Page 2 of 4, best 46 Master Programs in Energy Engineering 2019

The program is aimed at training professionals in nuclear power engineering. After graduating from this program, you will be able to design, maintain and operate nuclear power plants and its main equipment such as nuclear reactors, steam generators, and steam turbines. In-depth study of theoretical basis in nuclear reactor physics, thermal hydraulics and nuclear power plant safety will be also performed.

Petroleum engineering is the strand of engineering concerned with upstream operations of producing oil and gas from underground reserves. Reservoir engineering is a subdivision of Petroleum engineering that deals with modeling the reservoir fluid movement and maximizing oil and gas recovery. The main topics of study in reservoir engineering are phase behavior of fluids in a reservoir, reservoir rock properties, fluid flow in porous media, reservoir simulation, rock-fluid interactions, well testing, well performance, material balance, natural reservoir drive mechanisms, and various methods of improved and enhanced oil recovery.

The tasks of the reservoir engineer are centered on answering the following questions: How much oil and gas is originally in place? What are the drive mechanisms for the reservoir? What are the trapping mechanisms for the reservoir? What will be the recovery factor for the reservoir by primary depletion? What will be the future production rates from the reservoir? How can the recovery be increased economically?... [-]

The Master’s program is run as a joint degree program by Magdeburg-Stendal University of Applied Sciences together with the Universidad de La Coruña/Spain. The first semester is taught at the University of La Coruña and the second semester at Magdeburg-Stendal University of Applied Sciences. The third semester is a traineeship semester at one of the two named universities or at other participating universities or in companies/institutions.

The objective of the program is to acquire fundamental professional knowledge and the ability to work independently in accordance with scientific methods, to master the varied demands of working life in applied practice, research or teaching, and to deal effectively with the frequently changing tasks that arise in the professional life of an engineer working in water management. On the Master’s program in Water Engineering, graduates acquire expertise in the fields of national and international water management planning processes, in drinking water supply and wastewater disposal, hydrology, hydraulic engineering and experimental hydraulics, in restoration ecology and in biotechnology and river morphology, as well as flow and process modeling.... [-]

This Master’s objective is to prepare the water resources engineer which will be modern requirement appropriate, competitive, performance-oriented, focused on the practical and operational activities. Which, will provide design and implementation of operational activities given into construction norms and rules, will be motivated to be a professional point of view, a worthy contribution to the social - economic development. Will be able to design, construction and exploitation of water resources management systems using modern computer programs and consideration of risk–factors in the regulatory processes. Will be able to natural water classification, monitoring of water quality and assessment they use the modern standards.... [-]

M.Sc and PhD Dgrees with the following specializations:

Professional Master’s Degree with the following specializations:

M.Sc Applied Geophysics is open to graduates of Physics, Mathematics, Engineering, Geology and Land Surveying who earned minimum of 2nd Class Honours (Lower Division) in the first degree in the relevant fields. Candidates with their first degree in Geology, Engineering and Surveying are expected to have studies Mathematics or Physics and preferably both, up to 200-level. Candidates with their first degrees in Physics, Mathematics, Engineering, or Surveying would be expected to have taken some undergraduate courses in Geology, if not, on admission, they would take some recommended courses in Geology.... [-]

The grid will become increasingly intelligent due to the implementation of information technology and communications, as embodied in: - Distributed energy generation, which complement the traditional centralized generation, making systems required specific remote.

The Degree in Smart Grid (Smart Grid) (PXEI) created with the aim to train professionals who can meet the demands of the energy sector in the coming years, which necessarily dominate the technologies involved in the Smart Grid (smart grid).

In this context, the graduate focuses on all fundamental aspects of smart grids (Smart Grids), which are distributed generation systems, systems metering (AMR, AMI, AMM), EMS (Energy Management System) as well as the role of electric vehicles and the need for the smart Grid to advance the concept of intelligent city (smart city). the energy market, power systems planning and applicable regulations will also be addressed. ... [-]

The Masters of Engineering in Electrical Engineering with a concentration in Power Engineering is available for students that have a BS in Electrical Engineering or from another engineering discipline.

Requirements for the Masters of Engineering (ME) degree with a concentration in Electric Power are:

Total of 30 graduate credits At least 6 electrical engineering courses, 4 of which are in the power engineering area 21-27 credits of coursework 1-7 credits of ME project (option avail in Summer term)

The Power Engineering concentration allows students the maximum flexibility to design their program of study to meet their specific needs.

Student A may wish to concentrate strictly in the power area, taking 7 power engineering courses and conducting a significant 7 credit hour project in the power area. Student B may wish to take 4 power engineering courses, 2 other engineering courses, 3 business courses and a 1 credit hour project.... [-]

The electricity sector has undergone a series of important regulatory changes in recent years, both in Spain and in other countries around the world. These changes have given rise to the creation of organized electricity markets (generation and commercialization) and the need to design or adapt the regulations pertaining to these and other businesses (such as transportation and distribution) to the new challenges they have set themselves. Furthermore, the electricity sector is undergoing significant technological changes (increasing penetration of renewable energy sources, active management of demand, development of intelligent networks, etc.) and it is, without doubt, one of the main sectors within the global energy landscape.... [-]

A single two-year graduate degree offered by the ANU College of Science.

The Master of Energy Change is an interdisciplinary coursework program that will allow you to develop a program of advanced learning suited to your individual interests, skills, and aspirations in the area of energy change. A major key to addressing climate change is the need for a worldwide change to carbon-free forms of energy production.

The need for energy change is well-established yet there are relatively few people with an effective overview or the multi-disciplinary skills needed to effectively contribute to this complex issue. Our graduates find work in government, policy, scientific research, development and aid organizations, multi-national companies, and many other exciting fields.... [-]

The Mission of this institute is to cultivate students with the knowledge and ability to become either professional energy engineers or researchers. Three main research areas are fully developed and supported by the project of “Develop First-Class Universities and Top-Level Research Centers(MOE),” several important projects from “National Science and Technology Program-Energy(NSC)” and some related industries.

Main Research Areas:

The main goal of the Master's Degree in "Electrical Energy Conversion and Power Systems" is to train qualified experts in areas related to electrical energy management and power systems applied to renewable energies.

The Master presents a double approach: scientific and professional.

Concerning the scientific part, training is based on the design of two main applications: Electrical Power Systems and Electrical and Hybrid Traction Systems.

On the other hand, concerning the professional part training is based on the management of electrical energy. Thus, the subjects included in this professional part, have been designed following two main ideas: the consumers’ management of energy and the generation and transmission of electrical energy in a free market.... [-]

This programme will provide engineers with the technical competences to provide solutions to water security issues. Core modules will address technical aspects of water provision, water resource management and flood mitigation. A primary objective of the programme is to ensure that students have a thorough understanding of modern hydrological modelling tools. The programme has a strong emphasis on the design of hydrological systems, with students working in groups to solve real-world problems. Graduates of this programme will be in a position to make significant contributions to solving water resource problems in both industry and academia worldwide.... [-]

Master program (MSc) in electrical engineering aims to educate students with the competencies in both theoretical and practical problems solving in the field of electric power complex operations based on intelligent automation systems and up-to-date electric power equipment of both high and low voltage levels.

Program graduates are highly trained for the professional activities in the field of electric power and electric power equipment at multinational companies in different countries. Our students acquire skills and develop professional competences in the operation of energy power systems based on advanced intelligent technologies.Our graduates develop theoretical and practical competencies enabling them to participate in research and development as well as testing and operation of modern electrical power engineering systems.Scholarships to study abroad in English in one of the European partner universities (a semester or a summer school).... [-]

The Master Degree Program in Power Plant Engineering comprises a wide range of power engineering subjects aimed at theoretical and practical training.

The program is implemented with the participation of the leading professors of St. Petersburg State Polytechnic University and other leading Russian and foreign universities. All lectures and seminars are delivered in English.

The Master degree program has been developed to train highly qualified professionals to design, operate and maintain power plants.

Upon graduation, the participants will become proficient in the field of the modern energy sector. Our graduates of “Power Plant Engineering” Master Program are highly-trained professional engineers capable of the analysis, evaluation, and implementation of the state-of-the-art technical solutions aimed at improving the energy efficiency of power plants. Our graduates develop practical skills and professional competencies in the design and operation of power plants, including construction, commissioning, start-up and management; and the capability to simulate and analyze the operation of power plants with the use of the up-to-date sophisticated software.... [-]