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The worldwide exchange of goods, the mobility of humans and the constant flow of information and ideas requires expertise about transport chains and how exchange processes work, what design options are available and the ability to develop new methods to meet future challenges. Read more

Supply Chain Engineering and Management: What is it all about?

The worldwide exchange of goods, the mobility of humans and the constant flow of information and ideas requires expertise about transport chains and how exchange processes work, what design options are available and the ability to develop new methods to meet future challenges. Organizations and management of modern logistic networks demand professional staff. The necessary knowledge reaches far beyond mere logistics or management knowledge. It requires personalities that do not only operate, but have a desire to be responsible and engage in shaping, in engineering the future.
Supply Chain Management (SCM) plays a key, strategic role in the performance of companies with above average success. SCM adds value for the company and its clients. It prevails in SCM that to achieve constant gain in competitive advantage the supply chain must whenever possible be organized from strategy, to implementation, all the way to operationalisation. Because of that it needs well trained leaders, who are able to position the topic supply chain as a strategic function. This master program encompasses these facets in different ways and appropriately roots them into various modules of the curriculum.

It is to be expected that the demand for leaders educated in this manner will grow in the future. The Master’s program M.Sc. Supply Chain Engineering & Manage¬ment obtains this quality by using a holistic approach to prepare its students for these complex challenges which pertain to industry and logistics research with interdisciplinary and practical knowledge.

Graduate program at Jacobs University: “Think out of the box”

The need to manage supply chains, production facilities and transport more efficiently has intensified the demand for educated professionals with both management and engineering skills. The graduate program in Supply Chain Engineering and Management (MSc) at Jacobs University aims to meet this demand by educating and training the leaders of tomorrow.

The program’s structure emphasizes equally techniques and technologies, economies and management, and engineering technologies as well as languages and soft skills. It has been designed and implemented in close cooperation with industry and international partner universities. Thus, students will benefit from broad exposure to »real world« challenges and academic excellence.
The program’s basic idea is to bridge the gap between classical management and engineers within one company: Often, they do not really understand each other due to different wordings, perspectives and aims. We try to create a certain understanding and knowledge, we try to open horizons, to make our students aware of the other group’s perspective - making them "think out of the box".

Apart from its interdisciplinary and interactive approaches in its programs, one of the foundations of Jacobs University is its internationality. The study program Supply Chain Engineering and Management reflects this as well: more than 25 students from 14 different countries are taught in English. Also, faculty and lecturers come from different cultural backgrounds, e.g. Finland, Germany, Britain, USA, Ireland, or Norway.

CAREER OPPORTUNITIES

Students with a MSc in Supply Chain Engineering and Management will find a wide range of attractive career options, in the dynamic and interesting field of logistics and beyond. So far, the employment rate of the program's predecessor is close to 100% within the first 12 months after graduation. Frequently, students get job offers already during their last year at Jacobs University. About half of the graduates work in Germany.

Among others, so far graduates entered industries such as logistics departments of car manufacturers, the food industry, or the aerospace industry. They work for international operating railway transportation companies or business consultancies. In the very same way, graduates of SCEM are qualified to opt for a career in academia, in governmental institutions, international organizations, business associations, the media and non-profit organizations.

Due to their experience working and living with students from about 100 countries on Jacobs University’s international campus, graduates are well-prepared to take on responsibility in multicultural work environments. They have a specific advantage competing for jobs that require not only basic skills and qualifications in the field of logistics, but also inter-cultural skills, as well as practical problem-solving skills and methods meant to deal with challenges in a globalized world. Such jobs are increasingly offered in all institutions mentioned above, but specifically in international organizations, multinational corporations and governmental institutions.

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How can you design an electronic toll collection system? How can a production plant minimize production costs without compromising on quality and safety? How can you design a complex consumer product?. Read more
How can you design an electronic toll collection system? How can a production plant minimize production costs without compromising on quality and safety? How can you design a complex consumer product?

These are typical questions that a graduate of the Master's programme Industrial Engineering and Management (IEM) can address. In a progressively technological society, IEM engineers will increasingly become leaders of technological innovation and design.

A Student of the Master's degree programme Industrial Engineering and Management (IEM) learns how to deal with practical problems in businesses. A focus lies on how to find solutions to problems while taking on a technical and scientific design perspective. The general aim of the IEM Master's programme is to train engineers to acquire a thorough overview of all primary and secondary business processes, especially with respect to the design of a technological product or process.

More than its nearest competitors, the IEM Master's degree programme of the University of Groningen focuses on technology. About 65% of the curriculum is dedicated to engineering and technology, and about 35% focuses on management and business. You can choose between two specialisations:

* PTL: Production Technology and Logistics

* PPT: Product and Process Technology

Why in Groningen?

- Integration of technology and management
- Strongly embedded in a specific technology of your choice

Job perspectives

Career opportunities are abundant for Industrial Engineering and Management(IEM)engineers. Career-market analyses consistently show that there is a strong need for professionals with a combined technical and managerial background.

- IEM engineers with a Production Technology and Logistics (PTL) specialization
IEM engineers with a PTL specialization can start a career as a product manager, involved in the development of new innovative products within the tight boundaries of technical, market and product-related constraints.

-Product and Process Technology (PPT) specialized IEM engineers
PPT-specialized IEM engineers can become members of product and process design teams or for example begin a career as a production manager in industrial companies.

Job examples

- Product manager
- Product developer
- Production manager
- Process designer

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Rotating Machinery, Engineering and Management provides a comprehensive background in the design and operation of different types of rotating equipment for power, oil, gas, marine and other surface applications. Read more

Course Description

Rotating Machinery, Engineering and Management provides a comprehensive background in the design and operation of different types of rotating equipment for power, oil, gas, marine and other surface applications. The course is designed for those seeking a career in the design, development, operation and maintenance of power systems. Graduates are provided with the skills that allow them to deliver immediate benefits in a very demanding and rewarding workplace and therefore are in great demand. This course is suitable for graduates seeking a challenging and rewarding career in an international growth industry.

Overview

Rotating machinery is employed today in a wide variety of industrial applications including oil, power, and process industries. With the continuing expansion of the applications of rotating machinery, qualified personnel are required by the increasingly large numbers of users.

English Language Requirements

If you are an international student you will need to provide evidence that you have achieved a satisfactory test result in an English qualification. The minimum standard expected from a number of accepted courses are as follows:

IELTS - 6.5
TOEFL - 92
Pearson PTE Academic - 65
Cambridge English Scale - 180
Cambridge English: Advanced - C
Cambridge English: Proficiency - C

In addition to these minimum scores you are also expected to achieve a balanced score across all elements of the test. We reserve the right to reject any test score if any one element of the test score is too low.

We can only accept tests taken within two years of your registration date (with the exception of Cambridge English tests which have no expiry date).

Structure

The course consists of approximately eight to twelve taught modules and an individual research project.

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:
- Provide the skills required for a rewarding career in the field of propulsion and power.
- Meet employer requirements for graduates within power and propulsion industries.
- Demonstrate a working knowledge and critical awareness of gas turbine performance, analysis techniques, component design and associated technologies.
- Explain, differentiate and critically discuss the underpinning concepts and theories for a wide range of areas of gas turbine engineering and associated applications.
- Be able to discern, select and apply appropriate analysis techniques in the assessment of particular aspects of gas turbine engineering.

Modules

The taught programme for the Rotating Machinery, Engineering and Management masters consists of eight compulsory modules and up to four optional modules. The modules are generally delivered from October to April.

Core:
- Blade Cooling
- Combustors
- Engine Systems
- Gas Turbine Theory and Performance
- Management for Technology: Energy
- Mechanical Design of Turbomachinery
- Turbomachinery
- Gas Turbine Operations and Rotating Machines

Optional:
- Computational Fluid Dynamics
- Fatigue and Fracture
- Gas Turbine Simulation and Diagnostics

Individual Project

You are required to submit a written thesis describing an individual research project carried out during the course. Many individual research projects have been carried out with industrial sponsorship, and have often resulted in publication in international journals and symposium papers. This thesis is examined orally in September in the presence of an external examiner.

Recent Individual Research Projects include:
- Performance and economic study on the viability of combined cycle floating power barge
- Risk-based maintenance for azep
- Implementation of the nutating disk engine in high bypass turbofan
- Load minimization of tidal turbines
- Gas turbine airfleet maintenance case study
- Airfleet maintenance study
- Advanced bottoming cycle technology
- Cavitation simulation in centrifugal pump.

Assessment

The final assessment is based on two components of equal weight; the taught modules (50%) and the individual research project (50%). Assessment is by examinations, assignments, presentations and thesis.

Career opportunities

- Gas turbine engine manufacturers
- Airframe manufacturers
- Airline operators
- Regulatory bodies
- Aerospace/Energy consultancies
- Power production industries
- Academia: doctoral studies.

For further information

On this course, please visit our course webpage http://www.cranfield.ac.uk/Courses/Masters/Rotating-Machinery-Engineering-and-Management-Option

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Degree. Master of Science (two years) with a major in Industrial Engineering and Management. Teaching language. English. Read more
Degree: Master of Science (two years) with a major in Industrial Engineering and Management
Teaching language: English

The Master’s programme Industrial engineering and management aims to give students with a solid base in engineering the tools needed to integrate engineering, economy and mathematics and prepare students for careers as managers and project leaders in the industry.

Building upon the students’ engineering background the programme provides knowledge in industrial management through a multi-disciplinary approach. It also increases their ability to adopt changes in the industrial environment in an efficient and responsible manner.

The first term consists of mandatory courses in Industrial project management, Corporate organization, Corporate finance, and Quality Management which puts the student’s engineering skills into the context of industrial management. The second and following terms, students choose to specialize themselves in the fields of Innovation Management, Operation Management, Finance or Quality Management.

The Operation Management profile teaches the skills needed to apply a holistic view of production and operations management issues in both manufacturing and service industries. This profile is mathematically intensive and utilizes quantitative methods to describe problems, analyze operations issues, and provide solutions for industries facing a dynamic, changing environment.

The Innovation Management profile focuses on developing and commercializing innovative products and new solutions. Central skills are technology and project management, product development and entrepreneurship.

The Finance profile deals with the theories and tools used in the financial markets such as financial instruments, asset pricing, risk management, portfolio evaluation and optimal asset management.

The Quality management profile provides knowledge on approaches for creating and sustaining an effective organisation. Quality management is a set of concepts and practices characterized by core principles such as customer focus, process management, continuous improvement, everyone’s participation, base decisions on fact and committed leadership. One of the central questions is how an organisation can improve its processes to provide maximum benefits to customers through the best use of available resources.

Employment and career opportunities

Following graduation students are prepared for interesting careers in cutting edge industries, for example as a R&D project leader in larger, technologically intensive companies or as a CTO at smaller companies or start-up. Students choosing to specialize themselves in finance may also find careers at larger financial institutions or companies with their own finance divisions.

Welcome to Linköping University

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This Masters / MSc / PG diploma postgraduate degree course in Civil Engineering and Management is offered for civil engineering and related graduates wishing to study project and construction management within a civil engineering context. Read more
This Masters / MSc / PG diploma postgraduate degree course in Civil Engineering and Management is offered for civil engineering and related graduates wishing to study project and construction management within a civil engineering context. It addresses the working of engineering and construction organisations and provides disciplines and techniques of practical use in civil engineering, management and implementation of all stages of construction and civil engineering projects. This opens up a wide range of career opportunities, as many of the techniques are applicable both within and outside the civil engineering design and construction industry.

The MSc/PG Diploma in Civil Engineering and Management allows students to tailor their studies to meet the needs of their chosen career path by offering a wide range of modules which can be selected, together with a wide choice of individual research projects.

About the School of Civil Engineering

Civil Engineering is the key to many of the issues affecting our lives today. Civil Engineers solve problems, design, build and maintain our living and working spaces. You might design a new stadium, work on a local by-pass or railway line, assess a damaged structure, provide immediate and safe drinking water to a refugee camp, or manage a multi-million pound construction project.
We tackle the problems faced by society today: we aim to develop the knowledge and tools to build the communities of the future. Many of our projects have already had a significant impact on society; the impact of others will be felt by generations to come.
The performance of Civil Engineering in the Research Excellence Framework (REF), the system for assessing the quality of research in UK higher education institutions, has shown that the majority of its research was rated as internationally excellent.
We work closely with industry, charities and research councils to encourage innovative thinking which has an impact on our lives. As a result we are proud of our heritage of internationally-recognised, multidisciplinary research in a stimulating research environment.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/pgfunding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/pgopendays

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk


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There is a global demand for scientists, engineers and professionals trained in the area of water resources engineering and management. Read more
There is a global demand for scientists, engineers and professionals trained in the area of water resources engineering and management.

The water resource engineering and management masters at GCU is designed to expand students' educational horizons across traditional subject boundaries, encompassing sustainable development and technology and international policy / legislation in the area of water engineering and water resource management.

This course has several available start dates and study methods - for more information, please view the relevant web-page:
SEPTEMBER 2017 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02849-1PTA-1718/Water_Resource_Engineering_and_Management_(Part-time)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2018 (Full Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02848-1FTAB-1718/Water_Resource_Engineering_and_Management?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

JANUARY 2018 (Part Time) - http://www.gcu.ac.uk/ebe/study/courses/details/index.php/P02849-1PTAB-1718/Water_Resource_Engineering_and_Management_(Part-time)?utm_source=ZZZZ&utm_medium=web&utm_campaign=courselisting

Programme Description

Growth of population and industrialisation requires increasing water demand. Meanwhile limited consumable water resources, climate change, no or less efficient sanitation and water pollution result in more water stress and scarcity problems globally, especially in the less developed countries. Subsequently, one billion people rely on unimproved drinking water sources and 2.5 billion people still lack access to improved sanitation facilities.

This programme aims to provide a high quality professional education for engineers and professionals in water engineering and water resources management.

Assessment

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

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The Department of Civil Engineering offers a graduate program in Civil Engineering leading to the Master of Applied Science (MASc), the Master of Engineering (MEng), and the Doctor of Philosophy (PhD). Read more
The Department of Civil Engineering offers a graduate program in Civil Engineering leading to the Master of Applied Science (MASc), the Master of Engineering (MEng), and the Doctor of Philosophy (PhD). Qualified applicants are accepted for advanced studies in one of the following fields: Building Engineering, Environmental Engineering, Structural Engineering, Transportation Engineering, and Geomechanics.

Students registered in the MASc or PhD are required to participate in the non-credit seminar course JDE 1000H Ethics in Research during their first or second session of registration.

The department also offers a graduate program in Cities Engineering and Management leading to the Master of Engineering in Cities Engineering and Management (MEngCEM).

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A comprehensive range of subjects is studied covering the whole spectrum of natural gas engineering, providing a sound base from which to select an area of specialised study. Read more
A comprehensive range of subjects is studied covering the whole spectrum of natural gas engineering, providing a sound base from which to select an area of specialised study.

You may also be eligible for membership of the Gas Engineering and Management Institute and subsequently become a Chartered Engineer. Alternatively you may wish to continue your studies to PhD level, researching gas engineering or other related subjects available within the School of Computing, Science & Engineering.
Module titles

Key benefits:

• Flexible but rigorous period of study for graduates working in, or intending to work in, the natural gas/oil industry
• Accredited by the Institution of Gas Engineers and Managers (IGEM).
• Excellent employment prospects

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

Suitable for

Graduates from an appropriate discipline, such as mechanical engineering. Professionals with four years’ relevant industrial or professional experience may be considered for entry to the PgDip initially.

Programme details

This course runs over two 12 week semesters (plus the third semester or summer period for your dissertation for MSc students)

• Semester 1 - October to February
• Semester 2 - February to June
• Semester 3 - June to September (dissertation period)

Format

Teaching will take the form of traditional lectures in a class room, with PowerPoint presentations and videos and reference to laboratory work, demonstrations, workshops and tutorials and use of specialised software as applicable.

Modules

• Fundamentals of Natural Gas and Production Systems and Design (15 credits)
• Experimental and Measurement Methods (15 credits)
• Business and Project Gas Management (30 credits)
• Utilisation of Natural Gas (30 credits)
• Distribution and Transmission Systems and design of Natural Gas (15 credits)
• Gas flow and network analysis (15 credits)
• MSc Project (60 credits)

Assessment

• Coursework and labs – 30%
• Examinations – 70%

Plus Dissertation

Career potential

Graduates pursue a variety of careers in the natural gas/oil industry. The programme covers all aspects of gas technology and associated gas business management and will enable students to increase their skills and technical knowledge.

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

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This course is for engineers or graduates who want to become technical specialists or managers in industrial and manufacturing companies. Read more
This course is for engineers or graduates who want to become technical specialists or managers in industrial and manufacturing companies.

It increases your career potential by improving your:
-Knowledge and experience of engineering.
-Technical and problem solving skills.
-Management skills.
-Ability to take on greater responsibility.

This course helps you understand concepts and theories behind developing, manufacturing and managing engineering products and systems. You learn to explore and apply developments in engineering and management academic thinking and industrial practice.

You study:
-Two management modules.
-Two technical modules.
-Four optional modules.

There is a wide range of optional modules including:
-Lean operations and six sigma.
-Advanced manufacturing technology.
-Applicable artificial intelligence.
-Computer-aided design/computer-aided manufacture.
-Advanced computer system architecture.
-Network applications.

The international product development module involves working in multidisciplinary teams to develop a new product in a global market. This allows you to develop much sought after advanced technical and business skills and improves your career prospects in engineering industry, and public service. This project also develops your particular interest in a supported environment.

For more information, see the website: https://www.shu.ac.uk/study-here/find-a-course/msc-advanced-engineering-and-management

Professional recognition

This course is accredited by the Institute of Materials, Minerals and Mining (IOM3).

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

This programme is CEng accredited by the Institution of Engineering and Technology (IET) and fulfils the educational requirements for registration as a Chartered Engineer when presented with an CEng accredited Bachelors programme.

Course structure

Full time – 12 to 18 months.
Part time – typically 3 years, maximum 6 years.
Starts September and January.

Core management modules
-Finance and marketing
-Project and quality management

Core technical modules
-Group project – international product development
-Sustainability, energy and environmental management

Optional modules (two from)
-Lean operations and six sigma
-Management of strategy, change and innovation
-Manufacturing systems

Plus two from:
-Advanced control methods
-Advanced investigatory techniques for materials engineers
-Advanced manufacturing technology
-Advanced metallic materials
-Advanced vibration and acoustics
-Applicable artificial intelligence
-Computer-aided design/computer-aided manufacturing
-Communication engineering
-Communication media
-Computer networks
-Competitive design for manufacture
-Competitive materials technology
-Control of linear systems
-Digital electronics system design
-Digital signal processing
-Embedded systems
-Equipment engineering and design
-Industrial applications of finite element methods
-Industrial automation
-Machine vision
-Microprocessor engineering
-Advanced computer system architecture
-Network applications
-Object-oriented methods
-Operating systems
-Robotics
-Software engineering
-VSLI

MSc
-Project and dissertation

Assessment: examination; coursework; project reports.

Other admission requirements

International students
If English is not your first language you typically need an IELTS 6.0 score with a minimum of 6.0 in writing and 5.5 in all other skills or equivalent. If your English language skill is currently below IELTS 6.0 we recommend you consider a Sheffield Hallam University Pre-sessional English course which will enable you to achieve an equivalent English score.

India
-A first class BE in an relevant discipline, or a good second class BE with a strong performance in mechanical and manufacturing subjects.
China
-A four year Bachelors degree in an relevant discipline, with an overall average of at least 80 per cent or equivalent.
Other countries
-A good honours degree or equivalent in an relevant subject.

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This course combines value creation with strategic development in a manufacturing environment, providing you with up-to-date knowledge of manufacturing techniques and processes. Read more
This course combines value creation with strategic development in a manufacturing environment, providing you with up-to-date knowledge of manufacturing techniques and processes.

Designed for

MSc in Manufacturing Systems Engineering and Management is designed for engineering graduates interested in manufacturing systems and operations management.

It is suitable for engineers working in industry who want to make the transition to engineering manager and is also suitable for graduates with little or no work experience.

The Course Provides

Up-to-date knowledge of manufacturing techniques and processes plus applications of technology & quality tools and techniques to improve operations in the organisation.

You’ll develop an understanding of the concepts of manufacturing engineering systems as well as the skills to analyse, design and implement these systems in practice. You’ll also gain experience in the application of technology and of quality tools and techniques in order to improve operations and develop skills in strategic and operational management.

Course Content

Core Modules:
1. Industrial Engineering
2. Manufacturing Process Technology
3. Operations Strategy for Industry
4. Problem Solving with Statistics
5. Quality, Reliability and Maintenance
6. Project Planning, Management and Control
7. Logistics and Operations Management

Plus one from:
1. Automation and Robotics
2. Machining Technology
3. Advanced Materials and Processes
4. The Virtual Factory

Plus one elective module from the full list of modules.

Learning Style

Taught material is a blend of formal lectures, seminars and practical exercises and case studies to encourage teamwork and practical grounding of the material. Module leaders are experts in their fields and are supported by external speakers working in organisations at the forefront of their fields. Industrial visits are available to all students and the course is assessed through assignments.

After Your Graduate

Our graduate career destinations include roles in the automotive, financial, energy and materials industries, at companies ranging from Jaguar Land Rover and ING Bank Turkey to Colgate Palmolive, AWE and Aruna Alloy Steels.

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Degree. Master of Science with a major in Energy and Environmental Engineering. The Sustainability Engineering and Management master’s programme deals with the multifaceted challenge of developing products, services and technical systems that contribute to increased resource effectiveness and sustainability.. Read more
Degree: Master of Science with a major in Energy and Environmental Engineering

The Sustainability Engineering and Management master’s programme deals with the multifaceted challenge of developing products, services and technical systems that contribute to increased resource effectiveness and sustainability.

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Few universities offer MSc Infrastructure programmes, so we have created a Masters programme that will equip you with the knowledge and skills needed to support the continuing growth and prosperity of the UK through the National Infrastructure Plan. Read more
Few universities offer MSc Infrastructure programmes, so we have created a Masters programme that will equip you with the knowledge and skills needed to support the continuing growth and prosperity of the UK through the National Infrastructure Plan.

This fully accredited programme draws on our many years of experience in delivering advanced programmes in structures and bridges. It is delivered by university academics with a keen interest and track record in infrastructure issues together with industry and government professionals.

PROGRAMME OVERVIEW

This course covers the planning, design, analysis and management frameworks of infrastructure systems. In particular, you will develop expertise in the:
-Technical aspects of infrastructure engineering within a social, economic, environmental and political context
-Factors that affect and drive infrastructure planning and funding
-Interdependent nature of infrastructure across different sectors

You will qualify with a sound understanding of the whole life-cycle of infrastructure assets, the environmental impact of infrastructure projects, and formal asset-management techniques enabling you to maximise the benefits of infrastructure assets in the future.

Graduates from the programme are highly employable but have the potential to progress to relevant specialist PhD or EngD research programmes in the field.

PROGRAMME STRUCTURE

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

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.
-Infrastructure Investment and Financing
-Infrastructure Systems, Interdependencies and Resilience
-Infrastructure Asset Management
-Sustainability and Infrastructure

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

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

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

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

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

Wind Energy Group Modules
-Wind Engineering
-Wind Energy Technology
-Renewable Energy Technologies Dissertation

Dissertation
-Dissertation project

EDUCATIONAL AIMS OF THE PROGRAMME

The programme aims to provide graduates with:
-The state-of-the-art of infrastructure engineering and management that is required for the realisation of the complex delivery of new and management and of existing infrastructure.
-A holistic overview of infrastructure as a system of systems, viewed within the social, economic and environmental context, and the drivers for sustainable infrastructure development and change.
-A knowledge of the fundamental multi-disciplinary frameworks that can be adopted for the planning, design, management and operation of interconnected infrastructure systems.
-A specialisation in an infrastructure area of their choice (i.e. bridge, building, geotechnical, water, wind) providing them with detailed background for the analysis and solution of specific problems associated with individual infrastructure components.

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 Erasmus Mundus MSc Coastal and Marine Engineering and Management (CoMEM) is a two-year, English-taught international masters programme offered by a consortium of five European universities. Read more

Summary

The Erasmus Mundus MSc Coastal and Marine Engineering and Management (CoMEM) is a two-year, English-taught international masters programme offered by a consortium of five European universities: Norwegian University of Science
and Technology, Trondheim, Norway; Polytechnic University of Catalunya, Barcelona, Spain; Technical University of Delft, Netherlands; City University London, UK; and University of Southampton, UK. Students study in two or three different countries depending on their individual track of study. The programme covers how to prepare coastal areas in the event of sea-level rise and the study of how marine tides can contribute to renewable energy.

Modules

There are five specialist tracks:
1) Arctic Marine Coastal Engineering;
2) Marine Operations and Management;
3) Environment and Management;
4) Coastal Engineering;
5) Engineering and Environment.

Students on tracks 3, 4 and 5 attend the University of Southampton

Visit our website for further information...



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The MSc in Engineering and Management of Manufacturing Systems has been designed and developed in conjunction with the manufacturing industry to develop the expertise of graduates coming into the sector, as well as graduate level personnel working in companies. Read more
The MSc in Engineering and Management of Manufacturing Systems has been designed and developed in conjunction with the manufacturing industry to develop the expertise of graduates coming into the sector, as well as graduate level personnel working in companies. The course provides a thorough understanding of the processes, skills and behaviours needed to create and manage competitive manufacturing operations. It majors on industrially relevant projects, team working, and transferable skills. Many graduates take on appointments with a wide-range of manufacturers or, increasingly, apply their skills to other sectors from financial services through to health care. This is a well established course, having run for over 20 years, and is therefore well known, respected, and has a growing Alumni.

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World leading aircraft manufacturers predict the number of in-service commercial aircraft doubling to over 43,500 in the next 20 years. Read more
World leading aircraft manufacturers predict the number of in-service commercial aircraft doubling to over 43,500 in the next 20 years. Our MSc Aviation Engineering and Management course will provide you with the skills, knowledge and expertise to succeed in the aviation industry.
You’ll develop key problem-solving skills within the field of aviation including airlines, corporate aviation, general aviation, component manufacturing organisations, and related industries, and civil aviation governmental agencies.

You’ll gain an understanding of the various complexities facing aviation businesses through a breadth of industry related modules. Your studies will also cover a wide variety of tools, techniques, and research methods, and how they may be applied to research and solve real-life problems within the aviation industry.

See the website http://courses.southwales.ac.uk/courses/1878-msc-aviation-engineering-and-management

What you will study

The course consists of nine modules with a key theme throughout your studies including the ethical dimensions of decision-making and interpersonal relations. This means you can be confident that you will develop personally and professionally as part of the course, ultimately making yourself more employable. You’ll study the following modules:

- Aircraft Systems Design and Optimization (10 Credits)
This module will give you a comprehensive knowledge of the systems of the aircraft, including preliminary designing of systems primary and secondary systems, operation and maintenance concepts. You will be introduced to novel engineering design methods such as Multi Objective Design (MOD) and multi-disciplinary design optimisation. Part of the module will be delivered with the support of industrial partners and experts, which will bring real scale industrial experience and interaction with the industry.

- Aviation Sustainable Engineering
This module will explore the historical and contemporary perspectives in international aviation framework while looking at the socio-economic benefits of aviation since the Chicago Convention of 1944. You will analyse current and future design and manufacturing trends in the aerospace industry.

- Condition Monitoring and Non-Destructive Testing
This module analyses condition monitoring and non-destructive testing, giving you an appreciation for the key concepts and tools in this subject. You will evaluate the use of these tools in different situations within industry and make recommendations on necessary adjustments.

- Advanced Materials and Manufacture
You will look at a range of modern engineering materials and develop an awareness of the selection criteria for aeronautical and mechanical engineering applications. You will also look at a range of “standard” and modern manufacturing processes, methods and techniques.

- Lean Maintenance Operations & Certification
This module will help you develop and understand concepts in Six Sigma, lean maintenance, operational research, reliability centred maintenance and maintenance planning. You will evaluate and critically analyse processes within highly regulated industries.

- Safety, Health and Environmental Engineering Management
Covering the principles and implementation of the safety, health and environmental management within the workplace, you will look at key concepts in human cognition and other human factors in risk management and accident/incident investigation. You will also gain an understanding of the role of stakeholder involvement in sustainable development.

- Strategic Leadership and Management for Engineers
This module will explore a range of purposes and issues surrounding successful strategic management and leadership as well as appraising a range of leadership behaviours and processes that may inspire innovation, change and continuous transformation within different organisational areas including logistics and supply chain management.

- Research Methods for Engineers
The aim of this module is to provide you with the ability to determine the most appropriate methods to collect, analyse and interpret information relevant to an area of engineering research. To provide you with the ability to critically reflect on your own and others work.

- Individual Project
You will undertake a substantial piece of investigative research work on an appropriate engineering topic and further develop your skills in research, critical analysis and development of solutions using appropriate techniques.

Learning and teaching methods

You will be taught through a variety of lectures, tutorials and practical laboratory work.

You will have 10 contact hours per week, you will also need to devote around 30 hours per week to self-study, such as conducting research and preparing for your assessments and lectures.

Work Experience and Employment Prospects

Aerospace engineering is an area where demand exceeds supply. As a highly skilled professional in aircraft maintenance engineering, you will be well placed to gain employment in this challenging industry. The aircraft industry is truly international, so there is demand not only in the UK, but throughout the world.

Careers available after graduation include aircraft maintenance planning, engineering, materials, quality assurance or compliance, technical services, logistics, NDT, method and process technical engineering, aircraft or engine leasing, aviation sales, aviation safety, reliability and maintainability, operations and planning, airworthiness, technical support, aircraft surveying, lean maintenance, certification, production planning and control.

Assessment methods

You will be continually assessed coursework or a mixture of coursework and exams. The dissertation allows you to research a specific aviation engineering topic, to illustrate your depth of knowledge, critical awareness and problem-solving skills. The dissertation has three elements of assessment: a thesis, a poster presentation, and a viva voce examination.

Facilities

The aerospace industry has become increasingly competitive and in recognising this, the University has recently invested £1.8m into its aerospace facilities.

Facilities available to our students have been fully approved by the Civil Aviation Authority (CAA). With access to an EASA-approved suite of practical training facilities, our students can use a range of industry-standard facilities.

Our Aerospace Centre is home to a Jetstream 31 Twin Turboprop aircraft, assembled with Honeywell TPE331 Engines and Rockwell-Collins Proline II Avionics. It has a 19-passenger configuration.

The EASA-approved suite contains training and practical workshops and laboratories. Each area contains the tools and equipment required to facilitate the instruction of either mechanical or avionic practical tasks as required by the CAA.

Students use the TQ two-shaft gas turbine rig to investigate the inner workings of a gas turbine engine by collecting real data and subsequently analysing them for engine performance.

Our sub-sonic wind tunnel is used for basic aerodynamic instruction, testing and demonstrations on various aerofoil shapes and configurations.

The single-seater, full motion, three axes Merlin MP521 flight simulator can be programmed for several aircraft types that include the Airbus A320 and the Cessna 150.

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