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Glasgow Caledonian University, Full Time MSc Degrees in Engineering

We have 15 Glasgow Caledonian University, Full Time MSc Degrees in Engineering

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Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. Read more

Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. As a student of GCU's MSc Mechanical Engineering, you'll continue in this tradition. The programme is designed to expand your core knowledge of the discipline while enhancing your skills as a specialist in either design or manufacture.

The programme was developed according to the UK Engineering Council's benchmark requirements for professional engineering, ensuring you'll enter the workforce with the relevant capabilities that employers value. It is also accredited by the Institution of Mechanical Engineers (IMechE). Furthermore, our industrial advisory board offers strong connections to industry.

GCU's mechanical engineering department contributes to important research in the discipline, investigating topics like materials and manufacturing, finite element analysis, computer-aided design and manufacture, and machine condition monitoring.

The MSc Mechanical Engineering curriculum encourages you to develop as a professional as well as an engineer.

  • Build your interpersonal skills to succeed as a team member and manager
  • Explore topics such as project planning and methodology, strategy and innovation, and computer-aided engineering
  • Practise managing resources and meeting project objectives
  • Choose from two options for specialisation: Design or Manufacture

When you study engineering at GCU, you'll join a welcoming community of learners and professionals. You'll find classmates and colleagues who are creative and entrepreneurial, committed to using their expertise to make a positive impact and advance the common good.

What you will study

The programme offers two specialist study options; Design and Manufacture. These options share a number of common modules that directly reflect the activities of a professional mechanical engineer. Students complete eight taught modules - four in trimester A and four in trimester B; and an MSc dissertation in trimester C.

  • Project Planning and Methodology
  • Strategy and Innovation
  • Advanced Computer-Aided Engineering
  • Condition Monitoring
  • Project
  • Specialist Modules (Design)
  • Specialist Modules (Manufacture)

Assessment methods

The taught modules are either assessed by coursework only or a combination of coursework and examination. In the later case the final mark is determined by weighted average of the two elements. The MSc project is assessed by project reports, practical operation and an electronic presentation.

Professional accreditation

The development of these Masters options is in direct response to the specification of benchmark requirements for professional competence by the UK's Engineering Council (UK-SPEC). This programme is accredited by the Institution of Mechanical Engineers (IMechE).

Why choose this programme?

The MSc in Mechanical Engineering has very strong industrial links through its industry advisory board. The school participates in many research activities within the area of mechanical engineering. This includes; advanced materials and manufacturing processes, finite element analysts, computer-aided design and manufacture and machine condition monitoring.

HM Forces

In partnership with HM Forces, GCU has identified this programme is being particularly suited to military and ex-military men and women. Visit the HM Forces Careers Zone for more information on the services we provide.

Graduate prospects

Our graduates are appreciated by employers for their career-focused attitudes and socially driven perspectives. With skilled engineers in high demand, you can expect excellent job prospects in the field.

Graduates of the MSc Mechanical Engineering find employment in the oil and gas industry, defence, computer-aided engineering and building. They also work in mechanical design engineering, project engineering, manufacturing engineering and engineering sales.



Read less
Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. Read more

Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. As a student of GCU's MSc Mechanical Engineering, you'll continue in this tradition. The programme is designed to expand your core knowledge of the discipline while enhancing your skills as a specialist in either design or manufacture.

The programme was developed according to the UK Engineering Council's benchmark requirements for professional engineering, ensuring you'll enter the workforce with the relevant capabilities that employers value. It is also accredited by the Institution of Mechanical Engineers (IMechE). Furthermore, our industrial advisory board offers strong connections to industry.

GCU's mechanical engineering department contributes to important research in the discipline, investigating topics like materials and manufacturing, finite element analysis, computer-aided design and manufacture, and machine condition monitoring.

The MSc Mechanical Engineering curriculum encourages you to develop as a professional as well as an engineer.

  • Build your interpersonal skills to succeed as a team member and manager
  • Explore topics such as project planning and methodology, strategy and innovation, and computer-aided engineering
  • Practise managing resources and meeting project objectives
  • Choose from two options for specialisation: Design or Manufacture

When you study engineering at GCU, you'll join a welcoming community of learners and professionals. You'll find classmates and colleagues who are creative and entrepreneurial, committed to using their expertise to make a positive impact and advance the common good.

What you will study

The programme offers two specialist study options; Design and Manufacture. These options share a number of common modules that directly reflect the activities of a professional mechanical engineer. Students complete eight taught modules - four in trimester A and four in trimester B; and an MSc dissertation in trimester C.

  • Project Planning and Methodology
  • Strategy and Innovation
  • Advanced Computer-Aided Engineering
  • Condition Monitoring
  • Project
  • Specialist Modules (Design)
  • Specialist Modules (Manufacture)

Assessment methods

The taught modules are either assessed by coursework only or a combination of coursework and examination. In the later case the final mark is determined by weighted average of the two elements. The MSc project is assessed by project reports, practical operation and an electronic presentation.

Professional accreditation

The development of these Masters options is in direct response to the specification of benchmark requirements for professional competence by the UK's Engineering Council (UK-SPEC). This programme is accredited by the Institution of Mechanical Engineers (IMechE).

Why choose this programme?

The MSc in Mechanical Engineering has very strong industrial links through its industry advisory board. The school participates in many research activities within the area of mechanical engineering. This includes; advanced materials and manufacturing processes, finite element analysts, computer-aided design and manufacture and machine condition monitoring.

HM Forces

In partnership with HM Forces, GCU has identified this programme is being particularly suited to military and ex-military men and women. Visit the HM Forces Careers Zone for more information on the services we provide.

Graduate prospects

Our graduates are appreciated by employers for their career-focused attitudes and socially driven perspectives. With skilled engineers in high demand, you can expect excellent job prospects in the field.

Graduates of the MSc Mechanical Engineering find employment in the oil and gas industry, defence, computer-aided engineering and building. They also work in mechanical design engineering, project engineering, manufacturing engineering and engineering sales.



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
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
If you’ve completed an undergraduate engineering degree and want to continue expanding your knowledge and enhancing your skills, GCU’s MSc Building Services Engineering is for you. Read more

If you’ve completed an undergraduate engineering degree and want to continue expanding your knowledge and enhancing your skills, GCU’s MSc Building Services Engineering is for you. Master this vibrant, essential discipline and achieve eligibility for Chartered Engineer status.

Chartered building services engineers with the broad skillsets to tackle complex technical challenges are in high demand. Their work brings together expertise in both construction and engineering, offering excellent career opportunities. With the advanced post-graduate study offered by GCU’s MSc Building Services Engineering, you’ll be prepared for a successful career in this important field.

The programme is approved by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute. Together with an accredited BEng Honours degree, the MSc provides an educational foundation for you to achieve full CEng status.

  • Broaden your knowledge of all technical aspects of building services design
  • Gain more experience tackling a variety of diverse technical challenges
  • Learn about building management
  • Progress toward full CEng status

At GCU, you’ll find a welcoming community of career-focused professionals who are dedicated to the common good. While you develop your skills and increase your expertise to make a positive impact through your work, your welcoming classmates, colleagues and teachers at GCU will both challenge and support you.

What you will study

The building services engineering profession is a vibrant and important component of both the construction and engineering sectors of industry. The MSc Building Services Engineering is aimed at engineering graduates to enable them to progress towards full chartered (CEng) status.

There is a strong demand for good quality chartered building services engineers who have the wide and multi-disciplinary knowledge that enables them to operate effectively on projects involving diverse technical challenges. Engineers now require a period of postgraduate study after achieving an Honours degree on an accredited BEng programme before they can become eligible for chartered (CEng) status. The MSc Building Services Engineering programme has been designed primarily as a period of further learning to follow an honours degree in building services engineering or environmental engineering.

The programme offers you the opportunity to broaden your knowledge and experience of all technical aspects of building services design as well as providing an understanding of building management.

Assessment methods

Various methods are used to assess the modules depending on the nature of the module. These include written examination, course work, and oral presentation. Normally there is more than one assessment component in each module.

HM Forces

In partnership with HM Forces, GCU has identified this programme is being particularly suited to military and ex-military men and women. Visit the HM Forces Careers Zone for more information on the services we provide.

Accreditation

The programme is approved by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI). The MSc and a suitable accredited BEng (Hons) degree will together form the educational base for full CEng status.

Graduate prospects

The MSc Building Services Engineering will give you the preparation you need for a successful career. With a 96% graduate employment rate for GCU alumni, you can count on excellent prospects.

Graduates of this programme have many options, both within the UK and with firms across the globe. They design mechanical and electrical services for buildings of all kinds, work as consultants or become members of a design-and-build construction team. They manage building or shipping facilities. They also work on either the technical or management side of installing and commissioning equipment and systems.



Read less
If you’ve completed an undergraduate engineering degree and want to continue expanding your knowledge and enhancing your skills, GCU’s MSc Building Services Engineering is for you. Read more

If you’ve completed an undergraduate engineering degree and want to continue expanding your knowledge and enhancing your skills, GCU’s MSc Building Services Engineering is for you. Master this vibrant, essential discipline and achieve eligibility for Chartered Engineer status.

Chartered building services engineers with the broad skillsets to tackle complex technical challenges are in high demand. Their work brings together expertise in both construction and engineering, offering excellent career opportunities. With the advanced post-graduate study offered by GCU’s MSc Building Services Engineering, you’ll be prepared for a successful career in this important field.

The programme is approved by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute. Together with an accredited BEng Honours degree, the MSc provides an educational foundation for you to achieve full CEng status.

  • Broaden your knowledge of all technical aspects of building services design
  • Gain more experience tackling a variety of diverse technical challenges
  • Learn about building management
  • Progress toward full CEng status

At GCU, you’ll find a welcoming community of career-focused professionals who are dedicated to the common good. While you develop your skills and increase your expertise to make a positive impact through your work, your welcoming classmates, colleagues and teachers at GCU will both challenge and support you.

What you will study

The building services engineering profession is a vibrant and important component of both the construction and engineering sectors of industry. The MSc Building Services Engineering is aimed at engineering graduates to enable them to progress towards full chartered (CEng) status.

There is a strong demand for good quality chartered building services engineers who have the wide and multi-disciplinary knowledge that enables them to operate effectively on projects involving diverse technical challenges. Engineers now require a period of postgraduate study after achieving an Honours degree on an accredited BEng programme before they can become eligible for chartered (CEng) status. The MSc Building Services Engineering programme has been designed primarily as a period of further learning to follow an honours degree in building services engineering or environmental engineering.

The programme offers you the opportunity to broaden your knowledge and experience of all technical aspects of building services design as well as providing an understanding of building management.

Assessment methods

Various methods are used to assess the modules depending on the nature of the module. These include written examination, course work, and oral presentation. Normally there is more than one assessment component in each module.

HM Forces

In partnership with HM Forces, GCU has identified this programme is being particularly suited to military and ex-military men and women. Visit the HM Forces Careers Zone for more information on the services we provide.

Accreditation

The programme is approved by the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI). The MSc and a suitable accredited BEng (Hons) degree will together form the educational base for full CEng status.

Graduate prospects

The MSc Building Services Engineering will give you the preparation you need for a successful career. With a 96% graduate employment rate for GCU alumni, you can count on excellent prospects.

Graduates of this programme have many options, both within the UK and with firms across the globe. They design mechanical and electrical services for buildings of all kinds, work as consultants or become members of a design-and-build construction team. They manage building or shipping facilities. They also work on either the technical or management side of installing and commissioning equipment and systems.



Read less
The MSc Telecommunications Engineering programme provides a comprehensive understanding of modern communication technologies and the techniques used in telecommunication. Read more
The MSc Telecommunications Engineering programme provides a comprehensive understanding of modern communication technologies and the techniques used in telecommunication. Created in consultation with industry, this programme offers you the opportunity to gain relevant practical skills and to develop the expert knowledge needed to succeed in the telecommunications arena.

Programme description

The desire for higher data rates and mobility in applications such as mobile telephony and wireless networks has stimulated a massive growth in the telecommunications field in the last decades, which presents exciting opportunities to people working, or wanting to work in this popular area.

The MSc Telecommunications Engineering programme offered by GCU has been created to provide you with a comprehensive understanding of modern communication technologies and of the techniques used in telecommunication companies. Created in consultation with industry, this programme offers you the opportunity to gain relevant practical skills and to develop the expert knowledge that will allow you to succeed in the telecommunications arena.

Some of the key aspects covered by our programme include mobile telephony, satellite communication systems, optical systems and networks, and digital communications. Knowledge in these areas will allow you to successfully design and manage telecommunication systems and services.

Why Choose This Programme?

Our innovative approach to learning and teaching ensures students benefit from the latest thinking and best practice. You will have the opportunity to broaden individual and particular interests at Masters level, for example, ethics and technology and technology and environmental management. In the third trimester you will undertake a major project within the area of wireless communications. Projects can be industry-based or chosen from a selection of research and consultancy activities.

Assessment

All modules include examinations and coursework. Practical computing forms a significant part of assessment. This is accomplished through coursework and practical tests.

Career Opportunities

Graduates will be able to pursue careers within a wide range of industrial and technology sectors such as telecommunications, networking, communication systems, remote instrumentation, remote data logging, signal processing and software development.

The programme content will also benefit those in industry, commerce and management who wish to gain skills in wireless systems to help them better implement, advise, purchase, sell and manufacture wireless system technologies.

Read less
Environmental challenges require complex solutions, bringing together scientific, social, political and economic perspectives. GCU's MSc Environmental Management will provide you with the interdisciplinary perspective and diverse skillset to help solve environmental problems in a leadership role. Read more

Environmental challenges require complex solutions, bringing together scientific, social, political and economic perspectives. GCU's MSc Environmental Management will provide you with the interdisciplinary perspective and diverse skillset to help solve environmental problems in a leadership role. You can help your community manage environmental concerns responsibly, making a positive impact and supporting the common good.

The programme is accredited by the Chartered Institution of Water and Environmental Management (CIWEM), the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI). With the endorsement of four prestigious professional organisations, the MSc Environmental Management offers a respected credential that's relevant to employers around the world.

You'll have the option to complete a general programme - giving you a broad understanding across a wide range of environmental disciplines - or choose among four pathways for specialisation.

  • Waste - As society strives to use resources more efficiently, we must ensure waste is properly and safely managed. You'll study sustainable waste management, contaminated land and landfill engineering, reuse and recycling in the manufacturing sector and more.
  • Energy - Global demand for energy has significant environmental implications, and renewable energy is just one part of a broader strategy. You'll explore energy technology, renewable energy, and building and energy performance.
  • Water - Communities depend on clean, plentiful water to survive, but there are water resource challenges around the world. You'll study treatment requirements for the water cycle, policy frameworks for managing supply, international policy, wastewater treatment and more.
  • Oil and Gas - Oil and gas operations pose environmental challenges, particularly off-shore operations. You'll learn about minimising the impact of emissions from oil production, exploring for oil and gas, and environmental regulations.

What you will study

The MSc Environmental Management comprises of eight taught modules. Three compulsory modules, four optional modules and a Masters project. You also have the option to broaden your understanding of environmental issues via the general masters’ curriculum or to select modules from one of four specific pathways; waste, energy, water and oil and gas.

Health, Safety and Environmental Management

This module introduces the health, safety and environmental demands that face industry today. Study the role of legislation in achieving sustainability and the use of environmental management to improve corporate responsibility..

Climate Change and Carbon Management

Examine global climate change issues within the context of the built environment and learn to conduct practical investigation into carbon management.

Energy Technology

Explore conventional and emerging technologies including waste heat recovery, energy storage and fuel cells.

GIS and Environmental Management

Study the principles and concepts of GIS and its role in environmental management.

Renewable Energy Technologies

Explore technologies that allow us to become more energy efficient including alternative energy sources, conversion technologies and sustainable energy use.

Water Quality and Waste Water Treatment

Examine water quality and the provision of potable water in the UK.

Additional Oil and Gas modules include:

The Oil and Gas Industry

Discover the fundamental principles and activities within the global oil and gas industry including legal ownership of hydrocarbon reserves, strategic investments, and the processes involved in upstream and downstream activities.

Oil and Gas Exploration

Explore the fundamental processes involved in oil and gas exploration starting with the geological origins of oil and gas reserves.

Environmental regulation and State Control of Oil and Gas

Develop an understanding of how the state regulates the Oil and Gas industry focusing on Environmental Regulation, the regulation of Exploration and Production and, more generally, the means by which the state controls the exploitation of Oil and Gas reserves.

Why Choose this Programme?

This course aims to develop the critical intellectual and practical skills of the students in the collection, analysis, interpretation and understanding of data related to environmental pollution. The course aims to provide the students with up-to-date knowledge and skills to equip them for a career in environmental management, waste management or in the oil and gas sector. It will develop the students' competence in applying advanced skills to solve environmental problems, using a critical and holistic approach. The MSc Environmental Management programme will enhance students' interpersonal, communications and other transferable skills, so that they are competent to operate in senior positions in industry. This programme will allow students to acquire educational qualifications which would enable them to gain recognition by professional bodies. It aims to provide students with an opportunity to critically explore environmental problems with others from different educational backgrounds, hence enhancing the breadth of their viewpoints on such issues; to further develop the students. This MSc will develop skills in research methods and practice, so that they can undertake advanced research in environmental, waste or oil and gas topics. The programme will enable students to engage with life-long learning, research and creativity tempered with scientific discipline and social awareness.

Accreditation

This programme is accredited by the Chartered Institution of Water and Environmental Management (CIWEM), the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI). With the endorsement of four prestigious professional organisations, the MSc Environmental Management offers a respected credential that's relevant to employers around the world.

Graduate prospects

As a graduate of GCU's MSc Environmental Management, you'll have excellent career prospects in both the public and private sectors. Past graduates have found work with organisations such as the Scottish Environmental Protection Agency (SEPA), international consulting companies including Carl Bro Group, ERS Land Regeneration and Valpak, and other government agencies and consulting firms.



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We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). Read more

We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). It covers both the latest developments in the field and the industry knowledge we've gained through years of experience.

You'll acquire a specialised skillset and expertise that's highly desirable to employers, making you a competitive candidate for rewarding careers in many industries, with oil and gas pathways available. The programme draws on relevant case studies with real-world implications, so you'll gain practical knowledge that you can apply on the job from day one.

The programme also fulfils the Engineering Council's further learning requirements for registration as a Chartered Engineer.

  • Gain a solid foundation in measurement science and control theory
  • Practise data acquisition and instrument networking
  • Study analysis of systems for condition monitoring
  • Investigate fault detection and control system design
  • Complete a hands-on project in the industry for experiential learning

At GCU, you'll find a welcoming community of people like yourself - hardworking, career-focused individuals with the vision and discipline to pursue meaningful work. We'll help you develop the tools to be successful, in your career and in your life.

We hope you'll use those tools to make a positive impact on your community and contribute to the common good through everything you do.

What you will study

The curriculum has been developed in consultation with industry and can be broadly grouped in three areas: the introduction of new facts and concepts in measurement and control; the application of facts and concepts to real measurement problems and systems; and subjects which are of general importance to the professional engineer, for example safety and safety management and management ethics and project planning.

Students complete eight taught modules - four in trimester A and four in trimester B; and a Masters project in trimester C.The MSc project will be carried out at the student's workplace; this can be in an area relevant to the company's production/maintenance function, thus providing maximum benefit to both the company and the individual.

Control Systems

Consolidates advanced classical and modern control design techniques emphasising the practical considerations in applying control design in an industrial environment. The appropriateness and difficulties encountered in applying various design techniques in practice will be explored. In particular system sensitivity, robustness and nonlinearity will be studied.

Data Acquisition and Analysis

Develops the ability to evaluate, in a given situation, the most appropriate strategy for acquiring data and understand the merits of this strategy with respect to other approaches. A range of modern time and frequency domain analysis techniques will also be discussed.

Industrial Case Studies

Following on from the foundation in measurement and instrumentation provided by the Measurement Theory and Devices module, students will now be equipped to study in depth instrumentation in industrial processes. This module will cover aspects of designing sensor systems for industrial measurements, instrument control, system troubleshooting and optimisation in industrial applications.

Distributed Instrumentation

Develops the ability to evaluate, in a given situation, the most appropriate strategy for acquiring and transmitting data and understand the merits of this strategy with respect to other approaches. A wide range of different instrument communication and networking techniques will be studied. In addition the module provides practical experience of hardware setup and software development, relating to these techniques.

Industrial Process Systems

Identification and system modelling from real data play an important role in this module. This approach thus leads to more complex and realistic models that can be used to design more robust and reliable controllers that take into account problematic physical effects such as time-delays and sensor noise. The module will cover more advanced aspects of control design such as feed forward and multivariable control.

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.

Measurement Theory and Devices

Adopts a generalised approach to measurement theory and devices, allowing students to become familiar with the characteristics of measurement systems in terms of the underlying principles. In this way, the students will be able to develop a systems approach to problem solving. They should find this methodology to be a considerable benefit to them when they have to apply their expertise to solving more complex industrial measurement problems.

Professional Practice

Develops the students' ability to select, develop and plan an MSc research project, to research and critically analyse the literature associated with the project and to present research findings effectively, it will also provide students with the ability to apply a competent process of thinking to project planning and give them a critical understanding of safe and ethical working.

Accreditation

The programme is accredited by the Institute of Measurement and Control (InstMC) as meeting the Engineering Council’s further learning requirements for registration as a Chartered Engineer.

Graduate prospects

The MSc Applied Instrumentation and Control offers graduates a highly focused skillset that's valuable to an extremely wide range of industries - any business that benefits from the measurement of process variables and environmental factors. For instance, chemicals, pharmaceuticals, optics and optoelectronics, medical instrumentation and more.

Across these industries, you might focus on computer-controlled instrumentation systems, process instrumentation, technical management and sales, process control and automation, sensor development and manufacturing, instrument networking, industrial development or test and measurement systems.

You might also pursue a career with a company that designs and manufactures measurement systems.



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We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). Read more

We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). It covers both the latest developments in the field and the industry knowledge we've gained through years of experience.

You'll acquire a specialised skillset and expertise that's highly desirable to employers, making you a competitive candidate for rewarding careers in many industries, with oil and gas pathways available. The programme draws on relevant case studies with real-world implications, so you'll gain practical knowledge that you can apply on the job from day one.

The programme also fulfils the Engineering Council's further learning requirements for registration as a Chartered Engineer.

  • Gain a solid foundation in measurement science and control theory
  • Practise data acquisition and instrument networking
  • Study analysis of systems for condition monitoring
  • Investigate fault detection and control system design
  • Complete a hands-on project in the industry for experiential learning

At GCU, you'll find a welcoming community of people like yourself - hardworking, career-focused individuals with the vision and discipline to pursue meaningful work. We'll help you develop the tools to be successful, in your career and in your life.

We hope you'll use those tools to make a positive impact on your community and contribute to the common good through everything you do.

Oil and Gas stream

From shifting economics and environmental policies to the evolving mix of global energy, we understand the growing range of factors that influence change in the oil and gas industries. That's why we draw on our close relationship with industry and cutting-edge research for this suite of pathways within our master's programmes - giving you the academic foundation, practical skills and ethical framework you need to lead and innovate in a complex and ever-transforming field; from operating principles to implementation. You'll understand the importance of efficient and reliable measurement and control, and learn a range of approaches to help you identify and solve complex problems.

What you will study

The curriculum has been developed in consultation with industry and can be broadly grouped in three areas: the introduction of new facts and concepts in measurement and control; the application of facts and concepts to real measurement problems and systems; and subjects which are of general importance to the professional engineer, for example safety and safety management and management ethics and project planning.

A specialist oil and gas industry instrumentation pathway is also available. Oil and gas industries are widely affected by a growing range of factors, including shifting global economics, an evolving global energy mix and environmental issues. The oil and gas industry instrumentation professional must be equipped to understand the principles and implementation of instrumentation, the importance of efficient and reliable measurement and control systems and have a suitably wide perspective of the subject area so that a number of different approaches to a problem can be identified.

Students complete eight taught modules - four in trimester A and four in trimester B; and a Masters project in trimester C.The MSc project will be carried out at the student's workplace; this can be in an area relevant to the company's production/maintenance function, thus providing maximum benefit to both the company and the individual.

Accreditation

The programme is accredited by the Institute of Measurement and Control (InstMC) as meeting the Engineering Council’s further learning requirements for registration as a Chartered Engineer.

Graduate prospects

The MSc Applied Instrumentation and Control offers graduates a highly focused skillset that's valuable to an extremely wide range of industries - any business that benefits from the measurement of process variables and environmental factors. For instance, chemicals, pharmaceuticals, optics and optoelectronics, medical instrumentation and more.

Across these industries, you might focus on computer-controlled instrumentation systems, process instrumentation, technical management and sales, process control and automation, sensor development and manufacturing, instrument networking, industrial development or test and measurement systems.

You might also pursue a career with a company that designs and manufactures measurement systems.



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Environmental challenges require complex solutions, bringing together scientific, social, political and economic perspectives. GCU's MSc Environmental Management will provide you with the interdisciplinary perspective and diverse skillset to help solve environmental problems in a leadership role. Read more

Environmental challenges require complex solutions, bringing together scientific, social, political and economic perspectives. GCU's MSc Environmental Management will provide you with the interdisciplinary perspective and diverse skillset to help solve environmental problems in a leadership role. You can help your community manage environmental concerns responsibly, making a positive impact and supporting the common good.

The programme is accredited by the Chartered Institution of Water and Environmental Management (CIWEM), the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI). With the endorsement of four prestigious professional organisations, the MSc Environmental Management offers a respected credential that's relevant to employers around the world.

You'll have the option to complete a general programme - giving you a broad understanding across a wide range of environmental disciplines - or choose among four pathways for specialisation.

  • Energy - Global demand for energy has significant environmental implications, and renewable energy is just one part of a broader strategy. You'll explore energy technology, renewable energy, and building and energy performance.

What you will study

The MSc Environmental Management comprises of eight taught modules. Three compulsory modules, four optional modules and a Masters project. You also have the option to broaden your understanding of environmental issues via the general masters’ curriculum or to select modules from one of four specific pathways; waste, energy, water and oil and gas.

Health, Safety and Environmental Management

This module introduces the health, safety and environmental demands that face industry today. Study the role of legislation in achieving sustainability and the use of environmental management to improve corporate responsibility..

Climate Change and Carbon Management

Examine global climate change issues within the context of the built environment and learn to conduct practical investigation into carbon management.

Energy Technology

Explore conventional and emerging technologies including waste heat recovery, energy storage and fuel cells.

GIS and Environmental Management

Study the principles and concepts of GIS and its role in environmental management.

Renewable Energy Technologies

Explore technologies that allow us to become more energy efficient including alternative energy sources, conversion technologies and sustainable energy use.

Water Quality and Waste Water Treatment

Examine water quality and the provision of potable water in the UK.

Additional Energy modules include:

Renewable Energy Technologies

Examine 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 .

Building and Energy Performance Simulation

Study the factors that determine energy efficiency of buildings, including properties of the fabric, and heating and ventilation systems.

Accreditation

This programme is accredited by the Chartered Institution of Water and Environmental Management (CIWEM), the Chartered Institution of Building Services Engineers (CIBSE) and the Energy Institute (EI). With the endorsement of four prestigious professional organisations, the MSc Environmental Management offers a respected credential that's relevant to employers around the world.

Why Choose this Programme?

This course aims to develop the critical intellectual and practical skills of the students in the collection, analysis, interpretation and understanding of data related to environmental pollution. The course aims to provide the students with up-to-date knowledge and skills to equip them for a career in environmental management, waste management or in the oil and gas sector. It will develop the students' competence in applying advanced skills to solve environmental problems, using a critical and holistic approach. The MSc Environmental Management programme will enhance students' interpersonal, communications and other transferable skills, so that they are competent to operate in senior positions in industry. This programme will allow students to acquire educational qualifications which would enable them to gain recognition by professional bodies. It aims to provide students with an opportunity to critically explore environmental problems with others from different educational backgrounds, hence enhancing the breadth of their viewpoints on such issues; to further develop the students. This MSc will develop skills in research methods and practice, so that they can undertake advanced research in environmental, waste or oil and gas topics. The programme will enable students to engage with life-long learning, research and creativity tempered with scientific discipline and social awareness.

Graduate prospects

As a graduate of GCU's MSc Environmental Management, you'll have excellent career prospects in both the public and private sectors. Past graduates have found work with organisations such as the Scottish Environmental Protection Agency (SEPA), international consulting companies including Carl Bro Group, ERS Land Regeneration and Valpak, and other government agencies and consulting firms.



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We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). Read more

We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). It covers both the latest developments in the field and the industry knowledge we've gained through years of experience.

You'll acquire a specialised skillset and expertise that's highly desirable to employers, making you a competitive candidate for rewarding careers in many industries, with oil and gas pathways available. The programme draws on relevant case studies with real-world implications, so you'll gain practical knowledge that you can apply on the job from day one.

The programme also fulfils the Engineering Council's further learning requirements for registration as a Chartered Engineer.

  • Gain a solid foundation in measurement science and control theory
  • Practise data acquisition and instrument networking
  • Study analysis of systems for condition monitoring
  • Investigate fault detection and control system design
  • Complete a hands-on project in the industry for experiential learning

At GCU, you'll find a welcoming community of people like yourself - hardworking, career-focused individuals with the vision and discipline to pursue meaningful work. We'll help you develop the tools to be successful, in your career and in your life.

We hope you'll use those tools to make a positive impact on your community and contribute to the common good through everything you do.

What you will study

The curriculum has been developed in consultation with industry and can be broadly grouped in three areas: the introduction of new facts and concepts in measurement and control; the application of facts and concepts to real measurement problems and systems; and subjects which are of general importance to the professional engineer, for example safety and safety management and management ethics and project planning.

Students complete eight taught modules - four in trimester A and four in trimester B; and a Masters project in trimester C.The MSc project will be carried out at the student's workplace; this can be in an area relevant to the company's production/maintenance function, thus providing maximum benefit to both the company and the individual.

Control Systems

Consolidates advanced classical and modern control design techniques emphasising the practical considerations in applying control design in an industrial environment. The appropriateness and difficulties encountered in applying various design techniques in practice will be explored. In particular system sensitivity, robustness and nonlinearity will be studied.

Data Acquisition and Analysis

Develops the ability to evaluate, in a given situation, the most appropriate strategy for acquiring data and understand the merits of this strategy with respect to other approaches. A range of modern time and frequency domain analysis techniques will also be discussed.

Industrial Case Studies

Following on from the foundation in measurement and instrumentation provided by the Measurement Theory and Devices module, students will now be equipped to study in depth instrumentation in industrial processes. This module will cover aspects of designing sensor systems for industrial measurements, instrument control, system troubleshooting and optimisation in industrial applications.

Distributed Instrumentation

Develops the ability to evaluate, in a given situation, the most appropriate strategy for acquiring and transmitting data and understand the merits of this strategy with respect to other approaches. A wide range of different instrument communication and networking techniques will be studied. In addition the module provides practical experience of hardware setup and software development, relating to these techniques.

Industrial Process Systems

Identification and system modelling from real data play an important role in this module. This approach thus leads to more complex and realistic models that can be used to design more robust and reliable controllers that take into account problematic physical effects such as time-delays and sensor noise. The module will cover more advanced aspects of control design such as feed forward and multivariable control.

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.

Measurement Theory and Devices

Adopts a generalised approach to measurement theory and devices, allowing students to become familiar with the characteristics of measurement systems in terms of the underlying principles. In this way, the students will be able to develop a systems approach to problem solving. They should find this methodology to be a considerable benefit to them when they have to apply their expertise to solving more complex industrial measurement problems.

Professional Practice

Develops the students' ability to select, develop and plan an MSc research project, to research and critically analyse the literature associated with the project and to present research findings effectively, it will also provide students with the ability to apply a competent process of thinking to project planning and give them a critical understanding of safe and ethical working.

Graduate prospects

The MSc Applied Instrumentation and Control offers graduates a highly focused skillset that's valuable to an extremely wide range of industries - any business that benefits from the measurement of process variables and environmental factors. For instance, chemicals, pharmaceuticals, optics and optoelectronics, medical instrumentation and more.

Across these industries, you might focus on computer-controlled instrumentation systems, process instrumentation, technical management and sales, process control and automation, sensor development and manufacturing, instrument networking, industrial development or test and measurement systems.

You might also pursue a career with a company that designs and manufactures measurement systems.



Read less
We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). Read more

We worked with industry professionals to develop an MSc Applied Instrument and Control programme that is accredited by the Institute of Measurement and Control (InstMC). It covers both the latest developments in the field and the industry knowledge we've gained through years of experience.

You'll acquire a specialised skillset and expertise that's highly desirable to employers, making you a competitive candidate for rewarding careers in many industries, with oil and gas pathways available. The programme draws on relevant case studies with real-world implications, so you'll gain practical knowledge that you can apply on the job from day one.

The programme also fulfils the Engineering Council's further learning requirements for registration as a Chartered Engineer.

  • Gain a solid foundation in measurement science and control theory
  • Practise data acquisition and instrument networking
  • Study analysis of systems for condition monitoring
  • Investigate fault detection and control system design
  • Complete a hands-on project in the industry for experiential learning

At GCU, you'll find a welcoming community of people like yourself - hardworking, career-focused individuals with the vision and discipline to pursue meaningful work. We'll help you develop the tools to be successful, in your career and in your life.

We hope you'll use those tools to make a positive impact on your community and contribute to the common good through everything you do.

Oil and Gas stream

From shifting economics and environmental policies to the evolving mix of global energy, we understand the growing range of factors that influence change in the oil and gas industries. That's why we draw on our close relationship with industry and cutting-edge research for this suite of pathways within our master's programmes - giving you the academic foundation, practical skills and ethical framework you need to lead and innovate in a complex and ever-transforming field; from operating principles to implementation. You'll understand the importance of efficient and reliable measurement and control, and learn a range of approaches to help you identify and solve complex problems.

What you will study

The curriculum has been developed in consultation with industry and can be broadly grouped in three areas: the introduction of new facts and concepts in measurement and control; the application of facts and concepts to real measurement problems and systems; and subjects which are of general importance to the professional engineer, for example safety and safety management and management ethics and project planning.

A specialist oil and gas industry instrumentation pathway is also available. Oil and gas industries are widely affected by a growing range of factors, including shifting global economics, an evolving global energy mix and environmental issues. The oil and gas industry instrumentation professional must be equipped to understand the principles and implementation of instrumentation, the importance of efficient and reliable measurement and control systems and have a suitably wide perspective of the subject area so that a number of different approaches to a problem can be identified.

Students complete eight taught modules - four in trimester A and four in trimester B; and a Masters project in trimester C.The MSc project will be carried out at the student's workplace; this can be in an area relevant to the company's production/maintenance function, thus providing maximum benefit to both the company and the individual.

Graduate prospects

The MSc Applied Instrumentation and Control offers graduates a highly focused skillset that's valuable to an extremely wide range of industries - any business that benefits from the measurement of process variables and environmental factors. For instance, chemicals, pharmaceuticals, optics and optoelectronics, medical instrumentation and more.

Across these industries, you might focus on computer-controlled instrumentation systems, process instrumentation, technical management and sales, process control and automation, sensor development and manufacturing, instrument networking, industrial development or test and measurement systems.

You might also pursue a career with a company that designs and manufactures measurement systems.



Read less
Develop the skills to manage international projects successfully. With growing global competition and increasingly complex regulatory structures, international project managers can make a major impact on an organisation's efficiency, and are in high demand. Read more

Develop the skills to manage international projects successfully. With growing global competition and increasingly complex regulatory structures, international project managers can make a major impact on an organisation's efficiency, and are in high demand.

GCU's MSc International Project Management was designed by senior industry practitioners and leading academic experts. It is delivered by a teaching team experienced in delivering project management expertise spanning all five continents.

Available full-time, part-time and distance learning, the programme offers an elite and highly relevant credential for international project managers. It's accredited by four prestigious international professional organisations; the Association for Project Management (APM), the Royal Institution of Chartered Surveyors (RICS), the Chartered Institute of Building (CIOB) and the Project Management Institute (PMI).

Prepare for success as a professional project manager by acquiring the tools to deliver high-quality projects on schedule, on budget and according to scope. You'll also master the skills to manage projects across international borders.

  • Learn how to work with both local and global players in a multinational environment
  • Practise navigating diverse cultural, social and economic settings
  • Develop skills in project management, project economics, construction management, risk and value management and international project finance

Choose from three areas of specialisation:

  • Energy: With energy demand set to grow 35% by 2035, and important issues to tackle such as climate change and sustainability, energy is a critical field now and in the future.
  • Construction: Investigate leading-edge topics such as environmentally sound construction and innovative management methods in a programme developed with the support of the Construction Industry Training Board (CITB).
  • Oil and gas: Explore key contemporary issues in the industry, including global economics, the evolving global energy mix and environmental concerns.

No matter which area you choose to emphasise, you'll develop meaningful knowledge and skills that are highly relevant to the real-world challenges faced by communities across the globe. You'll be able to help build a more successful, sustainable society, making a positive impact and contributing to the common good.

What you will study

The oil and gas industries are widely affected by a growing range of factors, including shifting global economics, an evolving global energy mix and environmental issues. There is an increasing demand for those working in the industries to develop an intelligent awareness of this complex business environment and to grasp the ways in which these changes will affect organisations.

The professional project manager must deliver projects on schedule, on budget, to scope and with the right quality. This MSc develops the multi-faceted skill set needed to successfully manage international projects in the oil and gas industry.

Oil and Gas modules include:

The Oil and Gas Industry

This module introduces the student to the fundamental principles and activities within the global oil and gas industry. This includes legal ownership of hydrocarbon reserves, strategic investments, and the processes involved in upstream and downstream activities within the oil and gas industry. Aspects of health and safety standards will also be introduced in the module.

Oil and Gas Contracts and Disputes

This module will provide the student with an understanding of procurement and contract administration in a modern international oil & gas environment based on the main contracts. The module will examine the various methods of resolving disputes arising under contracts at law, through statutory legislation and by agreement: Litigation; Arbitration; Adjudication; ADR including Conciliation, Mediation, Negotiation, Comparison of cross border/international methods of dispute resolution particularly in relation to arbitration and adjudication.

Accreditations

The course is accredited by the four leading professional bodies; the APM Association for Project Management; the RICS Royal Institution of Chartered Surveyors; the CIOB Chartered Institute of Building and the PMI Project Management Institute.

Graduate prospects

Demand for expert project professionals is growing rapidly as more companies around the world adopt a project management culture. Since GCU's MSc International Project Management is aligned with global accreditation standards, you'll be well-prepared to launch a rewarding career in the region of your choice.



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Designed to train a new generation of leaders in the field, our MSc Diagnostic Imaging programme will give you new insight into current and best practice – and train you to create real and meaningful change. Read more

Designed to train a new generation of leaders in the field, our MSc Diagnostic Imaging programme will give you new insight into current and best practice – and train you to create real and meaningful change. You’ll develop advanced critical thinking skills, synthesise evidence from a range of research and other sources and build on industry knowledge and clinical experience to inform professional discussion and debate.

As a part of GCU’s thriving and diverse academic community, you’ll not only prepare for a successful career but use what you learn to advance the field and contribute to the common good. 

You can choose between studying the broad-based MSc Diagnostic Imaging programme or an optional pathway specific to your area of practice.

Optional pathways

Magnetic Resonance Imaging: Increase your understanding of MRI theory and practice with this professional development opportunity, which includes supervised placements.

Medical Ultrasound: Use state-of-the-art simulation facilities and sonographic equipment to gain new insight into the clinical applications of medical ultrasound. You’ll rehearse practical scanning skills and get valuable feedback from experts in the field.

What you will study

In addition to profession specific learning, core modules allow for learning from and alongside a broad range of health and social care professionals, and encourage development of advanced practice skills such as evidence-based practice, research and leadership.

Assessment methods

We use a wide range of learning and teaching methods to ensure that you have both the necessary knowledge and understanding of business and management and a portfolio of intellectual and personal skills.

Each module on the programme uses its own learning, teaching and assessment strategy to achieve learning objectives. Assessment methods vary between modules and may include unseen examinations, class tests, essays, management reports, case studies, presentations, and group work.

Teaching methods

The learning and teaching methods we use ensure that our programme is both vocationally relevant and academically challenging. Our approach is student-centred, practical, participative and relevant to the needs of employers.

We've moved away from the traditional teacher-centric learning to a more independent learning approach, where you are encouraged to develop critical thinking skills.

Graduate prospects

Your MSc Diagnostic Imaging helps you improve your skills and push boundaries – setting you up for success whether you pursue a career in industry or academia. Our graduates make a positive impact through service redesign and radiographer-led service provision – as well as published research, conference presentations and doctoral study.



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