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Masters Degrees (Petroleum Engineering)

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Teesside is a major European centre for the chemical and petroleum processing sector and our MSc helps you gain knowledge and develop skills with industrial relevance. Read more

Teesside is a major European centre for the chemical and petroleum processing sector and our MSc helps you gain knowledge and develop skills with industrial relevance. Petroleum reservoir engineering, well drilling, petroleum chemistry and economics of the oil and gas sector are just some of the topics covered.

Course details

There are three routes you can select from to gain a postgraduate Master’s award:

  • MSc Petroleum Engineering – one year full time
  • MSc Petroleum Engineering – two years part time
  • MSc Petroleum Engineering (with Advanced Practice) two years full time

The one-year programme is a great option if you want to gain a traditional MSc qualification – you can find out more here. This two-year master’s degree with advanced practice enhances your qualification by adding to the one-year master’s programme an internship, research or study abroad experience.

The MSc Petroleum Engineering (with Advanced Practice) offers you the chance to enhance your qualification by completing an internship, research or study abroad experience in addition to the content of the one-year MSc.

The programme of lectures and project work encompasses a range of petroleum fundamentals, pertinent to the modern petroleum industry. Project work provides an opportunity for ideas and methods, assimilated through lectures and tutorials, to be applied to real field evaluation and development design problems.

Professional accreditation

Our one-year MSc Petroleum Engineering course is accredited by the Energy Institute under licence from the Engineering Council. This means that it meets the requirements for further learning for Chartered Engineer (CEng) under the provisions of UK-SPEC. 

By completing this professionally accredited MSc you could benefit from an easier route to professional membership or chartered status, and it can help improve your job prospects and enhance your career. Some companies show preference for graduates who have a professionally accredited qualification. The earning potential of chartered petroleum engineers can exceed £100,000 a year.

The two-year MSc Petroleum Engineering with Advanced Practice incorporates all the elements of the one-year MSc and adds to these the advanced practice module. The new title is being prepared for formal recognition as accredited title. 

Teesside University Society of Petroleum Engineering student chapter

Our Society of Petroleum Engineering (SPE) student chapter is one of only nine in the UK. SPE is the largest individual member organisation serving managers, engineers, scientists and other professionals worldwide in the upstream segment of the oil and gas industry. Through our SPE chapter we can invite professional speakers from industry, and increase industrial networking opportunities for students.

What you study

For the MSc with advanced practice, you complete 120 credits of taught modules, a 60-credit master’s research project and 60 credits of advanced practice.

You select your master’s research project from titles suggested by either industry or our academic staff but you may also, with your supervisor’s agreement, suggest your own titles. 

Student projects

Here are some examples of the Major Project module developed by our MSc Petroleum Engineering students.

View the projects

Course structure

Core modules

  • Drill Engineering and Well Completion
  • Hydrocarbon Production Engineering
  • Material Balance and Recovery Mechanisms
  • Petroleum Chemistry
  • Petroleum Economics and Simulation
  • Petroleum Reservoir Engineering
  • Practical Health and Safety Skills
  • Research and Study Skills
  • Research Project (Advanced Practice)

Advanced Practice options

  • Research Internship
  • Study Abroad
  • Vocational Internship

Modules offered may vary.

Employability

This course provides specialist education tailored to the upstream and downstream petroleum industry. The relevance of this education, combined with our careful selection of candidates, has encouraged oil and gas companies to target our graduates for recruitment over the years.

The petroleum industry is subject to dramatic changes of fortune over time, with the oil price capable of very rapid rates of change in either direction. Petroleum, however, remains the dominant source of energy with current world production of oil and gas at record rates. In this environment, companies face increasing technological and commercial challenges to keep their wells flowing and are increasingly dependent on input from petroleum engineers and geoscientists. 

It is widely recognised that a steady influx of fresh people and ideas is vital for the longer-term success and stability of an organisation. As a result, it is expected that recruitment will continue, especially if you have the motivation and appropriate qualifications.



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The MSc in Petroleum Engineering is designed to equip students with the knowledge and skills to tackle the oil and gas industry’s most challenging problems. Read more

The MSc in Petroleum Engineering is designed to equip students with the knowledge and skills to tackle the oil and gas industry’s most challenging problems. Upon graduating students will be able to understand, frame and solve the most complex of upstream problems in today’s petroleum industry.

These courses provide specialist education tailored to the requirements of the upstream petroleum industry. The relevance of this education, combined with careful selection of candidates, has encouraged oil and oilfield service companies to target Heriot-Watt for recruitment of graduates since 1976.

The Petroleum Engineering degree is delivered by the Institute of Petroleum Engineering, a world-leading Institute committed to delivering research and training programmes that meet the needs of the international petroleum industry. Students have been attending the Institute of Petroleum Engineering at Heriot-Watt University to study for the MSc programme in Petroleum Engineering since 1975.

Course details

The MSc in Petroleum Engineering is a programme of lectures and project work, encompassing a wide range of petroleum engineering fundamentals, relevant to the current petroleum engineering industry.

Project work provides an opportunity for ideas and methods, assimilated through lectures and tutorials, to be applied to real field evaluation and development design problems. The courses on this programme are applied in nature and have been specifically designed so that our students are technically well prepared for, and have a sound knowledge of, the industry.

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



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Petroleum engineering is key to the functioning of the modern world, providing both energy and materials for industry. Teesside is a major European centre for the chemical and petroleum processing sector, making it an ideal location for individuals seeking to study for an MSc with industrial relevance. Read more

Petroleum engineering is key to the functioning of the modern world, providing both energy and materials for industry. Teesside is a major European centre for the chemical and petroleum processing sector, making it an ideal location for individuals seeking to study for an MSc with industrial relevance.

Course details

The programme of lectures and project work, encompasses a wide range of petroleum fundamentals, pertinent to the modern petroleum industry. Project work provides an opportunity for ideas and methods, assimilated through lectures and tutorials, to be applied to real field evaluation and development design problems. The course is applied in nature and has been designed so that on completion, you are technically well prepared for a career in industry.

Professional accreditation

Our MSc Petroleum Engineering is accredited by the Energy Institute, under licence from the Engineering Council. This means that it meets the requirements for further learning for Chartered Engineer (CEng) under the provisions of UK-SPEC.

By completing this professionally accredited MSc you could benefit from an easier route to professional membership or chartered status, and it can help improve your job prospects and enhance your career. Some companies show preference for graduates who have a professionally accredited qualification, and the earning potential of chartered petroleum engineers can exceed £100,000 a year.

Teesside University Society of Petroleum Engineering student chapter

Our Society of Petroleum Engineering (SPE) student chapter is one of only nine in the UK. SPE is the largest individual member organisation serving managers, engineers, scientists and other professionals worldwide in the upstream segment of the oil and gas industry. Through our SPE chapter we can invite professional speakers from industry, and increase the industrial networking opportunities for students. 

What you study

For the Postgraduate Diploma (PgDip) award you must successfully complete 120 credits of taught modules. For an MSc award you must successfully complete 120 credits of taught modules and a 60-credit master's research project.

You select your master’s research projects from titles suggested by either industry or our academic staff, but you may also, with your supervisor’s agreement, suggest your own titles. 

Student projects

Here are some examples of the Major Project module developed by our MSc Petroleum Engineering students.

View the projects

Course structure

Core modules

  • Drill Engineering and Well Completion
  • Hydrocarbon Production Engineering
  • Material Balance and Recovery Mechanisms
  • Petroleum Chemistry
  • Petroleum Economics and Simulation
  • Petroleum Reservoir Engineering
  • Practical Health and Safety Skills
  • Research and Study Skills

MSc candidates

  • Research Project

Modules offered may vary.

Teaching

How you learn

The course is delivered using a series of lectures, tutorials and laboratory sessions.

Our MSc Petroleum Engineering is supported by excellent laboratory and engineering machine workshop facilities including fluid flow measurement, computer modelling laboratories, other laboratories and workshops, an excellent library and computing facilities. We have invested around £150,000 in laboratory equipment particularly in within core analysis and enhanced oil recovery. 

We have several computer laboratories equipped with specialised and general-purpose software. This generous computing provision gives you extended access to industry-standard software – it allows you to develop skills and techniques using important applications. For upstream processes, Teesside University has access to educational software packages like Petrel, Eclipse, CMG, PIPESIM and Ecrin to simulate the behaviour of oil reservoirs, calculating oil in situ, and oil and gas production optimisation. As for downstream processes, you can use HYSYS to test different scenarios to optimise plant designs. 

Petroleum Experts Ltd has donated to Teesside University a network system and 10 educational licences for the IPM suite (Integrated Production Modelling software) which includes Prosper, Gap, Mbal, Pvtp, Reveal and Resolve. This £1.3m system and software is used by our students to design complete field models including the reservoir tanks, all the wells and the surface gathering system.

Petroleum laboratory facilities

Enhanced oil recovery and core analysis laboratory

The flow through porous media, enhanced oil recovery techniques and core analysis is done in the core flooding lab. The lab is equipped with core plugging and trimming, core preparation and conventional core properties measurement equipment. At a higher level, the lab is also equipped to perform some special core analysis measurements such as fluid relative permeabilities as well as rock surface wetting quantification. 

Petrophysics laboratory

The petrophysics lab allows you to study the properties of rocks, particularly the measurement of porosity and evaluation of permeability. The lab is equipped with sieve analysis equipment to investigate grain sorting and its effect on permeability and the porosity of rocks. You are able to gauge saturation and fluid flow through porous media.

Surface characterisation laboratory

The rock surface characterisation lab is equipped with a zeta analyser to measure the rock surface electric charge. You study the rock surface wetting state, adsorption and desorption potential using digitised contact angle apparatus and thermos-gravimetric apparatus respectively.

Drilling laboratory

The drilling lab is equipped with mud measurement equipment including mud density, mud rheology and mud filtration systems to enable you to measure mud cake and formation damage. The lab highlights the importance of oilfield drilling fluids.

How you are assessed

Assessment varies from module to module. The assessment methodology could include in-course assignments, design exercises, technical reports, presentations or formal examinations. For your MSc project you prepare a dissertation.

Employability

These courses provide specialist education tailored to the requirements of both the upstream and downstream petroleum industry. The relevance of this education combined with careful selection of candidates has encouraged oil and gas companies to target our graduates for recruitment over the years.

The petroleum industry is subject to dramatic changes of fortune over time, with the oil price capable of very rapid rates of change in either direction. Petroleum, however, remains the dominant source of energy, with current world production of oil and gas at record rates. In this environment, companies face increasing technological and commercial challenges to keep their wells flowing and are increasingly dependent on input from petroleum engineers and geoscientists. 



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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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Your programme of study. If have an engineering, science or mathematics degree and you are considering work in the oil and gas industry worldwide Petroleum Engineering can provide you with a wide range of knowledge and skills within the upstream oil and gas extraction area. Read more

Your programme of study

If have an engineering, science or mathematics degree and you are considering work in the oil and gas industry worldwide Petroleum Engineering can provide you with a wide range of knowledge and skills within the upstream oil and gas extraction area. The programme mainly focuses on the skills you need to extract oil which can be the initial geoscience knowledge through to core analysis and reservoir engineering. Within reservoir and well engineering there are several areas of analysis, testing and development you then specialise in. This ensures you have a very robust approach to offshore production with the type of advanced skills to problem solve and troubleshoot different situations.

The programme also develops your skills in formation evaluation, simulation, and appraisal plus safe production and enhancing the recovery of hydrocarbon oil and gas. This programme is highly regarded in the industry internationally and it is recognised by all major players in the oil and gas industry. Careers can be anything from Drilling, Operations, Piping Specification, Production, Reservoir, Subsurface and Wellhead Engineer. The degree hold accreditation from the Energy Institute and Institute of Mechanical Engineers.

This programme is relevant for any oil and gas professional or professional interested in working in the industry worldwide. It is taught by world renowned international experts from the industry, researching and teaching the skills and knowledge necessary. Aberdeen is seen as the oil and gas European capital of the industry with major FTSE 100 multinationals located in the city.

Courses listed for the programme

Semester 1

  • Fundamentals of Petroleum Geoscience
  • Petrophysics, Core Analysis, and Formation Evaluation
  • Reservoir Engineering
  • Well and Production Engineering

Semester 2

  • Reservoir Simulation
  • Well Test: Analysis and Design
  • Field Development and Petroleum Economics
  • Enhanced Oil Recovery

Semester 3

  • Project in Petroleum Engineering

Find out more detail by visiting the programme web page

for online delivery

Why study at Aberdeen?

  • You get accreditation from the Energy Institute and Institute of Mechanical Engineers
  • The programme is jointly delivered from the department of Geology and Engineering
  • Petroleum Engineering is highly regarded and designed with the industry
  • This programme is also delivered in an online version

Where you study

  • University of Aberdeen
  • 12 Months Full Time or 24 Months Part Time
  • September or January start
  • There is an online programme available from University of Aberdeen to study flexibly (details above)

International Student Fees 2017/2018

Find out about international fees:

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page and the latest postgraduate opportunities

Living in Aberdeen

Find out more about:

Your Accommodation

Campus Facilities

Find out more about living in Aberdeen and living costs

Other engineering disciplines you may be interested in:



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The modern society relies on the work of Chemical Engineers who develop and design the processes that make the useful products for the society by efficient use and management of resources including water and energy while controlling health and safety procedures and protecting the environment. Read more
The modern society relies on the work of Chemical Engineers who develop and design the processes that make the useful products for the society by efficient use and management of resources including water and energy while controlling health and safety procedures and protecting the environment.

Chemical Engineering provides essential tools based on the concept of sustainability and low carbon footprint for changing raw materials into useful products in a safe and cost effective way. Chemical Engineers understand how to alter the chemical, biochemical or physical state of a substance, to create everything from health care products (face creams, shampoo, perfume, drugs) to food (dairy products, cereals, agro-chemicals) and water (desalination for freshwater) to energy (petroleum to nuclear fuels).

Your study at MSc level at Bradford will be a foundation for life aimed at developing a deep understanding of advanced technical principles, analytical tools, and competence in their application together with a wide range of management, personal and professional skills. The course will provide you with essential tools based on the concept of sustainability and low carbon footprint for changing raw materials into useful products in a safe and cost effective way.

Why Bradford?

Flexibility of career path – Choice of three routes:
-Chemical Engineering - advanced chemical engineering and process technology skills for exciting and challenging careers in chemical and process industries
-Petroleum Engineering -matches the needs in different areas of oil and gas production and in medium/small operating and consulting companies
-Polymer Engineering - design and operation of processes to engineer materials with advanced properties leading to careers in diverse manufacturing sectors

Research Strengths - Internationally acclaimed research activities in the following areas:
-Chemical and Petrochemical Engineering
-Polymers
-Energy
-Water
-Pharmaceutical engineering
-Coating and advanced materials engineering

Rankings

Top Five: Chemical Engineering at the University of Bradford is ranked 5th in the UK in the Guardian University League Table 2017/

[[Modules
MSc Chemical & Petroleum Engineering (Chemical Engineering Background)
-Desalination Technology
-Materials & Manufacturing Processes
-Transport Phenomena
-Design Optimisation
-Computational Fluid Dynamics
-Upstream Production & Refinery Operations
-Research Skills
-Food & Pharmaceutical Processes Engineering
-Polymer Engineering
-Risk Management
-Engineering Computational Methods
-MSc Project

MSc Chemical & Petroleum Engineering (non-Chemical Engineering Background)
-Desalination Technology
-Transport Phenomena
-Chemical Engineering Practice
-Material & Manufacturing Processes
-Design Optimisation
-Computational Fluid Dynamics
-Upstream Production & Refinery Operations
-Research Skills
-Food & Pharmaceutical Processes Engineering
-Polymer Engineering
-Risk Management
-Engineering Computational Methods
-MSc Project

Career support and prospects

The University is committed to helping students develop and enhance employability and this is an integral part of many programmes. Specialist support is available throughout the course from Career and Employability Services including help to find part-time work while studying, placements, vacation work and graduate vacancies. Students are encouraged to access this support at an early stage and to use the extensive resources on the Careers website.

Discussing options with specialist advisers helps to clarify plans through exploring options and refining skills of job-hunting. In most of our programmes there is direct input by Career Development Advisers into the curriculum or through specially arranged workshops.

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Your programme of study. This is a flexible online programme which offers you a variety of study options to gain your MSc in Petroleum Engineering from as little as 36 months to a maximum of 72 months to complete with 10-12 hours of study per week on average. Read more

Your programme of study

This is a flexible online programme which offers you a variety of study options to gain your MSc in Petroleum Engineering from as little as 36 months to a maximum of 72 months to complete with 10-12 hours of study per week on average. You can study this programme from anywhere in the world and it offers the same academic rigour you would expect if you were studying on campus at University of Aberdeen but you can fit it around a busy life, work, other responsibilities and much more.

If have an engineering, science or mathematics degree and you are considering work in the oil and gas industry worldwide Petroleum Engineering can provide you with a wide range of knowledge and skills within the upstream oil and gas extraction area. The programme mainly focuses on the skills you need to extract oil which can be the initial geoscience knowledge through to core analysis and reservoir engineering. Within reservoir and well engineering there are several areas of analysis, testing and development you then specialise in. This ensures you have a very robust approach to offshore production with the type of advanced skills to problem solve and troubleshoot different situations.

The programme also develops your skills in formation evaluation, simulation, and appraisal plus safe production and enhancing the recovery of hydrocarbon oil and gas. This programme is highly regarded in the industry internationally and it is recognised by all major players in the oil and gas industry. Careers can be anything from Drilling, Operations, Piping Specification, Production, Reservoir, Subsurface and Wellhead Engineer. The degree hold accreditation from the Energy Institute and Institute of Mechanical Engineers

Courses listed for the programme

Find out more detail by visiting the programme web page

Why study at Aberdeen?

  • The programme is fully flexible to allow you to study wherever you are online
  • You will acquire skills and knowledge from a programme closely linked to industry needs
  • You study with a university situated in the heart of the European and world Energy Industry, many companies are located here
  • You study with two highly regarded departments in Geology and Engineering and at University of Aberdeen which is very well known in the oil and gas industry globally
  • You can pay by module and take the degree over a longer period up to six years

Where you study

  • Online Learning
  • 5 Months, 27 Months, or 30 Months
  • Part Time
  • September or January start

International Student Fees 2017/2018

Find out about international fees:

  • International
  • EU and Scotland
  • Other UK

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page and the latest postgraduate opportunities

You may be also interested in the campus delivery of this programme

Related Postgraduate Degrees

Other engineering disciplines you may be interested in:



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This MSc is a one-year, full-time course that trains petroleum engineering professionals to understand and effectively utilise the workflow concepts now prevailing in the oil industry, and prepares them fully for work in multidisciplinary teams. Read more
This MSc is a one-year, full-time course that trains petroleum engineering professionals to understand and effectively utilise the workflow concepts now prevailing in the oil industry, and prepares them fully for work in multidisciplinary teams.

The programme provides a 12-month conversion from other engineering and science-based foundations into the specialties of petroleum engineering, and is designed for both those with industrial experience and recent graduates.

In recent years, we have taken graduates from a wide range of academic backgrounds from Chemical/Mechanical Engineering to Physics and Economics.

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As a graduate student in the Department of Chemical and Petroleum Engineering, you'll have the opportunity to make a difference in the world by being part of an active research community that conducts valuable research on practical problems. Read more
As a graduate student in the Department of Chemical and Petroleum Engineering, you'll have the opportunity to make a difference in the world by being part of an active research community that conducts valuable research on practical problems.

Our department attracts over $15 million each year in research funding and is internationally recognized for its research in biomedical engineering, chemical processing, energy, environment, and advanced materials.

The Schulich School of Engineering is located in Calgary, the energy capital of Canada, which gives us a strong connection to the oil and gas industry. Our professors understand the needs and challenges of the industry and can prepare students for successful careers in this growing and evolving sector.

What degree programs are offered?

Master of Science
The MSc is a research-based degree that usually takes two years of full-time study beyond a bachelor's degree.

Master of Engineering (course based)
This MEng program can be taken on either a full time or part time basis. However, it is normally expected that those enrolled in the Petroleum Specialization will complete all of their course requirements in two terms of full time study. Part time students typically require four to six years of study beyond a bachelor's degree in order to complete their course requirements.

Master of Engineering (thesis based)
This MEng program is a thesis-based degree that usually takes two years of full-time study beyond a bachelor’s degree. Note: the MEng thesis based program is temporarily suspended. This program is only offered in exceptional cases.

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This course is suited to those with an eye for materials, material structure and material mechanics. Our course aims to extend your understanding of the core disciplines of civil engineering and widen your professional scope to include expertise in geotechnical engineering. Read more

Why take this course?

This course is suited to those with an eye for materials, material structure and material mechanics.

Our course aims to extend your understanding of the core disciplines of civil engineering and widen your professional scope to include expertise in geotechnical engineering. From ground investigations to soil structure testing, you will gain the analytical and technical skills required to make informed decisions when faced with the complex geotechnical problems of construction projects.

What will I experience?

On this course you can:

Attend lectures and seminars given by practitioners from client, contracting and consulting organisations
Gain experience of environmental assessment techniques plus a range of other skills such as mapping using GIS, GPS and remote sensing technologies
Opt to study overseas at a variety of European universities through the ERASMUS exchange scheme

What opportunities might it lead to?

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

Here are some routes our graduates have pursued:

Civil engineering
Mining companies
Petroleum companies
The military
Consultancy

Module Details

The course is divided into three stages, the first two stages are generally taught through formal tuition, with stage three covering independent research in an academic or industrial setting.

You will build upon established fundamental civil/construction engineering and project management principles in order to confidently apply them to a range of complex construction project problems with due regard to related geotechnical factors.

Here are the units you will study:

Environmental Management for Civil Engineering: This unit introduces you to the main environmental issues associated with civil engineering projects and how they are considered and mitigated in the Environmental Assessment process.

Civil Engineering Science: In this unit you will study integrated topics of analytical structural analysis, numerical analysis and solving engineering problems. Whilst being an introduction to the finite element method (FEM) and application of FEM software packages, this unit aims to give you the ability to solve engineering problems in the design of real structures.

Geotechnical Engineering Design Project: This unit gives you an opportunity to simulate the design activities of a civil engineering consultancy. Project briefs are typically drawn from the work of professional contacts in the civil engineering industry. You will be required to make professional contacts, obtain advice and guidance, carry out research and conduct site visits outside the University.

Strategic and General Management: You will cover management in the construction industry, and the development of organisational and project strategic direction, taking into account internal and external environments.

Independent Research Project: This covers the generic research framework within which new knowledge is discovered, and involves the practical application of research skills and techniques to a chosen system within the construction industry.

Programme Assessment

Teaching on this course will focus on small lectures, seminars and discussion groups. It will also centre on supporting your independent learning strategies, which tutorials will help to develop.

Assessment can take many forms and is geared towards the subject matter in a way that encourages a deeper understanding and allows you to develop your skills. It includes:

Examinations
Coursework
Projects
A dissertation

Student Destinations

This course is designed to equip you with knowledge, skills and competencies that employers in the construction industry expect. Alongside the technical topics, you will develop commercial and interpersonal skills required of construction industry professionals.

There is currently a huge demand for geotechnical engineering specialists within the civil engineering sector. This fact, combined with the vocational nature of this course and the extensive training you will receive, means that you are likely to quickly find employment in the industry. Potential roles will include geotechnical engineers, mining engineers and tunnelling engineers for major mining companies, as well as environmental and geotechnical consultancies.

Overall, the delivery of this course and its opportunities for you to interact with the industry throughout your studies means the employment rate of our civil engineering graduates is excellent.

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Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Read more

Mission and goals

Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Energy plants are systems in which energy forms are transformed and utilized. To name a few examples: large thermal power stations, air-conditioning and climate control equipment for residences and offices, vehicle engines, airplane propellers, solar panels etc.
The Master of Science in Energy Engineering prepares professionals to design, select and use the main technologies in energy transformation, to actively follow scientific improvements and to operate effectively in a competitive and multi-disciplinary industrial context, characterized by significant environmental, regulatory and safety constraints. Students will analyze broad themes as well as specific subjects for which both a rigorous methodological approach to thermodynamics and an open attitude towards related interdisciplinary topics are required.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-track/

Professional opportunities

Graduates can find employment in several sectors: in the technical area of designing, testing, running, and maintaining the energy systems, like heating and cooling systems, thermal power and hydro-electric power plants, engines, oil and gas fields; in the energy management area; and in utilities and public boards that supply energy as electricity and natural gas.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Energy_Engineering_MI.pdf
Energy Engineering is the branch of engineering concerned with the design and the management of energy plants and their components in order to ensure the best use of the available resources with the minimum environmental impact. Energy plants are
systems in which energy forms are transformed and utilized. To name a few examples: large thermal power stations, air-conditioning and climate control equipment for residences and offices, vehicle engines, airplane propellers, solar panels etc. The Master of Science in Energy Engineering prepares professionals to design, select and use the main technologies in energy transformation, to actively follow scientific improvements and to operate effectively in a competitive and multi-disciplinary industrial context, characterized by significant environmental, regulatory and safety constraints. Students will analyze broad themes as well as specific subjects for which both a rigorous methodological approach to thermodynamics and an open attitude towards related interdisciplinary topics are required.
Graduates can find employment in several sectors: in the technical area of designing, testing, running, and maintaining the energy systems, like heating and cooling systems, thermal power and hydro-electric power plants, engines, oil and gas fields; in the energy management area; and in utilities and public boards that supply energy as electricity and natural gas. The programme is taught in English.

Subjects

- Five tracks available: Power Production; Heating, Ventilation and Air-Conditioning; Oil and Gas Engineering; Energy Engineering for an Environmentally Sustainable World (offered on Piacenza campus, see separate leaflet); Energy for Development.

- Subjects and courses common to all the tracks: Heat and Mass Transfer; Fundamentals of Chemical Processes; Advanced Energy Engineering and Thermoeconomics;; Combustion and Safety; Energy Conversion or Refrigeration, Heat Pumps and Thermal Power Systems and Components; Energy Economics or Project Management or Management Control Systems; Graduation Thesis.

- Optional subjects according to the selected track: Development Economy; Engineering and Cooperation for Development; Power Production from Renewable Sources; Engineering of Solar Thermal Processes; Petroleum Reservoir Engineering; Petroleum Technology and Biofuel; Transport Phenomena in the Reservoirs; CFD for Energy Engineering Analysis; System and Electrical Machines; Advanced Energy Systems; Dynamic Behavior and Diagnostics of Machines; Materials for Energy; Turbomachinery; Internal Combustion Engines; Air Conditioning and Room Pollutant-Controlling Plants, Energy Savings and Renewable Energies in Buildings; Applied Acoustics and Lighting; Design of Thermal Systems; Energy Systems and Low-Carbon Technologies; Air Pollutions and Control Engineering; Operation and Control of Machines for Power Generation; Bio-energy and Waste-to-Energy Technologies; Smart Grids and Regulation for Renewable Energy Sources.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-track/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/energy-engineering/energy-engineering-track/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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This programme will equip you with the essential knowledge for engineering careers in the oil, gas and petrochemical sectors. Read more

This programme will equip you with the essential knowledge for engineering careers in the oil, gas and petrochemical sectors.

Upon completion of the course you will have gained a comprehensive understanding of oil refining and associated downstream processing technologies, operations and economics; process safety and operations integrity; and methods for the optimal design of process systems.

You will learn about the general economics of the energy sector, oil exploration and production, as well as renewable energy systems.

Furthermore, your study of the various aspects of petroleum refining will be augmented by unique work assignments at a virtual oil-refining and chemical company.

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.

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.

Educational aims of the programme

The programme aims to provide a highly vocational education that equips the students with the essential knowledge and skills required to work as competent engineers in the petrochemical sector.

This is to be achieved through combining proper material in two popular and complementary topics: process systems engineering and petroleum refining. The key objective is to develop a sound understanding of oil refining and downstream processing technologies, process safety and operation integrity, as well as systems methods for the optimal design of process systems.

A balanced curriculum is provided with essential modules from these two areas supplemented by a flexible element by way of elective modules that permit students to pursue subjects of preference relevant to their backgrounds, interests and/or career aspirations.

An integrated approach is taken so as to provide a coherent view that explores the interrelationships between the various components of the programme.

Programme learning outcomes

Knowledge and understanding

The programme aims to develop the knowledge and understanding in both petroleum refining and systems engineering. The key learning outcomes include:

  • State-of- the-art knowledge in petroleum refining and petrochemical processing, in terms of the technologies of processes that comprise a modern refinery and petrochemicals complex
  • The principles for analysing and improving the profitability of refining and petrochemicals processing
  • General Safety, health, and environment (SHE) principles on a refinery and petrochemicals complex
  • Methods and systems for ensuring safe and reliable design and operation of process units
  • State-of- the-art knowledge in process systems engineering methods, in the areas of: modelling and simulation of process systems, mathematical optimization and decision making, process systems design and process and energy integration
  • Advanced level of understanding in technical topics of preference, in one or more of the following aspects: petroleum exploration and production, economics of the energy sector, sustainable and renewable systems, supply chain management

Intellectual / cognitive skills

The programme aims to strengthen cognitive skills of the students, particularly in the aspects of problem definition, knowledge and information acquiring, synthesis, and creativity, as collectively demonstrable through the successful completion of the research dissertation.

The key learning outcomes include the abilities to:

  • Select, define and focus upon an issue at an appropriate level
  • Collect and digest knowledge and information selectively and independently to support a particular scientific or engineering enquiry
  • Develop and apply relevant and sound methodologies for analysing the issue, developing solutions, recommendations and logical conclusions, and for evaluating the results of own or other’s work

Professional practical skills

The programme primarily aims to develop skills for applying appropriate methods to the design and operation of petroleum refining processes. The key learning outcomes include the abilities to:

  • Apply knowledge of the operation of refineries to analyze and to improve the profitability of refining and petrochemical processing
  • Apply relevant principles, methods, and tools to improve the safety and operation integrity of refineries
  • Apply systems engineering methods such as modelling, simulation, optimization, and energy integration to improve the design of petroleum refining units and systems

Key / transferable skills

The programme aims to strengthen a range of transferable skills that are relevant to the needs of existing and future professionals in knowledge intensive industries irrespective of their sector of operation.

The key learning outcomes include the further development of the skills in the following areas:

  • Preparation and delivery of communication and presentation
  • Report and essay writing
  • Use of general and professional computing tools
  • Collaborative working with team members
  • Organizing and planning of work
  • Research into new areas, particularly in the aspect of literature review and skills acquisition

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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The University of British Columbia Geological Engineering programme is a postgraduate course awarding a research-based Master of Applied Science or a taught Master of Engineering. Read more

The University of British Columbia Geological Engineering programme is a postgraduate course awarding a research-based Master of Applied Science or a taught Master of Engineering.

Students complete training and research projects according to their qualification pathway.

Program Overview

The Geological Engineering Program is intended for students interested in the application of earth sciences principles to engineering problems. While most geological engineering degree programs are based in the Department of Earth, Ocean and Atmospheric Sciences, students may also base their studies in allied Applied Science departments such as Civil or Mining Engineering. The program is highly interdisciplinary and draws upon courses, laboratories, and faculty members from the departments of Earth, Ocean and Atmospheric Sciences, Civil Engineering, Mining Engineering, Forestry, Geography, and others. Graduate students are often co-supervised by faculty members from different departments.

Geological engineering faculty members in the Department of Earth, Ocean and Atmospheric Sciences have research interests in the following general areas:

- landslides, debris flows, engineering geology, slope stability

- groundwater hydrology, groundwater contamination and remediation, reactive transport modeling, environmental geochemistry

- rock engineering, rock slopes, and tunneling

Other research areas include geotechnical engineering, environmental geology, engineering geology, economic geology, and applied geophysics. The specific fields of study may involve geomorphology and terrain analysis, groundwater hydrology, natural hazards, slope stability, petroleum and coal geology, coalbed methane, mineral prospecting and valuation, and other similar subjects. Students are encouraged to consult individual faculty members for information about current research areas.

Admission to graduate studies in geological engineering is open only to students with an undergraduate degree in engineering or, at the discretion of the program director, to students with sufficient engineering work experience.

Quick Facts

- Degree: Master of Applied Science (research-based), Master of Engineering (course-based, 1 year)

- Specialization: Geological Engineering

- Subject: Engineering

- Mode of delivery: On campus

- Faculty: Faculty of Science

Funding

The following postgraduate funding may be available to study Geological Engineering at the University of British Columbia.

Canadian postgraduate funding

Funding from FindAMasters:



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The Mechanical Engineering MSc is designed to offer an advanced level of study in specific aspects of mechanical engineering that are in demand from industry. Read more

The Mechanical Engineering MSc is designed to offer an advanced level of study in specific aspects of mechanical engineering that are in demand from industry. The degree comprises study in analysis and design of power machinery systems, engineering structures, vibration, control and the use of computers in advanced engineering analysis.

About this degree

You will develop an advanced knowledge of mechanical engineering and associated disciplines, alongside an awareness of the context in which engineering operates, in terms of safety, environmental, social and economic aspects. Alongside this you will gain a range of intellectual, practical and transferable skills necessary to develop careers in this field.

Students undertake modules to the value of 180 credits.

The programme consists of six core modules (90 credits), optional modules (15 credits), and a research project (75 credits).

Core modules

  • Advanced Computer Applications in Engineering
  • Group Project
  • Materials and Fatigue
  • Vibrations, Acoustics and Control
  • Project Management
  • Power Transmission and Auxiliary Machinery Systems

Optional modules

One of the following subject to availability:

  • Applied Thermodynamics and Turbomachinery
  • Heat Transfer and Heat Systems
  • New and Renewable Energy Systems

Dissertation/report

Culminating in a substantial dissertation, the research project, which often has industry input, focuses your research interests and develops high-level presentation and critical thinking skills.

Teaching and learning

This dynamic programme is delivered through a combination of lectures, seminars, tutorials and example classes all of which frequently draw upon real-life industrial case studies. Each module is assessed by coursework submission alone or a combination of examination and coursework. Some include an oral presentation of project or assignment work.

Further information on modules and degree structure is available on the department website: Mechanical Engineering MSc

Careers

Engineering graduates with good analytical abilities are in high demand and our graduates have little difficulty gaining employment across many industries. The programme specifically aims to equip students with skills in analysis and design such that they can be employed as professional engineers in virtually any sector of the mechanical engineering industry.

Recent career destinations for this degree

  • Graduate Mechanical Engineer, Babcock
  • Graduate Trainee, Jaguar Land Rover
  • Petroleum Engineer, Total
  • Facility Engineer, Nigerian Agip Oil Company (NAOC)
  • PhD in Mechanical Engineering, UCL

Employability

Delivered by leading researchers from across UCL, you will definitely have plenty of opportunities to network and keep abreast of emerging ideas. Collaborating with companies and bodies such as the Ministry of Defence and industry leaders such as BAE Systems and Shell are key to our success and we will encourage you to develop networks through the programme itself and via the department’s careers programme which includes employer-led events and individual coaching. We equip our graduates with the skills and confidence needed to play a creative and leading role in the professional and research community.

Careers data is taken from the ‘Destinations of Leavers from Higher Education’ survey undertaken by HESA looking at the destinations of UK and EU students in the 2013–2015 graduating cohorts six months after graduation.

Why study this degree at UCL?

UCL Mechanical Engineering scored highly in the UK's most recent Research Excellence Framework survey with research in such diverse areas as Formula 1, biomedical engineering and naval architecture. The department is located in the centre of one of the most dynamic cities in the world.

The department has an international reputation for the excellence of its research which is funded by numerous bodies including: the Royal Society, the Leverhulme Trust, UK Ministry of Defence, BAE Systems, Cosworth Technology, Shell, BP, Lloyds Register Educational Trust, and many others.

The Mechanical Engineering MSc has been accredited by the Institute of Mechanical Engineers (IMechE) and the Institute of Marine Engineering, Science & Technology (IMarEST) as meeting the further learning requirements, in full, for registration as a Chartered Engineer for a period of five years, from the 2017 student cohort intake.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Mechanical Engineering

90%: Aeronautical, Mechanical, Chemical and Manufacturing Engineering subjects; 95%: General Engineering subjects rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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IN BRIEF. The first course of its kind in the UK. Enhances your career prospects in the oil and gas industries. Gives you the opportunity to become a Chartered Engineer. Read more

IN BRIEF:

  • The first course of its kind in the UK
  • Enhances your career prospects in the oil and gas industries
  • Gives you the opportunity to become a Chartered Engineer
  • Part-time study option
  • International students can apply

COURSE SUMMARY

This course is designed for engineering graduates who intend to enter or enhance their career prospects in the oil or natural gas industry. It will be re-accredited by the IGEM in 2016.

The course explores the geology, exploration, drilling, production (surface and subsurface), reservoir engineering and management, distribution and transmission of oil and gas from practical and theoretical viewpoints.

You will develop the knowledge and the skills for problem solving in terms of development, design, business and economics management in oil and gas engineering which will assist you to make management and scientific decisions in the workplace.

On completion of this course you may be eligible to join the Institution of Gas Engineers & Managers or Society of Petroleum Engineers which may enable you to qualify as a Chartered Engineer.

COURSE DETAILS

As well as studying the topics outlined in the following modules you will be expected to develop, to a professional standard, a number of transferable skills such as numeracy skills by way of quantitative mathematical analysis, problem solving skills, communication skills during group work, laboratory report writing and time management skills.

DURATION:

September intake

MSc (one year full-time or two years part-time)

PgDip (nine months full-time or one year and six months part-time)

January intake

MSc (one year and four months full-time or two years and eight months part-time)

PgDip (one year full-time or two years part-time)

TEACHING

Teaching will be carried out as formal lectures, laboratories, tutorials and workshops

ASSESSMENT

Petroleum and Gas Engineering students are required to attend all of the modules. There are seven examination sessions. Students must pass all the modules studied with an overall average of at least 50% in the module programmes and in the course assessed work.

All laboratory and course assessed work must be submitted on time and to the required standard.

Students admitted to the course at Diploma level with examination and coursework of 50 % may proceed to MSc level. (120 Credits)

MSc Students must undertake a dissertation (60 Credits) on any aspect of the natural gas business either experimentally or computationally. The project can frequently relate to research work already in the school and or natural gas engineering and management.

CAREER PROSPECTS

Due to the relative uniqueness of this course in the UK, together with the high demand of graduates with the types of skills and knowledge that this course offers, employment prospects are excellent.

Graduates can expect to enter or progress in industries such as petroleum, gas, process engineering, chemical or steel.

LINKS WITH INDUSTRY

This programme is strongly supported by major petroleum and gas engineering technology providers.

You will be assessed by both coursework 50% and examinations 50%



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