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Masters Degrees (Chemical Research)

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The MSc in Chemical Research (Bioloigcal Chemistry) course has been tailored to meet the demands of graduating chemists who wish to further their training in chemical research or who wish to use this qualification as a route into a PhD programme. Read more
The MSc in Chemical Research (Bioloigcal Chemistry) course has been tailored to meet the demands of graduating chemists who wish to further their training in chemical research or who wish to use this qualification as a route into a PhD programme.

The course is designed to match the professional demand for highly-skilled personnel in industry and provides specific training in core areas of chemistry as well as specialised expertise in Biological Chemistry.

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The MSc Chemical Research (Green Chemistry) course has been tailored to meet the demands of graduating chemists who wish to further their training in chemical research or who wish to use this qualification as a route into a PhD programme. Read more
The MSc Chemical Research (Green Chemistry) course has been tailored to meet the demands of graduating chemists who wish to further their training in chemical research or who wish to use this qualification as a route into a PhD programme.

The course is designed to match the professional demand for highly-skilled personnel in industry and provides specific training in core areas of chemistry as well as specialised expertise in Green Chemistry.

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The MSc in Chemical Research at Queen Mary offers you the opportunity to make a contribution to the fascinating world of modern chemistry, by spending a year working on a major individual research project. Read more
The MSc in Chemical Research at Queen Mary offers you the opportunity to make a contribution to the fascinating world of modern chemistry, by spending a year working on a major individual research project. This research work is supplemented by lecture modules and seminars, and successful completion of the programme leads to the award of an internationally recognised Masters qualification.

This programme provides a comprehensive preparation for students wishing to progress onto a research career (bridging the gap between the lecture-dominated programme of a typical undergraduate BSc degree and the research intensive PhD degree), but the qualification can also be a real asset for those wishing to pursue other careers in industry, or in education. Training is given in a wide range of techniques to enable candidates to build up a substantial portfolio of experimental skills and thereby tackle more extended research and development projects with increased confidence. The practical work is also reinforced by lecture modules explaining the underlying theoretical basis of various research methods and techniques, and other aspects of advanced chemistry.

Programme outline

The major part of the programme is a research project on a topic agreed in consultation with the MSc programme coordinator. This practical work will generally provide training in a variety of specialised techniques appropriate to your chosen area of research and is carried out in the main research laboratories, under the supervision of a member of academic staff.

The taught component of the degree programme consists of two lecture modules, usually selected from the range of advanced undergraduate chemistry modules offered by the School.

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This postgraduate degree in chemical research will provide you with the skills and knowledge to carry out novel research in your chosen area of chemistry. Read more
This postgraduate degree in chemical research will provide you with the skills and knowledge to carry out novel research in your chosen area of chemistry. You will join an existing research group under the guidance of a research supervisor, spending the majority of time on a research project. This can be in any of the department’s current research areas that include some reference to chemical and biological sciences. The remaining part of the degree is spent following advanced lecture courses that will provide the necessary theoretical and technical background to your chosen research area.

This programme is intended for students who want to gain the qualifications necessary for pursuing a research career, or who want to update their existing training.

On successful completion of this programme, you will understand the theoretical background required to undertake research in a given topic and be able to explain relevant research methods and tools. You will have acquired a firm grasp of recent advances in your field of study and be able to formulate a research or method development plan and carry out the appropriate literature and data searches. You will also be able to apply a critical and professional approach to data quality, carry out chemical manipulations and operate advanced equipment and work safely and efficiently in a laboratory, carrying out risk assessments where appropriate.

This is a laboratory-based subject, which means individual contact between staff and students is frequent. Numerous opportunities exist and are created for you to comment on, and to take responsibility for, the direction of your studies.

By accommodating you in an established research group and requiring you to partake in group activities, including research colloquia and presentations, the programme aims to provide training in the transferable skills required for successful research. It is individually tailored for each student and arranged by the research supervisor.

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The principal component of this degree is an intensive novel research project providing 'hands-on' training in methods and techniques at the cutting edge of scientific research. Read more

The principal component of this degree is an intensive novel research project providing 'hands-on' training in methods and techniques at the cutting edge of scientific research. The programme is particularly suitable for those wishing to embark on an academic career, with a strong track record of students moving into graduate research at UCL and elsewhere.

About this degree

Students develop a systematic approach to devising experiments and/or computations and gain familiarity with a broad range of synthetic, analytical and spectroscopic techniques, acquiring skills for the critical analysis of their experimental and computational observations. They also broaden their knowledge of chemistry through a selection of taught courses and are able to tailor the programme to meet their personal interests.

Students undertake modules to the value of 180 credits.

The programme consists of one core module (30 credits), four optional modules (15 credits each) and a research project (90 credits).

Core modules

All students undertake a literature project (30 credits) and a research dissertation (90 credits), which are linked.

  • Literature Project

Optional modules

Students choose four optional modules from the following:

  • Advanced Topics in Energy Science and Materials
  • Advanced Topics in Physical Chemistry
  • Biological Chemistry
  • Concepts in Computational and Experimental Chemistry
  • Frontiers in Experimental Physical Chemistry
  • Inorganic Rings, Chains and Clusters
  • Intense Radiation Sources in Modern Chemistry
  • Microstructural Control in Materials Science
  • Numerical Methods in Chemistry
  • Pathways, Intermediates and Function in Organic Chemistry
  • Principles of Drug Design
  • Principles and Methods of Organic Synthesis
  • Simulation Methods in Materials Chemistry
  • Stereochemical Control in Asymmetric Total Synthesis
  • Structural Methods in Modern Chemistry
  • Synthesis and Biosynthesis of Natural Products
  • Topics in Quantum Mechanics
  • Transferable Skills for Scientists

Dissertation/report

All students undertake an independent research project which culminates in a dissertation of 15,000 words and a viva voce examination (90 credits).

Teaching and learning

The programme is delivered through a combination of lectures, seminars, tutorials, laboratory classes and research supervision. Assessment is through the dissertation, unseen written examinations, research papers, a written literature survey, and an oral examination. All students will be expected to attend research seminars relevant to their broad research interest.

Further information on modules and degree structure is available on the department website: Chemical Research MSc

Careers

This MSc is designed to provide first-hand experience of research at the cutting-edge of chemistry and is particularly suitable for those wishing to embark on an academic career (i.e. doctoral research) in this area, although the research and critical thinking skills developed will be equally valuable in a commercial environment.

Recent career destinations for this degree

  • Project Manager, Jiang Clinic
  • Secondary School Teacher (Chemistry), Loyang Secondary School
  • PhD in Engineering, Imperial College London

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

Why study this degree at UCL?

With departmental research interests and activities spanning the whole spectrum of chemistry, including development of new organic molecules, fundamental theoretical investigations and prediction and synthesis of new materials, students are able to undertake a project that aligns with their existing interests.

Students develop crucial first-hand experience in scientific methods, techniques for reporting science and using leading-edge research tools, as well as further essential skills for a research career.

Research Excellence Framework (REF)

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

The following REF score was awarded to the department: Chemistry

94% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

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



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Excellent preparation for a career in research and development, or for a PhD. Hands-on training using instrumentation in our state-of-the-art Chemical Analysis Facility. Read more
  • Excellent preparation for a career in research and development, or for a PhD
  • Hands-on training using instrumentation in our state-of-the-art Chemical Analysis Facility
  • Acquire specialist practical and theoretical knowledge in your chosen area of chemistry
  • Comprises two taught modules and a one-year research project
  • Aimed at graduates from chemistry or a related discipline

What will you study?

Sample modules:

  • Advanced organic chemistry
  • Advanced topics in physical chemistry
  • Functional inorganic materials
  • Chemistry in industry and professional skills
  • Current topics in chemical research

Please note that all modules are subject to change. Please see our modules disclaimer for more information.

What career can you have?

You will acquire a number of valuable transferable skills relating to organisation and time management, communication, information handling, numeracy, problem solving and team working. 

Many of our master’s graduates go on to pursue a career in research and development.



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This MSc reflects the huge breadth and diversity in research and the application of physical chemistry and physical chemistry techniques, providing you with training and study in the concepts and techniques of physical chemistry, tailored to your own particular research interests. Read more
This MSc reflects the huge breadth and diversity in research and the application of physical chemistry and physical chemistry techniques, providing you with training and study in the concepts and techniques of physical chemistry, tailored to your own particular research interests.

This full-time postgraduate degree comprises tutorials, lectures and six months of intensive practical work, before undertaking a five-month independent research project. As well as developing your core knowledge of physical chemistry, you will learn how to critically analyse research data and research publications, and how to communicate scientific concepts and processes. Your research dissertation will be a major part of the course, enabling you to draw on the academic and applied research conducted at Leicester, in topics such as electrochemistry, interfacial properties, materials, atmospheric chemistry, gas-phase spectroscopy and microscopy.

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We offer research programmes in a variety of areas including Advanced Separations Engineering, Bioprocessing Research Unit, Reaction and Catalytic Engineering and Water and Wastewater engineering. Read more
We offer research programmes in a variety of areas including Advanced Separations Engineering, Bioprocessing Research Unit, Reaction and Catalytic Engineering and Water and Wastewater engineering.

Our philosophy

The Department of Chemical Engineering is a multidisciplinary centre focusing on research into future sustainable materials and technologies. Chemical engineering research is crucial and supports development and production of new materials, fuels, drugs, consumer products, health care products, foods and beverages, electronic components, medical implants, and more.

As the number and complexity of chemical, biochemical and biological materials used in consumer products and supporting technologies increases, this research will play an increasingly vital role in the development of modern societies across the world.

Our applicants

We seek applications from outstanding individuals from anywhere in the world who are strongly committed to and potentially capable of high-quality academic research in any of the disciplinary areas covered by our Research Centres. You can apply for one of our pre-defined research projects or develop your own proposal. Our academic staff are always open to ideas that extend existing work or introduce new topics to their subject areas.

The dissemination of research findings is seen as a vital component of the research process and graduate students are encouraged to prepare papers for publication as part of their research training.

Successful applicants are welcomed very much as junior academic colleagues rather than students, and are expected to play a full and professional role in contributing to the Department’s objective of international academic excellence.

Visit the website http://www.bath.ac.uk/engineering/graduate-school/research-programmes/chemphd/index.html

Structure

The MPhil programme combines taught research training and applied research practice.

Candidates join the Department as a member of the Research Centre (http://www.bath.ac.uk/chem-eng/research/index.html) in which they initially have a broad research interest and that will have overseen their acceptance into the Department.

Candidates are expected to carry out supervised research at the leading edge of their chosen subject, which must then be written up as a substantial thesis.

International students

Please see the International students website (http://www.bath.ac.uk/study/international/) for details of entry requirements based on qualifications from your country.

In addition all non-native speakers of English are required to have passed English language tests as follows.

If you need to develop your English language skills, the University’s Academic Skills Centre (http://www.bath.ac.uk/asc/) offers a number of courses.

Only English language tests taken in the last two years are valid for entrance purposes.

About the department

This is a dynamic department, actively pursuing advanced research in many areas of chemical, biochemical and biomedical engineering, and also offering taught Masters courses. The Department is internationally recognised for its contributions to research, many of which are achieved in partnership with industry and prestigious research organisations. Our staff are highly skilled with excellent international reputations, and our facilities are amongst the best in the country.

Facilities and equipment
The Department has a full range of research facilities with pilot plants for all major areas of research. Our analytical facilities include gas chromatography, mass spectrometry, high performance liquid chromatography (HPLC), UV-VIS, FTIR and Raman, photon correlation spectroscopy (PCS), microcalorimetry, adsorption measurement systems, surface and pore structure analysis systems and particle sizing equipment. Within the University, there is access to atomic force, scanning and transmission electron microscopes.

International and industrial links
We have active links with UK universities - Bristol, Durham, Glasgow, Leeds, Imperial College, Liverpool, Oxford, Cambridge, Southampton, Edinburgh - and with European institutions including the CNRS laboratory at Toulouse and Lappeenranta University of Technology in Finland together with the Universities of Alicante, Delft, Oveido, Porto, Paris, Aachen and Wroclaw.

Research Excellence Framework 2014
We are proud of our research record: 89% of our research was graded as either world-leading or internationally excellent in the Research Excellence Framework 2014, placing us 10th in the UK for our submission to the Aeronautical, Mechanical, Chemical and Manufacturing Engineering.

Careers information
We are committed to ensuring that postgraduate students acquire a range of subject-specific and generic skills during their research training including personal effectiveness, communication skills, networking and career management. Most of our graduates take up research, consultancy or process and product development and managerial appointments in the commercial sector, or in universities or research institutes.

Other resources
Postgraduate students are encouraged to become members of professional societies and to present the results of their research at national and international scientific meetings. The Department runs a vibrant weekly research seminar programme where students are given the opportunity to present their research.

Find out how to apply here - http://www.bath.ac.uk/engineering/graduate-school/research-programmes/how-to-apply/index.html

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

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

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

Key Features of MSc by Research in Chemical Engineering

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

Membrane separation

Biochemical engineering

Biomanufacturing

Engineering applications of nanotechnology

Bioengineering, biomedical engineering

Cell and tissue engineering

Colloid science and engineering

Desalination

Pharmaceutical engineering

Polymer engineering

Rheology

Separation processes

Transport processes

Water and wastewater engineering

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

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

Links with industry

One of the major strengths of Chemical Engineering at Swansea University is the close and extensive involvement with local, national and international engineering companies. The companies include:

Acordis

Astra Zeneca

Avecia

BP Chemicals

Bulmers

Dow Corning

GlaxoSmithKline

Nestle

Murco

Phillips 66

Unilever

Valero

Facilities

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

Swansea University has resources specific to Chemical Engineering.

Research

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

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

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

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.



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

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

Key Features of MSc in Chemical Engineering

The MSc Chemical Engineering course is built upon the wide range of research in chemical engineering at Swansea University. This includes engineering applications of nanotechnology, bioengineering, biomedical engineering, cell and tissue engineering, chemical engineering, colloid science and engineering, desalination, pharmaceutical engineering, polymer engineering, rheology, separation processes, transport processes, and water and wastewater engineering.

The MSc Chemical Engineering research project provides an opportunity to work with a member of academic staff in one of the above, or related, area of research. The project may also involve collaboration with industry.

The taught component of the MSc Chemical Engineering course covers specific areas of advanced chemical engineering as well as the complex regulations that are found in the engineering workplace. It also provides an opportunity for the development of personal and transferable skills such as project planning, communication skills, and entrepreneurship.

As a student on the Master's course in Chemical Engineering, you will advance your technical knowledge, which can lead to further research or a career in chemical engineering.

Modules

Modules on the MSc Chemical Engineering course typically include:

Complex Fluids and Rheology

Entrepreneurship for Engineers

Colloid and Interface Science

Communication Skills for Research Engineers

Water and Wastewater Engineering

Membrane Technology

Environmental Analysis and Legislation

Optimisation

Desalination

Polymers: Properties and Design

Principles of Nanomedicine

Nanoscale Structures and Devices

Pollutant Transport by Groundwater Flows

MSc Research Practice

MSc Dissertation - Chemical Engineering

Accreditation

The MSc Chemical Engineering at Swansea University is accredited by the Institution of Chemical Engineers (IChemE).

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

Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

Links with Industry

One of the major strengths of Chemical Engineering at Swansea University is the close and extensive involvement with local, national and international engineering companies. The companies include:

Acordis

Astra Zeneca

Avecia

BP Chemicals

Bulmers

Dow Corning

GlaxoSmithKline

Nestle

Murco

Phillips 66

Unilever

Valero

Swansea staff have research links with local, national, and international companies. An industrial advisory board, consisting of eight industrialists from a range of chemical engineering backgrounds, ensure our courses maintain their industrial relevance.

Facilities

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

Careers

The demand for Chemical Engineering graduates remains excellent with the highest starting salaries out of all engineering disciplines.

Chemical engineers find employment in a variety of public and private sector industries, applying the principles of chemical engineering to health, energy, food, the environment, medicine, petrochemicals and pharmaceuticals.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.



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This one-year programme at the University of Edinburgh will immerse you in the most current developments in chemical engineering, through a combination of taught modules, workshops, a research dissertation, and a number of supporting activities delivered by the key experts in the field. Read more

This one-year programme at the University of Edinburgh will immerse you in the most current developments in chemical engineering, through a combination of taught modules, workshops, a research dissertation, and a number of supporting activities delivered by the key experts in the field.

The programme will develop from fundamental topics, including modern approaches to understanding properties of the systems on a molecular scale and advanced numerical methods, to the actual processes, with a particular emphasis on energy efficiency, to the summer dissertation projects where the acquired skills in various areas are put into practice, in application to actual chemical engineering problems.

Programme structure

The programme develops from compulsory courses, emphasizing modern computational techniques and research methods, to a range of options. It is complemented by a strong management and economics component, culminating in a research project leading to a masters thesis.

Compulsory Courses

  • Numerical Methods for Chemical Engineers
  • Molecular Thermodynamics
  • Introduction to Research Methods

Optional Courses

Students must select one of the following courses during semester one:

  • Chemical Reaction Engineering
  • Fire Science and Fire Dynamics
  • Process Safety
  • Computational Fluid Dynamics
  • Group Design Project (Power Station with Carbon Capture and Storage)

Plus, five or six courses (depending on the weighting of the course) from the options listed below in semester two:

  • Adsorption
  • Separation Processes
  • Membrane Separation Processes
  • Batchwise and Semibatch Processing
  • Oil and Gas Systems Engineering
  • Polymer Science and Engineering
  • Supply Chain Management
  • Modern Economic Issues in Industry
  • Technology and Innovation Management
  • Nanotechnology
  • Engineering in Medicine
  • Nanomaterials in Chemical and Biomedical Engineering

Learning outcomes

  • A working knowledge of modern modelling and simulation approaches to understanding properties of chemical systems at a molecular level.
  • A working knowledge of advanced experimental techniques, such as for example particle image velocimetry, spectroscopy and infra-red thermography, as applied in engineering research and development.
  • Ability to transform a chemical engineering problem into a mathematical representation; broad understanding of the available numerical tools and methods to solve the problem; appreciation of their scope and limitations.
  • An understanding of the basic design approaches to advanced energy efficient separation processes.
  • Ability to transfer and operate engineering principles in application to other fields, such as biology.
  • Proficiency in using modern chemical engineering software, from molecular visualisation to computational fluid dynamics to process engineering.

On completion of the research dissertation, the students will be able to:

  • Plan and execute a significant research project
  • Apply a range of standard and specialised research instruments and techniques of enquiry
  • Identify, conceptualise and define new and abstract problems and issues
  • Develop original and creative responses to problems and issues
  • Critically review, consolidate and extend knowledge, skills practices and thinking in chemical engineering
  • Communicate their research findings, using appropriate methods, to a range of audiences with different levels of knowledge and expertise
  • Place their research in the context of the current societal needs and industrial practice
  • Adhere to rigorous research ethics rules
  • Exercise substantial autonomy and initiative in research activities
  • Take responsibility for independent work
  • Communicate with the public, peers, more senior colleagues and specialists
  • Use a wide range of software to support and present research plans and findings

Career opportunities

Our graduates enjoy diverse career opportunities in oil and gas, pharmaceutical, food and drink, consumer products, banking and consulting industries. Examples of the recent employers of our graduates include BP, P&G, Mondelēz International, Doosan Babcock, Atkins, Safetec, Xodus Group, Diageo, Wood Group, GSK, Gilead Sciences, ExxonMobil, Jacobs, Halliburton, Cavendish Nuclear to name a few. This wide range of potential employers means that our graduates are exceptionally well placed to find rewarding and lucrative careers. According to the Complete University Guide, the chemical engineering programme at the University of Edinburgh is ranked one of the top in the UK in terms of graduates prospects.

Find out more about career opportunities:

The MSc in Advanced Chemical Engineering may also lead to further studies in a PhD programme. With the 94% of our research activity rated as world leading or internationally excellent (according to the most recent Research Excellence Framework 2014), Edinburgh is the UK powerhouse in Engineering. As an MSc student at Edinburgh you will be immersed in a research intensive, multidisciplinary environment and you will have plenty of opportunities to interact with PhD, MSc students and staff from other programmes, institutes and schools.

Find out more about our research:



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Chemical engineering and chemical engineers provide the leading-edge solutions to the society’s needs. Read more

Mission and goals

Chemical engineering and chemical engineers provide the leading-edge solutions to the society’s needs: we need efficient and clean technologies for energy transformation, technologically advanced materials, better medicines, efficient food production techniques, a clean environment, a better utilization of the natural resources. Chemical Engineering plays a pivotal role because all these challenges have a common denominator: they involve chemical processes. Chemical engineers are the "engineers of chemistry": by making use of chemistry, physics and mathematics they describe the chemical processes from the molecular level to the macroscale (chemical plant), and design, operate, and control all processes that produce and/or transform materials and energy.

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

Career opportunities

The Master of Science programme in Chemical Engineering completes the basic preparation of the bachelor chemical engineer and provide guided paths towards high-level professional profiles which are employed in various industrial sectors including the chemical, pharmaceutical, food, biological and automotive industry; energy production and management; transformation and process industries; engineering companies designing, developing and implementing processes and plant; research centres and industrial laboratories; technical structures in Public Administration; environmental and safety consultancy firms.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Chemical_Engineering_01.pdf
Chemical engineering provides the leading-edge solutions to the society’s needs: we require clean energy sources, efficient and clean technologies for energy transformation, technologically advanced materials, better medicines, efficient food production techniques, a clean environment, a better utilization of the natural resources. Chemical Engineering plays a pivotal role because all these challenges have a common denominator: they are based on chemical processes. Chemical engineers are the “engineers of chemistry”: by making use of chemistry, physics and mathematics they describe the chemical processes from the molecular level (chemical bond) to the macroscale (chemical plant), and design, operate, and control all processes that produce and/or transform materials and energy. The Master of Science programme in Chemical Engineering provides guided paths towards high-level professional profiles which find employment in various industrial sectors. The programme is taught in English.

Subjects

The Chemical Engineering programme includes mandatory courses on Chemical reaction engineering and applied chemical kinetics; Advanced calculus; Industrial organic chemistry; Unit operations of chemical plants; Mechanics of solids and structures; Applied mechanics. Other courses can be selected by the students on many subjects related to e.g. chemical plants and unit operations, safety, process design, catalysis, material science, numerical methods, environmental protection, food production, energy, biomaterials, etc.. A proper selection of the eligible courses will lead to specializations in Process engineering, Project engineering or Product engineering.

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

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

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

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A core feature of the degree is the development of independent research skills, including the collection and analysis of data and critical review of the relevant literature. Read more

A core feature of the degree is the development of independent research skills, including the collection and analysis of data and critical review of the relevant literature.

The MSc(Research) normally takes two years of full-time study to complete, but you have the option to complete on a part-time basis.  In the first year you will complete 120 points of taught papers with the second year spent doing a 120 point research thesis.

Study an MSc(Research) at Waikato University and you will enjoy more lab and field work, more one-on-one time with top academics and access to world-class research equipment. Our great industry contacts will also mean exciting collaborations with local, national and international companies and organisations.

Facilities

The University of Waikato’s School of Science is home to a suite of well-equipped, world-class laboratories.  You will have the opportunity to use complex research equipment and facilities such as NMR spectroscopyDNA sequencing and the University of Waikato Herbarium.

The computing facilities at the University of Waikato are among the best in New Zealand, ranging from phones and tablets for mobile application development to cluster computers for massively parallel processing. Students majoring in Computer Science, Mathematics and Statistics will have 24 hour access to computer labs equipped with all the latest computer software.

Practical experience

You will spend more time putting theory into practice in the laboratories and out in the field. Smaller class sizes in taught papers mean more one-on-one time with renowned academics.

The University of Waikato also boasts excellent industry collaborations with organisations such as NIWA, AgResearch, Plant and Food Research and Landcare Research. These strong relationships generate numerous research projects for MSc(Research) students, who are able to work on real issues with a real client.

Subjects

Students enrolling in an (MSc(Research) via the Faculty of Science & Engineering can study Biological SciencesChemistryEarth SciencesElectronicsEnvironmental SciencesMaterials and ProcessingPhysics or Psychology.

Students taking  Computer ScienceMathematics or Statistics will enrol through the Faculty of Computing & Mathematical Sciences.

Career opportunities

  • Local and Regional Council
  • Crown Research Institutes
  • Energy Companies
  • Environmental Agencies
  • Government Departments
  • Biomedical/Pharmaceutical Industries
  • Private Research Companies
  • Food and Dairy Industries
  • Agriculture and Fisheries


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We offer research programmes in a variety of areas encompassing our Research Centres, Units and groups. The Department of Mechanical Engineering (http://www.bath.ac.uk/mech-eng/) has a proud record of achievement in education and research. Read more
We offer research programmes in a variety of areas encompassing our Research Centres, Units and groups.

Our research

The Department of Mechanical Engineering (http://www.bath.ac.uk/mech-eng/) has a proud record of achievement in education and research. Our research impact was officially recognised in the 2014 Research Excellence Framework (REF) (http://www.bath.ac.uk/research/performance/). 89% of our research was graded as either world-leading or internationally excellent, placing us 10th in the UK for our submission to the Aeronautical, Mechanical, Chemical and Manufacturing Engineering.

Our research activities cover the full spectrum extending from fundamental investigations to applied research. Many of these activities are carried out in conjunction with industry and other universities, both in the UK and overseas.

Visit the website http://www.bath.ac.uk/engineering/graduate-school/research-programmes/mechphd/index.html

Our applicants

We seek applications from outstanding individuals from anywhere in the world who are strongly committed to and potentially capable of high-quality academic research in any of the disciplinary areas covered by our Research Centres (http://www.bath.ac.uk/mech-eng/research/).

We encourage a wide range of interests. Academic staff are always open to ideas which extend existing work or introduce new topics to their existing subject areas.

Working with us

Successful applicants are welcomed very much as junior academic colleagues rather than students, and are expected to play a full and professional role in contributing to the Department’s objective of international academic excellence.

In many cases postgraduate projects are linked to industrial companies and are often carried out in collaboration with other departments within the University and other institutions. Postgraduates thus have the opportunity to work on interdisciplinary projects with a strong industrial relevance as well as on more fundamental engineering topics.

The dissemination of research findings is seen as a vital component of the research process and graduate students are encouraged to prepare papers for publication as part of their research training.

Structure

The MPhil and PhD programmes combine taught research training and applied research practice. Candidates join the Department as a member of the Research Centre in which they initially have a broad research interest and that will have overseen their acceptance into the Department.

Most research students who ‘do a PhD’ register in the first instance as probationer for the programme of PhD. Confirmation of PhD registration is subject to your passing an assessment process, which normally involves submission of written work and an oral examination.

Candidates are expected to carry out supervised research at the leading edge of their chosen subject, which must then be written up as a substantial thesis.

The final stage of the PhD programme is the oral or viva voce examination, in which students are required to defend the thesis to a Board of Examiners.

International students

See the International students website (http://www.bath.ac.uk/study/pg/apply/qualifications/index.html) for details of entry requirements based on qualifications from your country.

All non-native speakers of English are required to have passed English language tests.

If you need to develop your English language skills, the University’s Academic Skills Centre (http://www.bath.ac.uk/asc/) offers a number of courses.

About the department

Bath has a strong tradition of achievement in mechanical engineering research and education.

We are proud of our research record: 89% of our research was graded as either world-leading or internationally excellent in the Research Excellence Framework 2014, placing us 10th in the UK for our submission to the Aeronautical, Mechanical, Chemical and Manufacturing Engineering.

We offer taught MSc students the chance to carry out projects within outstanding research groupings.

Our research impact is wide and we are dedicated to working with industry to find innovative solutions to problems that affect all areas of society.

We are consistently ranked among the UK’s top 10 mechanical engineering departments in the annual league tables.

We believe in producing leaders, not just engineers.

We will give you the edge over your competitors by teaching you how technology fits into commercial settings. You will not only have access to cutting edge science and technology, we will also provide you with the skills you need to manage a workforce in demanding business environments.

For further information visit our departmental website (http://www.bath.ac.uk/mech-eng/pgt/).

Find out how to apply here - http://www.bath.ac.uk/engineering/graduate-school/research-programmes/how-to-apply/index.html

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This course will provide you with the opportunity to carry out an independent research project under the supervision of our leading academics. Read more
This course will provide you with the opportunity to carry out an independent research project under the supervision of our leading academics.

You will receive training in research methods and take a taught course unit in a relevant subject area. The research topic for your project is agreed with a supervisor in advance and can be in any area of the expertise in the department research groups. The project outline will be developed in consultation with your supervisor and project work is carried out in parallel with the taught courses, becoming full-time during the third term.

This Master’s by Research will provide you with a suitable background to work as a research assistant or as the grounding for further study towards a PhD.

See the website https://www.royalholloway.ac.uk/earthsciences/coursefinder/mscearthsciencesbyresearch.aspx

Why choose this course?

- This course is ideal for graduates in geology and related sciences who wish to carry out independent research over a shorter time period than is possible in a doctorate (PhD) programme. It allows you study at Master's level an aspect of the geological sciences which may not be catered for by specialist MSc programmes.

- You will be involved at every step of the research project - from planning and sample collection, laboratory work, result analysis, to writing your dissertation.

- It is ideal preparation if you are interested in studying for a PhD, but would like to have further preparation and training.

- In the 2008 Research Assessment Exercise (RAE), the Department of Earth Science’s research was ranked equal 6th in the UK with 70% rated as world-leading or internationally excellent in terms of originality, significance and rigour.

- The Department has up-to-date computer interpretation facilities, a full range of modern geochemical laboratories including XRF, quadrupole and multicollector ICP Mass Spectrometry, atmospheric chemistry and a new excimer laser ablation facility, excellent structural modelling laboratories, palaeontology and sedimentology laboratories.

Course content and structure

The course consists of the following three components:

A Research Study Skills Course Unit
- Personal research skills (e.g. safety, time and project management, teamwork)
- IT skills (e.g. literature retrieval, web authoring, databases, modelling)
- Data analysis skills (e.g. statistical methods, GIS systems, sampling techniques)
- Communication skills (e.g. posters, oral presentation, writing papers, web pages)
- Subject-specific skills and techniques. These amount to 55% of the research skills assessment, and for example may include parts of specialist taught courses (see below), a training course on the theory and practice of chemical and isotopic analysis, or other training arranged by the project supervisor. This will include training for research in the general field of the research project, not solely what is needed to carry out the project.

A Specialist Taught Course Unit
You will choose an advanced taught course unit relevant to the subject area of your research project. The following taught units are currently offered:
- Applied Sedimentology and Stratigraphy
- Pollution Sources and Pathways
- Oceans and Atmospheres
- Risk and Environmental Management
- Geographical Information Systems
- Environmental Inorganic Analysis
- Contaminants in the Environment
- Advanced Igneous Petrogenesis
- Seismic Processing and Interpretation
- Geodynamics and Plate Tectonics
- Interpretation of Structural Settings
- Coal Geology
- Petroleum Geology and Evaluation
- Terrestrial Palaeoecology
- Palaeoclimates

Research Project
The project may be on any topic which is within the broad research themes of the Department. You will be linked to a potential supervisor at the application stage and, in consultation with the supervisor, you will develop a detailed project outline during the first half of the first term. Project work is then carried out in parallel with taught courses during terms one and two, becoming the full-time activity after Easter. A bound dissertation is submitted for examination in early September.

On completion of the course graduates will have:

- an advanced knowledge and understanding of a variety of analytical, technical, numerical, modelling and interpretive techniques applicable to the specific field of earth sciences

- the articulation of knowledge and the understanding of published work, concepts and theories in the chosen field of earth sciences at an advanced level

- the acquisition of knowledge from published work in the chosen area of earth sciences to a level appropriate for a MSc degree.

Assessment

Research Study Skills: this is assessed by coursework and theory examination and will include short written assignments, a seminar, worksheets and practical tests. These assessments contribute 12.5% of the course marks.

Specialist Taught Course Units: these are mostly assessed by a written, theory examination and coursework. The unit assessment contributes 12.5% of the course marks.

Research Project: the project dissertation must be submitted in early September. It will be marked by both an internal and an external examiner, and will be defended at an oral examination with both examiners. The project assessment contributes 75% of the course marks.

Employability & career opportunities

Subject to agreement and suitable funding, MSc by Research students can transfer to the MPhil/PhD programme at Royal Holloway. They may use the research carried out for the MSc towards the PhD, and count the time spent towards MPhil/PhD registration requirements, provided that the MSc research forms a coherent part of the PhD, and that the transfer is approved prior to submission of the MSc research dissertation.

How to apply

Applications for entry to all our full-time postgraduate degrees can be made online https://www.royalholloway.ac.uk/studyhere/postgraduate/applying/howtoapply.aspx .

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