects and construction engineers to produce buildings that offer the functionality and comfort we expect, with the minimum impact on our environment. They design the lighting appropriate for the space, the heating, cooling, ventilation and all systems that ensure comfort, health and safety in all types of buildings, residential commercial and industrial.

Building services engineering is an interdisciplinary profession. It involves the specification, design, installation and management of all the engineering services associated with the built environment.

With the growing complexity of engineering services in modern buildings and the significance of energy conservation and pollution control, the role of the building services engineer is becoming increasingly important.

As an interdisciplinary profession that involves the specification, design, installation and management of all the engineering services associated with the built environment, comfort and function also need to be combined – which calls for engineers with a wide range of knowledge and skills.

This MSc programme is for:

Recent engineering and technology graduates, moving into building services and related disciplines.
Established engineers and technologists, working in building services and faced with the challenge of new areas of responsibility.
Engineers who want to develop technical understanding and expertise across the multi-disciplines of building services engineering.
Managers and designers, who need to broaden their experience and require updating.
Lecturers in higher education, moving into or requiring updating in building services engineering.
Others with engineering and technology backgrounds, perhaps working in advisory or consultancy roles, who wish to familiarise themselves with building services engineering. However, choice of course will be dependent upon the type and extent of knowledge and skills required.

Course Content

Modes of Study
3-5 Years Distance Learning

The distance learning programme is designed to enable you to conduct most of your studies at home, in your own time and at your own pace.

There is no requirement to attend lectures at Brunel University and there is no set timetable of lectures, instead you follow a structured programme of self-study at home or at work. This gives you the freedom to arrange a work programme to suit yourself and you should usually allow about twelve hours each week for study.

There are set submission dates for assignments but we have tried to design the programme so that they are well-spaced, giving you the maximum flexibility in your study plans.

You can take between three and five years to complete the course. The average is three years, with students taking four modules in the first year, four modules in the second year and the dissertation in the third year. However, depending on your other commitments you can take longer up to a maximum of five years.

You are supplied with a study pack in the form of textbooks and CD-ROMs; you have assignments to submit and exams to sit each year.

Examinations can be taken either at Brunel University or in the country you are resident in. We have an extensive network of organisations (universities, colleges and British Council offices) throughout the world who will provide invigilation services.

The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Compulsory Modules

Building Heat Transfer and Air Conditioning
Electrical Services and Lighting Design
Acoustics, Fire, Lifts and Drainage
Engineering Finance and Accounting
Management of People in Engineering Activities
Organisation of Engineering Business
Management of Facilities and Engineering Contracts
Dissertation

Students should choose one of the two themes below:

Theme A - Traditional

Energy Conversion Technologies
This element provides a broad introduction to the principles of energy conversion and thermodynamic machines and demonstrates their application to energy conversion and management in buildings. Emphasis is placed on refrigeration plant, energy conversion plant and energy management.
Refrigeration covers the basic principles and components of vapour compression systems, heat pumps and absorption systems.
Energy Conversion considers power cycles, combined heat and power, combustion processes, boiler plant, thermal energy storage and environmental impacts of plant operation.

Theme B - Renewable

Renewable Energy Technologies
This element includes: energy sources, economics and environmental impact, energy storage technologies, the role of renewables, solar thermal, solar electricity, wind power generation, hydro, tidal and wave power, biofuels, building integrated renewables.

Special Features

There are several advantages in choosing Brunel's Building Services programme:

Award-winning courses: Building Services Engineering courses at Brunel have been awarded the Happold Brilliant Award for teaching excellence by the Chartered Institution of Building Services Engineers.

Relevance: it is well established within the building services industry, with sponsors of students that include major design and contracting organisations, area health authorities, local authorities and the British Council, as well as several national governments.

Applicability: emphasis on applications enables students and employers to benefit immediately from the skills and knowledge gained.

Responsiveness: Brunel's proximity to London, where large and innovative building developments have been taking place over the last decade, enables rapid infusion of new ideas and technological innovations into the programme content.

Excellent facilities

We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

Accreditation

The course is approved by the Chartered Institute of Building Services Engineers (CIBSE) and the Institution of Mechanical Engineers (IMechE) as appropriate additional academic study (further learning) for those seeking to become qualified to register as Chartered Engineers (CEng).

Teaching

Students are supplied with a study pack in the form of text books and CD-ROMs; you have assignments to submit and exams to sit each year. Examinations can be taken either at Brunel University or in the country you are resident in.
We have an extensive network of organisations (Universities, Colleges and British Council Offices) throughout the world who will provide invigilation services. The cost of invigilation away from Brunel is your responsibility. Examinations are held in May each year.

Assessment

Each module is assessed either by formal examination, written assignments or a combination of the two. Cut-off dates for receipt of assignments are specified at the beginning of each stage. Examinations are normally taken in May.
Successful completion of the taught modules allows the student to proceed to the dissertation stage. To qualify for the award of the MSc degree, the student must submit a satisfactory dissertation.

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Public awareness of hazards and risks has enhanced the importance of safety assessment and management in today’s increasingly litigious society. Read more

Programme Background

Public awareness of hazards and risks has enhanced the importance of safety assessment and management in today’s increasingly litigious society. Worldwide the burden of responsibility for health and safety is shifting towards those who own, manage and work in industrial and commercial organisations. Legal reform is tending to replace detailed industry specific legislation with a modern approach in which, where possible, goals and general principles are set and the onus is on organisations to show how they manage to achieve these goals.

The management of safety and risk needs to be integrated into the overall management of the organisation. It should be appropriate and cost-effective without dampening the innovative entrepreneurial spirit of employees with inflexible bureaucratic rules and procedures. An organisation’s exposure to potential hazards needs to be managed so as to reduce the chance of loss and mitigate any effects. Risk and safety issues need to be evaluated in a structured and calculated manner but in the light of an overall organisational strategy.

The MSc/PG Diploma programme in Safety and Risk Management aims to provide students with advanced knowledge of risk assessment techniques, the public and individual perception of risk, and how decisions are made in competitive business markets. The focus is on practical applications of safety methodologies, ergonomics and human factors, and safety and risk management techniques.

All of these skills will be drawn together to undertake complex qualitative and quantitative risk assessments. The core of the programme is the management of safety, but it is set within a broader remit where safety issues are part of a general risk management system with a balance of financial, quality and environmental concerns. The overall aim of the programme is to develop students’ skills and personal qualities to be able to undertake safety studies and manage safety and risk to the best national and international standards.

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) undergraduate first degree. See http://www.jbm.org.ukfor further information.

The MSc and PgDip degrees have also been accredited by the Institution of Occupational Safety and Health (IOSH). Graduates are eligible to join IOSH as Graduate members and then undertake an initial professional development process that leads to Chartered membership. http://www.iosh.co.uk for further information.

Programme Content

The MSc/Postgraduate Diploma in Safety, Risk and Management is only available by attendance-free distance learning. The programme comprises eight courses. All courses have written examinations and some have compulsory coursework elements. MSc students are also required to complete an individual project (dissertation).

For the project component of the programme distance learners are likely to develop something based in their country of residence with advice and supervision from staff in the School. This may well include work with a local company or may involve independent study. Individual arrangements will be set up with each student.

For more detailed information on this programme please contact the Programme Leader before applying (see above).

Courses

• Risk Assessment and Safety Management
This courses aims to give students an appreciation of risk from individual and societal perspectives as well as understanding the basic principles of risk assessment and modelling and how safety management works in practice.

• Human Factors Methods
This course will equip students from academic and/or industrial backgrounds with knowledge on, and the means to deploy, a wide range of specialist human factors techniques. The emphasis is on method selection, application, combination and integration within existing business practices. Students will develop a critical awareness of what methods exist, how to apply them in practice and their principle benefits and limitations.

• Human Factors in the Design and Evaluation of Control Rooms
The course will equip students from academic and/or industrial backgrounds with in-depth knowledge on, insights into, and the means to deploy a wide range of specialist techniques relevant to the ergonomic design and evaluation of control rooms. The emphasis is on key areas of control room operations and on actionable ways to deploy theory on human capabilities and limitations in order to improve performance, safety, efficiency and overall operator well being.

• Fire Safety, Explosions and Process Safety
Introduces students to the basic principles of fire safety science and engineering, and develops skills in associated modelling leading to an understanding of principal fire/explosion related issues in process safety.

• Environmental Impact Assessment
Provides the candidate with the knowledge and understanding of the principles and processes of the Environmental Impact Assessment. By the end of the course, the student should be familiar with the European EIA legislation and its translation into the Scottish planning system, and be able to demonstrate an understanding of the EIA process, the tools and the agents involved in an EIA and the possible problems with using EIA as a decision making tool. . It is also intended that the student will be able to appreciate the purpose of the EIA process from a number of perspectives; that of a developer, an EIA practitioner and a policy maker.

• Project Management Theory and Practice
Provides students with an understanding of the concepts and practices of construction project management used to provide value added services to clients within the constraints of time, cost, quality sustainability and health and safety management.

• Learning from Disasters
Gives students an in depth understanding of some of the classic disasters and their consequences by using a range of practical accident investigation techniques. Students will learn to analyse complex histories in order to find the underlying root cause.

• Value and Risk Management.
Aims to introduce the concepts of value and risk management, apply them to strategic and tactical problems and illustrate their tools and techniques through case study.

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