Part time Master's Degree in Energy in Belgium

Compare Part time Master Programs in Energy in Belgium 2017

Energy

A Masters degree gives you the opportunity to either further your understanding of a particular question or take off in a completely different way using skills you have gained from your previous undergraduate degree.

Energy studies teach about how power demands are met. This may be through conventional means, or alternative energy sources such as wind and solar energy. Some programs might explore the development of new sources.

With university education being upper most level in the education system of the Belgium, the government has put more emphasis to make sure that the students’ lives is made as simple as possible through the loan and grants programs. They offer sponsors for international students with poor and vulnerable backgrounds who would like to study in this country.

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Master in Electrical Engineering

University of Mons
Campus 2 years September 2017 Belgium Mons

The main objective of the curriculum is to offer a good foundation in electrical sciences. All core courses dedicated to electrical students cover all the fields of electrical engineering such as electrical machines, electronics (including power electronics) and microprocessor systems [+]

Best Part time Masters in Energy in Belgium. The main objective of the curriculum is to offer a good foundation in electrical sciences. All core courses dedicated to electrical students cover all the fields of electrical engineering such as electrical machines, electronics (including power electronics) and microprocessor systems, automatic control, telecommunications, signals processing, computer networks, multimedia, embedded systems, advanced process control, robotics, bio-engineering, numerical analysis, high voltage networks, ... Profile of the programme Besides the core courses, the curriculum gives opportunities to develop personal work through projects, in particular with the Master thesis and other various projects within the framework of the two-year master's curriculum. These projects are for electrical engineering students the opportunity to perform all steps of the design of practical electrical systems, such as, for example (not exhaustive list): ADSL modems, GSM or MP3 codecs, industrial sorting system controls, camera memory card readers, identification of bioprocess models, electric vehicles, … Moreover, the electrical division offers students the opportunity to do their Master thesis abroad within the framework of student exchange programmes (ERASMUS) between the academic staff and a large number of universities or engineering schools all over the world (University of Stuttgart, University Laval in Quebec, University of Montreal, Ecole Polytechnique Federale de Lausanne, Institute of Technology at Linköping, University of Edinburgh, Ecole Nationale des Telecommunications de Paris, etc..). In particular, thanks to its membership of the TIME (Top Industrial Managers for Europe) network, the FPMs makes it possible for some students to get a double Master's degree with other institutions involved in the network (Supélec in Paris and Metz, Ecole Centrale de Lille, Politecnico di Milano, etc.). Finally, the third objective of the curriculum is to offer a specialization domain chosen among three focuses: Multimedia and Telecommunications (related to the FPMS NTIC cluster) has close links with the research centre MULTITEL, founded by the FPMs in 1999, which is known as a worldwide centre of excellence in the field of signal processing, information technology, and telecommunications. Students have the option of carrying out their Master thesis in collaboration with MULTITEL researchers with whom they also have privileged contacts in the framework of specialized courses. Biosystems Engineering (related to the UMONS BIOSYS cluster), makes links between process modeling & control, signal processing, and life science engineering . This specialism allows to provide electrical engineers with a solid background, not only in industrial process automation, but also in biological systems modeling and biomedical signal processing. Energy & Electricity (related to the FPMS ENERGY cluster) focuses on current key issues in the specialization field, such as renewable energies, the liberalization of the electricity market, transport… Moreover, it offers the opportunity of carrying out a major corporate study in collaboration with industry. This work aims to provide results directly usable by the associated companies. The courses in "Multimedia and Telecommunications" and "Biosystems Engineering" are taught in English, and the examination is done either in English or in French, according to the student’s preference. Key learning outcomes By the end of their programme in Engineering Sciences, the master graduates will be able to: Demonstrate expertise and versatility in the sciences and technology Formulate and analyse complex problems Adopt an applied scientific approach Innovate Implement solutions Plan and carry out projects in engineering Work in and lead a team Master scientific and technical communication Practice interpersonal communication appropriate to each context Be a critical, reflexive and independent professional Be a responsible person, in step with the stakes of society By the end of this specific course programme, the students will be able to: Resolve complex issues related to all aspects of the use of electricity as power support and / or information support. Develop and apply methodologies and cutting edge technologies for efficient design and implementation of solutions to problems For the focuses, Solve complex problems more specialized in one or more areas: electronics, microelectronics, information technology (hardware and software), telecommunications, telematics, .. (Multimedia and telecommunications focus) automation, robotics, environmental systems and biotechnologies, biomedical engineering (biosignals), .. (Biosystems Engineering focus ) generation, transportation and distribution of electric energy, power electronics, electrical machines, .. (Energy & Electricity focus) Occupational profiles Inheriting from 200 years of technological developments stemming from the “magic of light”, electrical engineers have been assigned a wide variety of missions. A closer look at the various positions occupied by the electrical engineers of our Faculty reveals a great diversity of functions : in research offices, research labs, in the service sector (banks, insurance companies, etc.), in education (in Belgium and abroad), in the public sector, in supervising committees, transportation, telecommunications (telephony, broadcasting, satellites, fiber optics , wireless, multimedia, networks), in the production and transportation of energy, in electrical and mechanical engineering, …. From the giant electric power station to transoceanic photonic data links, via the microprocessor, the electrical engineer is required to study all aspects of the operation of electricity: Design and delivery of electrical power networks, telecommunication satellites, fiber optic cables for intercontinental data links; man-machine interfaces, such as speech recognition; modeling and automation of industrial processes; Design and production of microelectronic circuits; Development of renewable energies; Development of still growing scope of microprocessors; Activities in the biomedical field, where the electrical engineer is a true partner of the doctor; Business computerization and telematic networks (Internet, Intranet and fast networks). Access to further studies The Master’s degree in Electrical Engineering can lead to postgraduate studies in order to specialize, do further training or research: either by completing another Engineering Master’s degree, at the University of Mons or any other European university, e.g. in Quality Control and Management, Industrial Risks and Operational Safety, Transportation Management, Master in Business Administration, etc. or by conducting a PhD thesis in engineering sciences possibly with the support of research clusters of the Faculty and the University of Mons. Mode of study: Full time [-]

Master Européen de Management Développement Durable

ESOAD
Online Part time 2 years Open Enrollment Belgium Belgium Online

Le titulaire du Master Européen de Management Développement Durable participe à la prise en compte et à la mise en œuvre des principes du développement durable dans la politique et la stratégie de l'entreprise. [+]

Véritable interface entre les différents acteurs de l'entreprise et ses parties prenantes (clients, fournisseurs, riverains, organismes publics et associatifs...), le titulaire du Master Européen de Management Développement Durable participe à la prise en compte et à la mise en œuvre des principes du développement durable dans la politique et la stratégie de l'entreprise. Votre Profil Les qualités nécessaires au manager du développement durable sont : patience et diplomatie. Il est aussi nécessaire de savoir communiquer en particulier pour vulgariser des normes du domaine. Acquérir les compétences suivantes : Comprendre les principes du développement durable Connaitre les principes et les outils de la communication Comprendre les différents types de management Connaître les principaux textes de référence sur les ICPE Savoir mettre en application de l'éco-conception dans son entreprise Connaître les impacts de la chaine logistique sur l'environnement Proposer et réaliser des actions en vue de l'optimisation de la consommation énergétique Acquérir les méthodes de management HQE Maîtriser la réglementation relative aux déchets Connaître les enjeux de la sécurité en entreprise Apporter de meilleures conditions de travail pour le personnel Insérer l'entreprise dans la vie locale Conseiller et aider la direction à partir d'un diagnostic développement durable Savoir construire une évaluation de la performance du système développement durable Structure du programme Management Opérationnel du Développement Durable – Master I UC A 4/5 – Les entreprises, la concurrence et l’Europe UC B 4 - Langue Vivante Européenne UC D 41.1 – Gouvernance et pratiques managériales Les enjeux du développement durable pour l’entreprise Communication interne et externe Management transversal Règlementation et veille règlementaire UC D 41.2 – Responsabilité environnementale et sécurité au travail Eco-conception Logistique, transport et stockage Les défis d’une gestion de l’eau optimale Réduire ses impacts en termes de rejet atmosphérique Maîtriser sa consommation d’énergie Gérer ses déchets de manière durable : mise en place d’un tri adapté et d’une réflexion globale de réduction des productions de déchets Maîtriser les nuisances inhérentes à l’activité de son entreprise Les enjeux de la sécurité Ergonomie, Troubles Musculo-Squelettiques Accueil des entrants, formation du personnel Les risques dans l’entreprise UCD 42 – Mission ou Projet Professionnel : Mission : Stage en entreprise ou emploi salarié. Management Opérationnel du Développement – Master II UC B5 – Langue Vivante Européenne : UC D51 – Responsabilités sociétales et économiques de l’entreprise Stratégie et politique du développement durable Relations avec les parties prenantes UC D52 – Mise en œuvre de la stratégie Développement Durable UC D53 – Thèse professionnelle Stage Une période de stage d’une durée de 6 à 12 semaines est réalisable, mais non obligatoire. Les candidats n’ayant pas la possibilité d'accomplir un stage en entreprise peuvent appuyer leur mémoire sur des travaux théoriques. Dans ce cas, le projet de mémoire est à déterminé avec votre professeur référent. Témoignage Alumni: [-]

Master in Engineering Technology

Lessius
Campus September 2017 Belgium Mechelen

The founding of the Department of Technology Engineering dates back to the aftermath of the First World War, when Belgium was in great need of technical engineers to rebuild the country. Polyvalent [+]

Master in Engineering Technology 

The founding of the Department of Technology Engineering dates back to the aftermath of the First World War, when Belgium was in great need of technical engineers to rebuild the country. Polyvalent engineers in the field of electro-mechanics were the first to obtain their degree in 1926.

Soon afterwards civil construction and chemistry were added to the curriculum, and finally, after the Second World War, electronics. So far over 7000 engineers have graduated from the Department.

1976 saw the creation of 'Labo De Nayer', an independent research laboratory accredited by the government that runs tests for the industry and the government. The laboratory, which boasts a division of Electromagnetic Compatibility (EMC) certification, provides consultancy on technical matters and does applied, industrial research.... [-]