Part time Master's Degree in Environmental Engineering in Europe

See Part time Masters Programs in Environmental Engineering in Europe 2017

Environmental Engineering

A masters is earned after students complete an undergraduate degree program. To obtain a masters, you usually need to complete 12 to 18 college courses that often involve completing comprehensive tests and/or a thesis.

Environmental engineering refers to the branch of engineering that aims to bring long-lasting environmental solutions to global problems, such as a lack of clean water, pollution and waste treatment. Environmental engineers work with companies to develop solutions to these problems while also devising plans to prevent future contamination.

Europe is, by convention, one of the world's seven continents. Comprising the western most point of Eurasia, Europe is usually divided from Asia by the watershed divides of the Ural and Caucasus Mountains, the Ural River, the Caspian and Black Seas, and the waterways connecting the Black and Aegean Seas.

Contact Universities Best Part time Masters Degrees in Environmental Engineering in Europe 2017

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Master of Engineering Science in Water, Waste & Environmental Engineering

UCD College of Engineering and Architecture
Campus Part time 1 - 2 years September 2017 Ireland Dublin

This programme prepares graduates to work in the broad field of environmental protection and management. Students in this programme will gain advanced theoretical and conceptual knowledge and understanding in the area of environmental engineering... [+]

Top Part time Masters in Environmental Engineering in Europe. MEngSc Water, Waste & Environmental Engineering FT Graduate Taught (level 9 nfq, credits 90) This programme prepares graduates to work in the broad field of environmental protection and management. Students in this programme will gain advanced theoretical and conceptual knowledge and understanding in the area of environmental engineering on topics such as engineering hydrology, environmental modelling, water and wastewater treatment, solid waste management, and environmental data analysis, among others. The programme is delivered by a School that is highly ranked among leading world universities - top 200 in the QS world subject rankings A culturally diverse group of internationally renowned academic staff deliver the programme. Who should apply? Full Time option suitable for: Domestic(EEA) applicants: Yes International (Non EEA) applicants currently residing outside of the EEA Region. Yes Part Time option suitable for: Domestic(EEA) applicants: Yes International (Non EEA) applicants currently residing outside of the EEA Region. No This programme is designed for graduates from recognised 4-year (240 ECTS) honours level bachelor of engineering programmes (or equivalent) who wish to specialise in environmental engineering. (Graduates from “first cycle” (3-year, 180 ECTS) engineering programmes should see the related ME in Civil and Environmental Engineering.) Career Opportunities Graduates from the programme will find employment as engineers in the private sector (e.g., engineering consultancy, engineering design, project management, risk assessment,waste management), in the public sector (e.g., environmental protection, regulation, standards development, local government, river basin management), and in the non governmental sector (e.g., environmental advocacies, NGO’s), or may wish to pursue further qualifications (e.g., PhD, MBA) to become even more specialised. Employers of environmental engineers include commercial firms, engineering consultancies, government agencies, and non-governmental organisations, all well known in Ireland and many with global operations. Some of these include: • RPS Group • White Young Green • Nicholas O’Dwyer • Atkins • Greenstar • Arup • McKinsey and Company • Mazars • Environmental Protection Agency • Local Authorities • Engineers Without Borders • Engineers Against Poverty • Friends of the Earth Fees, Funding and Scholarships MEngSc Water, Waste & Environmental Engineering (T277) Full Time EU fee per year - € 7490 nonEU fee per year - € 23800 MEngSc Water, Waste & Environmental Engineering (T278) Part Time EU fee per year - € 3830 ***Fees are subject to change Tuition fee information is available on the UCD Fees website. Please note that UCD offers a number of graduate scholarships for full-time, self-funding international students, holding an offer of a place on a UCD graduate degree programme. For further information please see International Scholarships. Entry Requirements Applicants need to hold a recognised bachelor’s degree (honours) in engineering (minimum 4-yr, 240 ECTS), preferably in civil engineering or environmental engineering, or equivalent with high academic grades, i.e. a minimum 2H1 Honours level or its equivalent (your transcript should include grades for each subject taken); names and contact details of two referees who can assess your intellectual ability, maturity and motivation. Applicants whose first language is not English must also demonstrate English language proficiency of IELTS 6.5 (no band less than 6.0 in each element), or equivalent. Testimonial Graduate Karl Corcoran, OCSC Consulting Engineers. I chose the MEngSc Water, Waste & Environmental Engineering because it was the only programme of this nature available in the Republic of Ireland. A mixture of lectures and workshops for several modules also allowed me to gain hands-on experience of some of the computer packages used in the fields of water, waste and environmental engineering. I am currently working with OCSC Consulting Engineers. The position I was hired for, and the main sectors that I am currently working in, were those covered in the MEngSc and having completed this masters certainly helped me to obtain employment in this field. I would highly recommend this programme. *Courses will remain open until such time as all places have been filled, therefore early application is advised [-]

Master Ingénieur en Géologie

Institut Polytechnique LaSalle Beauvais
Campus 5 years September 2017 France Beauvais

Vous avez un goût naturel pour la géologie. Confronté dès la première année à l’expérience du terrain, vous êtes formé à résoudre des problèmes concrets liés aux sols et aux soussols, en France et à l’international. [+]

Ingénieur en Géologie Please note that this program is entirely taught in FRENCH La forte croissance démographique au niveau mondial exige une recherche accrue des sources d’eau potable, des gisements d’hydrocarbures et de ressources minérales, ainsi qu’une optimisation de leur utilisation. La fragilité de notre planète nécessite l’implication de spécialistes capables de mener à bien des projets d’aménagement respectueux de l’environnement. Expert dans l’étude des sous-sols, l’ingénieur géologue est désormais le pivot incontournable de tous les projets d’exploration, d’exploitation et d’aménagement, aussi bien en domaine terrestre que marin. Spécialiste des ressources énergétiques Il collabore étroitement à la recherche de nouveaux gisements ou bien contribue à l’optimisation de la production par la géomodélisation des réservoirs. Spécialiste des ressources minérales Il participe à l’exploration et au développement de nouveaux prospects et gère les aspects techniques, économiques et environnementaux des sites d’exploitation. Spécialiste de l’environnement Il est souvent affecté à la prévention des risques naturels ou industriels. Il peut aussi devenir un professionnel de la gestion de l’eau, de la dépollution des sols ou du stockage des déchets. Spécialiste de l’aménagement Il collabore aux travaux de reconnaissance, de dimensionnements et de construction de divers ouvrages comme les barrages, digues, tunnels, autoroutes… Pourquoi devenir ingénieur géologue? Vous avez un goût naturel pour la géologie. Confronté dès la première année à l’expérience du terrain, vous êtes formé à résoudre des problèmes concrets liés aux sols et aux soussols, en France et à l’international. Notre différenciation ? Une approche pédagogique dans laquelle la théorie n’est pas toujours le point de départ de l’apprentissage. Vous apprendrez à observer pour tirer des conclusions à partir de vos expériences, de vos recherches et des travaux sur le terrain. Accompagné par une équipe d’enseignants-chercheurs et de professionnels, vous apprendrez à agir et à résoudre les problématiques de l’entreprise dans les secteurs des matières premières minérales, des énergies renouvelables et fossiles, de l’aménagement du territoire ou encore de l’environnement. [-]

Master in Environmental Engineering

University of Oulu
Campus 2 years September 2017 Finland Oulu

If you are interested in environmental, energy, and technology issues and you want have an Master's Degree in environmental engineering, then the Master's Programme in Environmental Engineering, "BEE", is your chance! [+]

Top Part time Masters in Environmental Engineering in Europe. Master in Environmental Engineering If you are interested in environmental, energy, and technology issues and you want have an Master's Degree in environmental engineering, then the Master's Programme in Environmental Engineering, "BEE", is your chance! The next available application period, for the autumn 2017 admissions, will begin on Dec 15th, 2016 and end on Jan 25th, 2017 at 15:00 GMT+2. Programme Outline for BEE The extent of the Master's Programme in Environmental Engineering (BEE) is 120 ECTS = 2 academic study years = 4 academic terms. The curricula of the two BEE study options (ESCP; WE) consist of 4 modules: a Basic Module, 30/30 ECTS; an Advanced Module, 30/20 ECTS; a Supplementary Module, 30/40 ECTS, and a Master's Thesis Module 30 ECTS. See the link below for details and examples of the courses included: The active BEE studies begin on September (after an Orientation period in August), on the autumn term of the 1st study year mainly with introductory Basic Module courses. This module forms the grounds for the programme learning outcomes. During the 1st spring term and the 2nd year autumn term, the Advanced and Supplementary Module courses will provide further professional basis for the student's majoring object, his/her study option. In addition, professional practical training will be carried out during the summer months between the 1st and 2nd study years, e.g. in a university reseach unit or in real life jobs, which the students will find in the open labor markets. On the 3rd term (autumn term of the 2nd study year), the continued Advanced/Supplementary Module courses dig deeper into the area of the chosen study option. Finally, during the 4th term (2nd spring), the Master's Thesis project will give the student a good touch for the future professional career. Master's Thesis project is an independent research project completed in the final stage of the major subject studies. It includes, e.g., literature searches, collection of research materials, their analysis, and writing of thesis, etc. The Master's Thesis project will also include writing a Maturity Test. By the Master's Thesis and the Maturity Test, the student shows that he/she can master research methods, usage of source materials, and scientific writing in her/his field. The subject of the thesis project may vary within different areas of environmental and/or process engineering. International Master's Programme in Environmental Engineering, "BEE" BEE, the Master’s Programme in Environmental Engineering, is a two-year Master's Programme of 120 ECTS, based on environmental, process and civil engineering subjects. The language of implementation of the two BEE study options (the majors 'Energy Systems and Cleaner Production'; and 'Water Engineering') is English. The BEE curriculum is multidisciplinary, including studies on energy systems and sustainable technologies, research methodologies, clean production methods, water engineering, water and environmental issues, environmental engineering, process engineering, etc. BEE studies include subjects on areas rich in natural resources of high economic value in an ecologically sensitive nature. Utilization of such resources requires both more environmentally friendly processes in industry and innovative measures in environmental protection and restoration. These are the needs BEE programme gives solutions to by educating environmental engineers with skills to solve environmental problems and challenges both locally and globally. BEE is integrated to the national Master's Programme in Environmental Engineering, organized by the Study Field of Process and Environmental Engineering at Faculty of Technology, University of Oulu, Finland, as two study options (majors), 'Energy Systems and Cleaner Production"; and "Water Engineering", fully available in English. The study options provide knowledge on how to manage environmental issues within energy systems and water engineering industries by application of proper production methods, tools and technologies, and on the protection and restoration of natural environments, on water and soil pollution prevention methods, water and wastewater treatment, and waste technologies. Graduate profile The graduated BEE students will be awarded a degree of Master of Science in Technology, in the area of Environmental Engineering, by the Faculty of Technology, University of Oulu. The graduates will have scientific approach into environmental protection and management of natural resources, and knowhow for scientific and applied work both in industry and academia. They can enter job markets as experts in environmental engineering in their chosen study option with perspective in and skills to understanding international contexts of environmental issues. The graduates are able to work in different environment related business sectors, in local and regional public administration, as well as environmental authorities or research institutes, not only within the region, but also in international tasks. Programme Admissions in BEE The next available application period for the Master's Programme in Environmental Engineering ("BEE") studies, starting on autumn 2017, will open on Dec 15th, 2016 and end on Jan 25th, 2017, at (15:00 GMT+2). Detailed information on how to apply will be published on the University of Oulu Admission to Master's Programmes pages. Below you can find the next information on applying to the BEE programme: Programme specific academic requirements Required application documents Description of the selection process Detailed selection criteria Student selection Programme Specific Academic Requirements Please note that the General Academic Requirements and Language Requirements are same for all (including BEE) international Master's Programmes of the University of Oulu. Read more about these at Admission to Master's Programmes pages. For the Admissions 2017: A successful applicant must fulfill all of the next programme specific criteria (for language skills, background degree, and previous studies) to be eligible to apply to the BEE MDP and its majors (study options): The applicant must qualify for the GENERAL ACADEMIC REQUIREMENTS and LANGUAGE REQUIREMENTS set by the University of Oulu (link provided above); and The applicant must have, or soon have (*), minimally a BACHELOR'S DEGREE: Lower academic degree or equivalent, of at least three years of full-time studies = 180 ECTS; with excellent grades from an institution of higher education. This Bachelor's degree must EITHER be IN a suitable area of ENGINEERING (e.g. in environmental, process, chemical, or civil engineering), OR IN NATURAL SCIENCES applicable for later engineering studies (e.g. environmental sciences, chemistry, geology, or physics etc.); and Within the before-mentioned degree, the applicant has STUDIED, and got good or excellent grades, in MATHEMATICAL SCIENCES (math studies are an absolute and compulsory requirement, and also chemistry and/or physics are noted); Further, it is viewed as a BENEFIT, if he/she has also performed studies in one or more areas of PROCESS ENGINEERING (process, chemical or civil engineering studies). (*)Conditional: Also applicants who are on their last term/semester of Bachelor’s studies (applicants graduating spring/second term 2017) can apply to study for a BEE Master’s programme, but they have to complete their Bachelor's degree before they can finally be accepted. In the case that the applicant would be accepted for study in the BEE MDP, the applicant must submit officially certified copies of his/her Bachelor’s degree certificate and the final transcript of records, etc., before they can be fully admitted. Required application Documents 2017 All required application documents and the process are also described in the Admission to Master's Programmes pages. PLEASE NOTE that only complete and authentic applications, submitted within the deadline will be processed/considered by the programme Selection Committee. Selection Process The BEE student selection procedure can have two phases: 1. Evaluation of the written applications, and optionally 2. Interviews of part of the applicants. For about one month after the application period deadline, the submitted applications will be pre-processed and examined for their eligiblity and authenticity. The BEE Programme Selection Committee at UOulu will have their Selection Meeting (starting about 2 months after the application deadline), where they will evaluate the eligible and authentic applications against the pre-set criteria (=> 1. are applicant's English skills meeting the criteria, 2. what is the applicant's background degree, 3. has the applicant studied any math courses, 4. does he/she have any previous engineering studies, 5. how is the motivation of the applicant, 6. what kind of background does the applicant have based on his/her CV, 6. what kind of recommendations does the applicant have). Based on this evaluation, the Selection Committee may invite some of the applicants to an interview if further evaluations would be needed. These applicants, especially those that reside outside Finland, would be interviewed via telephone, etc. accessible method. If implemented, the interviews can be recorded for possible later use during the evaluation. The interviews would be held during one working week during the Selection Meeting. Based on all implemented evaluations, the Programme Selection Committee will make a suggestion to the Faculty Selection Committee and Dean of the Faculty of Technology about the student selection for BEE intake. About 3 months after the application deadline, they will make final decicions on the student selections for all international Master's Programmes of the Faculty and the final selection results will be announced to the applicants personally and at a University of Oulu webpage (if the applicant has allowed that), by the University of Oulu. Detailed Selection Criteria For any evaluation to take place, the applicant must be fully eligible and his/her application has to be totally complete and authentic and submitted within the application period. Late, unauthentic or uncomplete applications will not be processed. The evaluation criteria used in the selection process are weighed as follows: MAX. 100 points (1-6), and for of which: Background degree, max 10 p Previous studies, max. 55 p (mathematical sciences studies, wherein math compulsory, physics and chemistry noted; and previous engineering studies, especially in process, chemical or civil engineering noted) Level of motivation, based on the motivation letter, max 15 p English language skills, marked as accepted if meeting the university criteria, and max 3 extra points, if excellent Background supportive, based on the CV, for later BEE studies, max 20 p Two recommendations, max 4 extra p in total In addition, interview (if implemented), max 10 p After these 1st phase evaluations, the selection committee may invite some of the applicants to an interview for further evaluations where needed (optional). The chosen applicants, especially those that reside outside Finland, would then be interviewed via telephone, etc. accessible method. When implemented, the interviews can be recorded to use them later in the evaluation. The interviews would be held during one working week. Student Selection Annually max. 15 applicants can be admitted to BEE. There are no waiting lists. The student selection results will be announced at the University of Oulu webpage if the applicant has allowed this. The applicants accepted to study at the University of Oulu Faculty of Technology Master's programmes, including the BEE programme, will receive an official (electronic) acceptance letter with some admission materials and instructions from the University of Oulu (to the email address they provided in their application, so the applicants need to fill in this information carefully while applying). Then the accepted applicants have to return a study place confirmation letter (confirmation in writing) , whether they will or not admit to the programme (by a certain deadline well before the academic year begins). This information along with the other needed admittance procedures will be described in the acceptance letter. Also conditional offers will be possible, i.e. the applicants are allowed to apply when on their last semester and just about to graduate as Bachelors (or higher). If they then would be conditionally accepted, they also have to confirm admitting their study place as described above, but in addition, to be finally accepted, they must well in time before another deadline to be able to send their finalized bachelor's degree certificate and transcript of records (as certified copies) to the University of Oulu, since the documents have to reach the UOulu by this 2nd deadline. If they fail to do so, their study place will be waived. Rejected applicants will be notified by email (to the email address they provided in their application). University of Oulu International Master’s Scholarship Scheme 2017-2018 Connected with the renewal of university strategy, the increased importance of internationalization and the introduction of tuition fees for non-EU/EEA citizens, the University of Oulu has assigned a significant amount of money for tuition scholarships for 2017 entry. The scholarships will be granted in the form of a tuition fee waiver. The tuition fee waiver awarded covers 100 % of the full tuition fee. Applicants can apply for the tuition scholarship as part of the admissions process. University of Oulu Scholarship Scheme in more detail The University of Oulu International Master’s Scholarship Scheme (IM Scholarship) provides scholarships to academically talented international students. The scholarship is aimed at students studying for a Master’s degree in the University of Oulu two-year International Master’s programmes. The scholarship covers the full international tuition fee. University of Oulu IM Scholarships do not cover living costs. In order to retain the scholarship in the following year of study, a student must have completed 55 ECTS by the end of the previous academic year. If a student does not achieve this requirement during the first year of studies, they will be liable to pay the full international tuition fee for the second year if they wish to complete their Master’s degree programme. An exception to this rule can be made if a student has been granted approved leave from studies (e.g. due to serious illness). Eligibility Requirements to Apply for International Master’s Scholarship Applicants are eligible to apply for a University of Oulu IM Scholarship 2017-18, if they are: Non-EU/EEA* citizens who do not have a permanent residence permit in Finland. (Applicants not eligible for the International Master’s Scholarship are: 1) non-EU/EEA citizens who have a permanent residence permit in Finland, 2) EU/EEA citizens or comparable persons, 3) University of Oulu students who have been accepted to study BEFORE the academic year 2017-18.) Eligible to apply for a Master’s degree programme at the University of Oulu for academic year 2017 – 18. The applicant has obtained their first academic degree (Bachelor’s or equivalent) from a recognised institution of higher education. The applicant proves a high level of proficiency in English language. Approved methods of demonstrating language proficiency. Applicants who are in their last term/semester of studies for their first academic degree during the application period, can apply for the scholarship. Applicants who receive a conditional offer of study placement for a Master’s programme will receive a conditional scholarship offer. The scholarship application will be processed in the selection procedure only if the applicant meets the admissions criteria. *European Union / European Economic Area member states are: Austria, Belgium, Bulgaria, Cyprus, Czech, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Liechtenstein Republic, Denmark, Lithuania, Luxembourg, Malta, Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, and United Kingdom. With the EU legislation, Switzerland is also comparable for EU member states. The nature of residence permit is indicated in the residence permit with a letter. A permanent residence permit bears the letter P or A and an EC residence permit for third-country nationals with long-term EC resident status bears the letters P-EY. Application for International Master’s Scholarship 2017-18 There is no separate application system for the International Master’s Scholarship. All applicants for University of Oulu Master’s degree programmes need to complete the Student Application Form. Those applicants who are applying for the University of Oulu International Master’s Scholarship have to additionally complete the “Application for Scholarship,” section which can be found at the end of the Student Application Form. The International Master’s Scholarship application section cannot be completed and/or submitted without the Student Application Form. The application period for the University of Oulu Master’s degree programmes and International Master’s Scholarships is 15.12.2016-25.1.2017 Selection criteria for University of Oulu IM Scholarship 2017-2018 Admissions and scholarships decisions will be taken at the same time. Those students successful in obtaining an International Master’s Scholarship will be notified at the same time as their offer of admission to their International Master’s programme is confirmed. The selection criteria for the University of Oulu IM Scholarship are based on previous academic performance and academic potential. For questions concerning the University of Oulu IM Scholarship, please contact admissions.officer(a)oulu.fi [-]

Master in Hydrodynamics and Ocean engineering

Centrale Nantes
Campus 2 years September 2017 France Nantes

The aim of this program is to give students and advanced training on typical problems of hydrodynamics applied to ocean and offshore engineering: ship resistance, seakeeping, water waves and marine environment. Physical, modelling and numerical aspects are studied. [+]

The Master in Hydrodynamics and Ocean engineering

 

This Master is internationally recognized and accredited by the French Ministry of Higher Education.

The quality of the courses has been recognized within the prestigious Erasmus Mundus framework of the European commission through the EMship Master.

A large part of the training is dedicated to practical use of softwares to solve problems defined above a large variety of numerical methods: boundary elements or spectral methods under potential flow theory, finite-difference or finite-volume techniques in solvers for viscous flows, Smooth Particles Hydrodynamics (SPH).  

 

 

Language of teaching... [-]


Master of Environmental Engineering

Klaipeda University
Campus 2 semesters September 2017 Lithuania Klaipeda

The objective of the Master programme in Sea Environmental Engineering is to develop the knowledge in the fields of sea environmental protection technologies, technical and technological matters pollution decreasing and waste arrangement. The graduates of these study programme are ready to use theoretical knowledge and practical analytical experiences in research work and solving problems of production... [+]

Top Part time Masters in Environmental Engineering in Europe. Master of Environmental Engineering The objective of the Master programme in Sea Environmental Engineering is to develop the knowledge in the fields of sea environmental protection technologies, technical and technological matters pollution decreasing and waste arrangement. The graduates of these study programme are ready to use theoretical knowledge and practical analytical experiences in research work and solving problems of production. Master of these profession could work as specialist at maritime organizations, maritime enterprises, research, manage and control institutions or continue studies to get doctor degree. Key learning outcomes Knowledge and Understanding A1 Coherent knowledge of environmental problems in the sea, the lagoon, the ports and other areas of shipping, knowledge of the marine industry and maritime transport impact on the environment; creation and application of modern technologies to reduce or even prevent the negative influence of anthropogenic factors on the environment; A2 Understanding of application of management elements in the environmental field, principles and methods of coastal zone management and planning, a critically evaluate and analyze the marine environmental systems and their management methods; A3 Coherent knowledge of basics of scientific research, use of renewable energy sources and their impact on the environment, energy conservation and waste management techniques, development of advanced environment saving technologies and their application in maritime cluster; A4 Understanding of ecological aspects of the geochemical phenomena change and the microbiological processes; of change in ecological processes and their modelling, application of sustainable development principles in maritime cluster; A5 Understanding critically of essence of marine environmental engineering. Engineering Analysis B1 The ability to apply innovative methods of identification, formulation and analysis of emerging issues in marine environment and to plan their possible solution; B2 The ability to apply knowledge of environmental engineering and research results dealing with the qualitative and quantitative problems of known and unknown nature in the field of ever changing maritime transport and maritime industry development; B3 The ability to apply their knowledge and understanding in assessing the latest achievements and research results in marine environment protection and sustainable development of maritime cluster; ability to master environmental impact reducing methods by the application of modern high-tech; B4 The ability to apply their knowledge and understanding in making professional decisions, balancing the costs, safety, quality, reliability and environmental impact. Engineering Design C1 The ability to apply their knowledge and understanding of environmental engineering to solve unfamiliar problems of environmental technology design and implementation of innovations, to coordinate projects aimed at the marine economy environmental impact abatement; C2 The ability to make innovative solutions, based on environmental monitoring, analysis of technological processes and research results; C3 The ability to apply engineering methods for solution of specific marine environmental problems; C4 An ability to use creativity to develop new and original ideas and methods; C5 An ability to use their knowledge and judgement of marine environmental engineering to work with complexity, technical uncertainty and incomplete information. Investigations D1 The ability to identify, understand and obtain required data; D2 The ability to design and conduct analytic, modelling and experimental applied research of environment contamination and technological facility, to provide consultingn the field of environmental efficiency increase; D3 The ability to critically evaluate research data and present conclusions to professionals and non-specialist audiences; D4 The ability to investigate the application of new and emerging technologies in the marine environmental engineering. Engineering Practice E1 The ability to integrate the knowledge from different branches of science adapting them in the marine environment protection; E2 A comprehensive understanding of applicable techniques and methods highlighting their limitations and advantages; E3 Knowledge of the ethical, environmental, safety and commercial implications of engineering practice. Transferable Skills F1 Fulfil all the Transferable Skill requirements of a First Cycle graduate at the more demanding level of Second Cycle ( The ability to clearly and correctly present research results and conclusions in written and oral form for various audiences; to have study and organizational skills required for the continuous professional growth); F2 Fulfil all the Transferable Skill requirements of a First Cycle graduate at the more demanding level of Second Cycle ( an analytical, systematic and critical thinking skills to solve problems in a lack information and having contradictory informatio); demonstrate awareness of the impact of engineering solutions in a societal and environmental context); F3 The ability to work as a member of team, that may be composed of representatives from various areas (specialties) and levels, to solve various problems of the marine environment and manage the activity; F4 work and communicate effectively with representatives of other organizations in national and international contexts. Occupational profiles of graduates with examples Having acquired the environmental engineering Master's Degree can work as research, technology, expert, advisory work on marine infrastructure enterprises, scientific, and regulatory authorities in the environmental field, the installation and operation of environmentally friendly technologies to evaluate and predict the state of the environment, to continue doctoral studies. Examination regulations, assessment and grading The University applies cumulative grading in order to ensure objective evaluation, active students’ participation during the semester and their ability to apply theoretical knowledge in practice. Cumulative grading final evaluation consists of interim course assignments (test, individual work, paper, laboratory work defence, and etc.) and final exam grades. If the student fails the interim course assignments and does not make to transition grade−minimal grade of determined interim course assessments−he is not allowed to take the final exam. Each study programme is completed by defending final thesis (project) and (or) taking final exams. Graduation requirements Undergraduate and master student’s knowledge, skills and abilities, indicated in the study programme description, are examined and evaluated during the public defence of his Final thesis. Final thesis by its nature can be scientific research or scientific-applied. Final thesis is analytical work based on independent scientific or applied research. A Bachelor’s thesis comprises 12 credits; Master’s thesis comprises 30 credits in the study programme of 120 credits or 24 credits in the study programme of 90 credits. Final thesis and its defence is to demonstrate student’s creativity and the ability to critically evaluate theoretical and practical innovations, as well as others’ previously carried out researches and their results; to indicate student’s knowledge in social and commercial environment, legislation, and financial capacity; to show information sourcing and its qualified analysis skills, computational methods and specialized software and general-purpose information technologies using skills, as well as the ability to clearly and correctly orally or in written present their research results and (or) product designed to different audiences. [-]

Master in Photovoltaics and Solar Energy Technology

Saint Petersburg Electrotechnical University
Campus 2 years September 2017 Russia St. Petersburg

The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. [+]

The structure of the degree program consists of advanced professional studies, elective courses and Master’s Thesis. Students get knowledge of underlying physical principals and material science aspects of photovoltaics, technology and metrology of solar modules, equipment, design and maintenance of solar power plants. Special attention is dedicated to Silicon photovoltaics, including the most efficient HIT (Heterojunction with Intrinsic Thin layer) structures. Program curriculum includes the following advanced courses: Fundamentals of solid state physics; Fundamentals of Photovoltaics; Computer Simulation in Electronics; Metrology of photovoltaic cells and modules; Diagnostics of materials and structures in microelectronics and photovoltaics; Optical and spectroscopic methods of diagnostics in photovoltaics; Technology of silicon solar modules; Laser technologies and processing in manufacturing of solar modules; Microprocessors and microcontrollers ; Equipment and automation of solar power plants; History and Methodology of Electronics. Students have access to the most modern and sophisticated technological and metrological equipment for solar modules production and testing at the Research and Development Center for Thin-film Technologies in Energetic under Ioffe Institute. Using these facilities they carry out scientific research and get skills of practical work with real metrological instruments and technological apparatuses. In 2015 program “Photovoltaics and Solar Energy Technology” successfully underwent general assessment and was awarded EUR-ACE® label by ENAEE - European Network for Accreditation of Engineering Education. Department of Quantum Electronics and Optoelectronic Devices is one of the oldest and the most renowned departments in the University. It was established in 1931, more than 80 years ago. The research activity of the Department is focused on semiconductor and thermoelectric photodetectors, infrared systems, lasers and laser technologies, optoelectronic devices for remote sensing and photovoltaics. Many outstanding Russian scientists and engineers graduated from the Department of Quantum Electronics and Optoelectronic Devices. The most renowned of the Department’s alumni is the laureate of the Nobel Prize in Physics (2000) Prof. ZhoresAlferov, who started his brilliant scientific career in the laboratories of the Department. Programme: 120 ECTS credits, full-time study (2 years), Master’s Degree Eligibility: candidates must hold a Bachelor's Degree in the corresponding field Scholarship: scholarship covers the tuition fee and some study materials An academic year includes 2 semesters beginning on 1st September and 10th February, Winter holidays - 2 weeks, Summer holidays - 2 months (July, August). Master’s Thesis defense is in June. Educational programs of «LETI» are constantly modernized, following the principle «Training through research». Graduates of our university receive new, profound knowledge and practical skills of work. [-]

Master in Agricultural Engineering

Latvia University of Agriculture
Campus 2 years September 2017 Latvia Jelgava

The Master study programme of Agricultural Engineering offers two specialisation options: Automotive Engineering and Power Engineering. The programme includes the study courses: Research and Engineering science, Computerized Measurement Systems, Logistics, Transport Management and Logistics, Automobile Construction Technology, Traffic Management and Modelling, Alternative Fuels and Oils, Intellectual Technologies and systems, etc. [+]

Top Part time Masters in Environmental Engineering in Europe. The Master study programme of Agricultural Engineering offers two specialisation options: Automotive Engineering and Power Engineering. The programme includes the study courses: Research and Engineering science, Computerized Measurement Systems, Logistics, Transport Management and Logistics, Automobile Construction Technology, Traffic Management and Modelling, Alternative Fuels and Oils, Intellectual Technologies and systems, etc. The study programme is completed with the elaboration of the Master thesis envisaging analytical and experimental research. Experiments are performed in up-dated laboratories at the Faculty of Engineering using modern research methods and equipment. Admission Requirements Bachelor's degree in Engineering, Computer Sciences, Mathematics or Physics; Engineer qualification (higher professional education) eligible for studies at the Master study programme in engineering or computer sciences. English requirements: IELTS score 6.0, TOEFL score 547, TOEFL-iBT score 76. Career prospects and further studies The graduates work in state-owned or private companies of agricultural machinery, autotransport, energy supply and machine building. Master's degree entitles graduates to continue studies in a respective doctoral study programme in universities in Latvia or abroad. Why Latvia University of Agriculture? WORLDWIDE RECOGNISED DIPLOMA – diploma supplement acknowledged by the European Commission. Graduates can continue studies or work all over the world. ADVANCED FACILITIES – modern laboratory equipment, comfortable dormitories, studies in an outstanding architectural monument – the Jelgava Palace. REASONABLE COSTS – be smart and spend less by studying at LLU! ADVANTAGEOUS GEOGRAPHICAL LOCATION – major European cities can be conveniently reached by bus, airplane or ferry. GREEN AND SAFE ENVIRONMENT – a great way to experience Latvian culture. Despite variety of many different national and international events, Jelgava is a very safe city for everyone. STUDENT LIFE – well-balanced studies and cultural life, a wide variety of sports activities for free. Gain international experience by using international exchange opportunities! [-]

Master in Science and Materials of Solar Energy

National University of Science and Technology MISiS
Campus 2 years October 2017 Russia Moscow

This two-year Master’s program taught in English is designed create an integral understanding of modern technologies used in solar energy research and development, industrial production of modern solar cells, panels and systems. [+]

The two-year Master’s program Science and Materials of Solar Energy is designed create an integral understanding of modern technologies used in solar energy research and development, industrial production of modern solar cells, panels and systems. The main aim of the program is to prepare highly-qualified personnel capable of working in both research laboratories and the industrial sector, equipped with theoretical and practical knowledge and analytical and problem solving skills in the field of Solar Energy. The program provides necessary skills for development and modernization of the Renewable Energy sector by means of innovative solutions and deployment of new materials and technologies. It also prepares students for work in industrial, research and development companies, and laboratories, developing energy-efficient and environmentally friendly solutions to local and global problems. Successful completion of the course provides the student with the necessary theoretical and practical knowledge of various types and constructions of solar cells as well as production techniques and processes deployed by the micro and nano-electronics industries. The student gains knowledge about general fundamentals of material science, physical and chemical properties of materials used in electronics industry. The student is also provided with knowledge about the wide spectrum of applications and qualities of new materials and structures designed at the nano-scale. In addition to theoretical and practical knowledge of the main discipline, the student has access to the optional independent research projects and courses, which allows widening the spectrum of professional knowledge and skills in the area of innovative technology. These include Methods of structure research (provides understanding of how to choose the optimal method for a solution of a given research task) Fundamentals of solid state physics (describes internal processes in materials) Fundamentals of electronics (provides understanding of functions of fundamental elements of electronics systems on a micro level, circuit design, circuit characterization parameter control) Fundamentals of quantum physics Admission Admission to International Master’s Programs at MISiS is open to both Russian and international students. Given that all classes will be conducted in English, we recommend that nonnative speakers of English achieve a TOEFL score of at least 525 (paper based) or 200 (computer based) prior to admission. To apply for a two-year Master’s program at MISiS, the applicant must hold a Bachelor’s degree in a related field. Upon the completion of the program of study at MISiS, the applicant will receive a Russian State diploma and a European Diploma Supplement. Admission Deadline The deadline to submit the application for Fall 2017 is 10 May 2017.... [-]

Master in Civil and Environmental Engineering

University of Brescia
Campus 2 years October 2017 Italy Brescia

The Master's Degree Course intends to educate graduates who have an in depth knowledge of the theoretical and scientific aspects of engineering, both in general and in depth concerning environmental and land engineering... [+]

Top Part time Masters in Environmental Engineering in Europe. Entry requirements: Having adequate knowledge at the level of a Bachelor's degree, consistent with the disciplines covered by the Master's Degree course. Duration of the course: 2 years (120 credits) Educational goals: The Master's Degree Course intends to educate graduates who have an in depth knowledge of the theoretical and scientific aspects of engineering, both in general and in depth concerning environmental and land engineering, allowing them to identify, formulate and solve, also in an innovative manner, complex problems or problems which require an interdisciplinary approach; think up, plan, design and manage complex and/or innovative systems, processes and services; design and manage highly complex experiments. Employment opportunities: The professional contexts for the master's degree graduate in Environmental and Land Engineering are associated with the activities, to be carried out independently and also in an innovative fashion, related to planning and managing hydraulic and territorial protection works, plumbing and environmental works, systems of urban and extra-urban transport and of environmental survey; activities involving designing and direction for urban and land planning, programming and project making on different scales, as well as evaluating plans, projects and technological installations; activities of high level technical-administrative and technical-commercial management with public administrations, businesses, public and private agencies and professional offices. [-]

Master's Degree In Engineering And Environmental Technology

Fundación Universitaria Iberoamericana (FUNIBER)
Online Part time 6 - 24 months Spain

The Master in Environmental Engineering and Technology made a review from the technical point of view the various environmental problems arising from industrial activities ... [+]

Master of Engineering and Environmental Technology

Environmental problems have been progressing in line with industrial development, so that society should deal with it before reaching an unsustainable situation.

In this context, Environmental Engineering, as a prevention tool in pursuit of sustainable development, is the branch of engineering in charge of protecting the environment from the potentially harmful human activities, the populations of adverse environmental factors, Finally, to improve environmental quality for the health and wellbeing.

The Master in Environmental Engineering and Technology made ​​a review from the technical point of view the various environmental problems arising from industrial activities, and proposes the adoption of best practice solutions and always taking into account the economic and social factors. ... [-]


Safety, Quality, Environment and Risk Management Engineer

ESAIP Graduate School of Engineering
Campus 3 years September 2017 France Angers

A 3 year programme in French... [+]

Top Part time Masters in Environmental Engineering in Europe. A 3 year programme in French - QHSE - Industrial & Natural Risk management - Energy management - Circular economy [-]

Second Level University Professional Master MIPET: Master in Industrial Plant Engineering & Technologies

University Of Genoa (Università Degli Studi Di Genova)
Campus 1 year October 2017 Italy Genoa

MIPET (Master in Industrial Plant Engineering and Technologies) is a One-year Degree Program organized in Genoa University and focusing on preparing new generations of top quality technical experts for Process Engineering, Industrial Plant Main Contractors, Power & Energy Industry, Iron & Steel Sector, Plant Equipment Suppliers as well as Construction Companies. [+]

MIPET (Master in Industrial Plant Engineering and Technologies) is a One-year Degree Program organized in Genoa University and focusing on preparing new generations of top quality technical experts for Process Engineering, Industrial Plant Main Contractors, Power & Energy Industry, Iron & Steel Sector, Plant Equipment Suppliers as well as Construction Companies. MIPET main aim it is to satisfy the expectation from Leading Industries in term of high technical skills and excellence capabilities in Industrial Plants and Engineering. The Master Program is directed by Polytechnic School - Faculty of Engineering in strong cooperation with leading industries and major companies operating in these industrial sectors; this approach guarantees the relevance and effectiveness of the initiative in the international scenario. In fact this project is part of a large initiative devoted to develop excellence in Industrial Plant Engineering through the synergy between the expertise of Genoa University Engineering Faculty and Top Level Companies with long traditions that are leading this Area Nationally and Internationally in term of turnovers, size, processes and products complexity as well as knowhow and technical background and skills. Master Outcomes MIPET is devoted to create System and Process Engineers, Technical Coordinators operating effectively in Project Teams in Global Engineering and Construction. This Master provides deep technical skills in Industrial Plants as well as the capability to get the whole overview on the project and its technical aspects along the whole project phases: Offering, Engineering, Purchasing, Construction and Erection and Commissioning. At the completion of the Master Program students develop transversal capabilities in all the critical areas (mechanics, high power, electronics , automation, computation, management, security and safety, materials, processes and components) combined with their specialization expertise in specific Plant Sectors (i.e. Power Equipment, Iron & Steel) as well as with the Company Internship Experiences. Who Should Attend The Master in Industrial Plants is a Post Graduate University Program devoted to people with Engineering degree, addressing: Young Engineers with strong technical background Engineers interested in attending specific thematic educational modules of the Master Program that are already working in Companies involved in Construction and Engineering of Industrial Plant and related sectors MIPET General Program MIPET Program includes: Fundamentals in Industrial Plants, Construction and Engineering Operative Modules, integrated within the Master Program, but available even for being attended autonomously; these are dedicated to Project Works to be developed by individuals and/or in teams within a competitive/cooperative framework interacting dynamically with Experts Thematic Modules on Specific Plant Sectors (i.e. Power or Steel) Company Internships devoted to acquired direct experience on the field with real projects Tours in Industrial Plants and Engineering Centers and Labs Testing for Certifying Skills and Capabilities acquired by the attendees on each topic General Modules for supporting Potential Development of the Master Attendees (i.e. languages) [-]

Master Degree in Environmental Engineering

University of Bologna School of Engineering and Architecture
Campus 2 years September 2017 Italy Bologna Ravenna

An international Master’s Degree Programme in “Earth Resources Engineering - ERE” (“Laurea Magistrale” according to the Italian regulation), is offered by ALMA MATER STUDIORUM – University of Bologna. According to the Bologna process, the Laurea Magistrale is equivalent to a Master of Science. The program is open to students of any Nationality. [+]

Top Part time Masters in Environmental Engineering in Europe. The ERE programme An international Master’s Degree Programme in “Earth Resources Engineering - ERE” (“Laurea Magistrale” according to the Italian regulation), is offered by ALMA MATER STUDIORUM – University of Bologna. According to the Bologna process, the Laurea Magistrale is equivalent to a Master of Science. The program is open to students of any Nationality. The central theme of ERE is the conscientious stewardship of our finite natural resources, namely minerals, fuels, energy, water, and land. Students taking ERE Programme will attain a broad background in environmental engineering and earth resources covering water resources, pollution prevention, energy, resource economics, recycling, waste and biowaste valorization, alternative and renewable raw materials, reclamation, and health. The main goal of the Master’s degree is to educate professionals with the necessary in-depth scientific and technical knowledge to be successful in the field of environmental engineering and in a multi-cultural educational environment. The programme is intended to prepare students with firm technical bases while nurturing decision-making and leadership potential. It prepares graduates to practice their profession at an advanced level and with a unique exposure to an international environment to better understand the global issues of environmental engineering. The organization All courses and activities are in English. The programme duration is two years (4 semesters). The programme has core modules and elective courses. A committee will help students to select the courses to build their own curriculum. In order to obtain the Master’s Degree (Laurea Magistrale), the students must successfully complete the courses and defend the final dissertation, for a minimum of 120 Credits (ECTS). The courses will be organized with in-class teaching activities, practice, design and laboratory activities. The final exam consists of the public defense of a dissertation (the Master’s thesis). How do you want to spend your second year? You can choose amongst many options: Choose between two paths inside the degree programme: Earth Resources Engineering (Bologna campus) Earth resources - Offshore engineering (Ravenna campus) Spend one year abroad by participating into one of the three Dual degree programmeswhich are made available to students. Explore other opportunities for studying abroad: all students will have the option of spending a period of study abroad. Tailored opportunities for studying and/or preparing experimental thesis work in a foreign University, along with opportunities for internships in international research centers, construction industries, consulting or design offices will be guaranteed to the students via Erasmus+, Erasmus placement and Overseas programmes. [-]

Master in Energy Innovation

KTH Royal Institute of Technology
Campus 2 years August 2017 Sweden Stockholm

There are five joint Master's programmes in Energy Innovation offered at KTH through KIC InnoEnergy. All programmes are in the field of sustainable energy and give a rare combination of engineering and entrepreneurship. The programmes deliver [+]

There are five joint Master's programmes in Energy Innovation offered at KTH through KIC InnoEnergy. All programmes are in the field of sustainable energy and give a rare combination of engineering and entrepreneurship. The programmes deliver cutting-edge knowledge in fields crucial to meeting today’s global energy challenges and enables you to study at two universities in two different European countries, receiving a double degree. KIC InnoEnergy has created seven Master's programme joint between European top universities. Five of these programmes are partially hosted by KTH. - Energy for Smart Cities (SMCS) - Environomical Pathways for Sustainable Energy Systems (SELECT) - Nuclear Energy (EMINE) - Renewable Energy (RENE) - Smart Electrical Networks and Systems (SENSE) Energy for Smart Cities (SMCS) The programme is ideal for graduates who are fascinated by energy technology and interested in environmental and socio-economic factors, as well as the electrical and thermo-mechanical aspects. It focuses on end-users of the electrical value chain; the citizen, the company or the city. During your first year, electrical and mechanical engineering courses are combined with general socio-economic, but still energy-related, subjects. An integrated project is also included. Your second year continues with a Master’s degree project and some elective courses, both general, broadening and option specific. The programme also organises a summer school to sharpen participants’ entrepreneurial skills in the energy sector. It includes soft skills such as team-building, networking, leadership, entrepreneurship and intercultural communication skills, all fuelled by interesting conversations with professionals from the energy industry, consultancy firms and municipalities. Environomical Pathways for Sustainable Energy Systems Sustainable energy services is one of the key issues for humanity, considering the complete environmental footprint for the services delivered. The programme starts from the concept of basic renewable energy sources (sun, wind, geothermal) and considers the pathways towards a future sustainable energy system. The curriculum rests on a strong foundation in thermal sciences, emphasising the thermodynamic tools of exergy and thermoeconomic analysis. The programme is operated by a consortium consisting of seven universities and their associated industry partners. It offers extended industrial contacts integrated throughout the whole programme, especially as part of internships and seminars/workshops. The curriculum is jointly offered with teacher mobility for certain common lectures, but also remote teaching by specialist teachers. The programme offers modern and interactive learning material including virtual workshops which enhances the student learning process. Each year a kick-off and a spring seminar bring together first and second year students from all partner universities. These events give the students the possibility for networking and group discussions in an international setting. Nuclear Energy (EMINE) As a significant contributor to energy supply security and diversity, the nuclear industry is a key component of EU energy policy. For example, the price of nuclear electricity is competitive and predictable, and carbon emissions are low and comparable with the best renewable. Nuclear energy is also a potential low-carbon substitute for fossil-fuel-based combined heat and power production. The programme will help provide the industry, which already employs around 400,000 people in Europe, with the highly-qualified engineers required to meet the ambitious nuclear expansion plans that many countries are now drawing up. As a student, you receive the high-level technical education required to master the engineering complexities of nuclear power generation, as well as business training related to innovation issues and energy management. The programme thus helps you integrate the technical aspects of the nuclear industry with key political, economic and social issues. The uniqueness of the programme lies in the involvement of its industrial partners. Four major players of nuclear energy, AREVA, EDF, ENDESA and Vattenfall, take active part in the master programme. The CEA is also actively involved in EMINE, thus contributing its expertise as one of the most important research centres in nuclear energy in Europe. Renewable Energy (RENE) Thanks to the strong partnership between universities, innovation centrers and energy companies, the programme will provide you with a holistic understanding of the renewable energy field. You will gain state-of-the-art knowledge and expertise in fundamental renewable energy disciplines covering the value chain from power generation to storage and transmission. Mobility is a key part of the KIC InnoEnergy educational and innovation strategy. The programme offers you the opportunity to study in two top technical universities and a business school, in a friendly and multicultural environment, and the opportunity to carry out the Master's degree project through an internship at leading companies in renewable energy. Smart Electrical Networks and Systems (SENSE) The programme focuses on understanding, modelling and analysing the principles behind electric power generation, transmission, distribution and utilisation on a broad scale. Topics range from the design, operation, control and monitoring of individual components to national power systems in their entirety. The programme gives you a highly relevant and advanced education within the smart grid concept. Smart power grids are the electrical power system of the future. They operate in accordance with many of the key requirements that a sustainable energy system must meet – capacity, decarbonisation, efficiency, flexibility, reliability and sustainability. Existing technologies make up the bulk of the course content, but strong emphasis is also given to novel and innovative technologies that may stimulate the evolution of existing power grids into a ‘Smart Grid’. The innovation process itself, plus the route towards new business development in the electric power area, is addressed. [-]

Master's Programme in Water Resources Engineering

Lund University
Campus 2 years September 2017 Sweden Lund

Safe water and sanitation are fundamental to human development. When people are deprived of these, they face diminished opportunities to realise [+]

Programme overview

Having access to clean water is the cornerstone for improving healthcare, increasing food supply, reducing child mortality rates, and enhancing people’s overall quality of life. It has become crucial to develop technologies that can tackle water security challenges and meet the increasing demand. By applying integrated water resources management, surface water and groundwater can be used to cover this demand in a sustainable and eco-friendly way.

These are the issues we explore with our students, as well as many other challenges such as wastewater treatment, storm water management, coastal hydraulics, and modelling of hydrological processes.

The programme is broad and covers the most important aspects of water resources engineering. Many of the courses included in the programme contain practical elements, which allow our students to deepen their understanding of the more theoretical components and to develop both professional and academic skills. Our strong links to industry and scientific cooperation projects ensure that our courses maintain a high level of relevance to current issues and developments.... [-]