Master-level studies involve specialized study in a field of research or an area of professional practice. Earning a master’s degree demonstrates a higher level of mastery of the subject. Earning a master’s degree can take anywhere from a year to three or four years. Before you can graduate, you usually must write and defend a thesis, a long paper that is the culmination of your specialized research.
Improvements made to manmade things such as tools, structures and machines are largely due to the efforts of people in the field of engineering. These people combine creativity with mathematics and worldly knowledge, resulting in innovation.
Europe is the sixth largest continent and includes 47 countries and assorted dependencies, islands and territories. It is bordered by the Mediterranean Sea to the south, Asia to the east, and the Atlantic Ocean to the West.
View all Master Programs in Engineering Studies in Europe 2018/2019
The master's course in civil engineering is a practical course with two fields of concentration: constructive engineering as well as geotechnical and traffic engineering. [+]
The master's course in civil engineering is a practical course with two fields of concentration: constructive engineering as well as geotechnical and traffic engineering. The focus of the concentration on constructive engineering lies in the design, construction and calculation of supporting structures in building construction and bridge construction. The knowledge obtained during the bachelor's course is reinforced and extended. Expertise from specialist knowledge in steel, solid, timber and civil engineering and on modern calculation techniques and methods are extensively communicated. The fields of concentration in civil and traffic engineering prepare the students for current and future demands in geotechnics, in transportation and bridge engineering as well as in environmental geology. These sometimes involve complicated substrate conditions or requirements in terms of environmental protection, area recycling, modern disposal engineering and flood prevention. The planning and construction of transport routes is another key area of this field of concentration.... [-]
Although mobility is crucial to the global economy, it has also contributed to rising CO2 emissions. We need creative solutions that combine mobility requirements with sustainable, social and technical developments. [+]
Although mobility is crucial to the global economy, it has also contributed to rising CO2 emissions. We need creative solutions that combine mobility requirements with sustainable, social and technical developments. Finding these solutions requires highly-trained and innovative professionals. Study Automotive Systems at HAN University of Applied Sciences and become an authority on cleaner, safer and smarter vehicles.
Location: Arnhem Duration: 1.5 years (full-time) Degree: Master of Science Course start: SeptemberThe profession in a nutshell
As an automotive engineer, you are involved in the design, development, production, and evaluation of vehicle systems and components. With the further qualification of a Masters degree, you also possess valuable skills in applied research, communication, and management. This enables you to lead projects while balancing engineering, economical and commercial interests. Moreover, you have the technical expertise to evaluate and realize underlying control strategies and embedded electronic systems. The combination of these skills makes you highly employable in this industry.... [-]
ESILV Graduate School of Engineering trains engineers with strong scientific and technical bases and a real professional experience, who are opened to the world and prepared for the challenges of tomorrow’s industry. [+]
ESILV (Léonard de Vinci Graduate School of Engineering) is structured around digital sciences and technology and is separated into four major specialisations that include computer science, computational mechanics, finance, and energy. With intimate class sizes supporting close peer-to-peer interaction, team projects, and international internships/opportunities, students receive a comprehensive, well-rounded education. ESILV is a member of the CGE, the UGEI, the CDEFI, and Campus France.
ESILV awards graduate the “Diplôme d’Ingénieur” accredited by the “Commission des titres d’ingénieur (CTI)” which is the French accreditation body for engineering programmes and institutions. ESILV has the Master label EURACE.... [-]
CS&E is widely used both in scientific research and advanced industrial development. The efficiency in this kind of work is however greatly boosted by a solid education. The Master's Program in CS&E gives both a basic knowledge of the field and the specialization needed to successfully complete projects within research and development. [+]
Master's Program in Computational Science and Engineering
Computational Science & Engineering (CS&E) is a field of knowledge which aims at the development of methods that rely on computers and mathematics to model, simulate, and visualize various kinds of systems. CS&E combines several different disciplines such as computer science including numerical analysis, applied mathematics, physics, and technology. The applications are literally found everywhere. They often deal with complicated and/or complex systems and often require the management and analysis of large datasets. Applications include analysis of pictures, optimization of industrial processes, web-based search for information, risk analysis, the mechanism behind aurora borealis, pricing of financial derivates, computer games, and special effects in movies.... [-]
Get the skills in and become prepared for employment within management or qualified research functions in textile-related engineering, for example, material and product design and development, manufacturing, functional and interactive textile structures. [+]
This education is the only one in its kind in Scandinavia, and one of few in Europe. During the education, you develop your knowledge, skills, and assessment skills in textile technology. The Swedish School of Textiles is part of the University of Borås and all programmes within textile are located here, www.hb.se/en/The-Swedish-School-of-Textiles/
Here, the starting point is textile fibres: What do they consist of, what significance do they have, and what could be done with them. This education links together and specialises in different elements that develop both theoretical and practical knowledge. One of these recurring elements throughout the education is the sustainable development perspective.... [-]
The objective of this one-year Advanced Master course is to offer lectures in English dealing with generic aspects of safety management and their applications in various domains of engineering. [+]
The objective of this one-year Advanced Master course is to offer lectures in English dealing with generic aspects of safety management and their applications in various domains of engineering.The first semester contains 2 parts Part A concerns generic knowledge, including concepts of risk, risk identification, analysis, evaluation, and treatment, communication, and consultation, safety management system, legal and human factors in risk management (20 ECTS Credits). Part B deals with application fields: Process safety, toxicological risks for human health, environmental risks associated with toxic products, natural and technological risks for construction, dependability of computing systems, risks associated with radiation, the safety of electrical systems. This second part does not require deep knowledge of each domain as an introduction to useful skills will be supplied. A large part of the lectures is provided by professionals (25 ECTS). The second semester is dedicated to an internship in firms (30 ECTS) ... [-]
The objectives of BiWEM are to provide students with a sound theoretical and practical specialized knowledge in the field of biomass and waste processing. Students in the program will acquire the ability to design economically viable biological or thermochemical processes for the conversion of biomass and waste into new materials or energy carriers, within a sustainable development frame. [+]
Biomass and Waste for Energy and Materials
France benefits from a long, proud tradition of scientific and technological research and innovation that underpins the nation’s achievements in fields such as bioenergy, sustainable development, climate change, waste management. In the French research landscape, the RAPSODEE Research centre of IMT Mines Albi (UMR CNRS 5302) is uniquely positioned to deliver leading-edge training in cleantech and circular economy. Boosted by the RAPSODEE Research centre, the master’s degree BiWEM is a multidisciplinary leading-edge training program that is specifically tailored to address future environmental and societal challenges in the fields of renewable energy and low-carbon economy.... [-]
This master's degree is the logical extension of the bachelor degree in Business engineering. Two specific specialization majors have been implemented for future business engineers. [+]
This program is taught entirely in French.
Master in Business EngineeringThis master's degree is the logical extension of the bachelor degree in Business engineering. Two specific specialization majors have been implemented for future business engineers. Moreover, students round off this training by choosing one minor.In addition to the common 'core' program, students are presented with two major options:Technology management Fiscal engineering
The range of minors offered by ICHEC enables students to choose a curriculum that best fits in with their projects and needs. The minors deal with one of the specialized areas of business management through a cross-disciplinary approach. Final-year projects (internship and Master thesis) will be followed through in several seminars and will be dealt with as in-company project management assignments.A student graduating from this program will qualify as «Master in Business Engineering».Beware that the program is only available in French.... [-]
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 excellent 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.... [-]
Enhance your career prospects with our interdisciplinary Master's programme in Engineering and International Business. Our new degree enables you to gain a holistic understanding of both economic and technical systems. [+]
Have you an Engineering or Science degree? You wish to get a business education while extending your technical knowledge and skills in the area of renewable energies?
Enhance your career prospects with our interdisciplinary Master's programme in Engineering and International Business. Our new degree enables you to gain a holistic understanding of both economic and technical systems.
Considering our international perspective, we put an emphasis on three relevant professional areas within the curriculum: renewable energies, sustainable water supply, and sustainable waste management.
Take advantage of our excellent study conditions, our expertise, our networks and the international atmosphere of SRH Hochschule Berlin. Become a sought-after international expert of the Blue Economy. Learn to work, think and act as both an engineer and an entrepreneur.... [-]
Through the university program "SpaceTech", participants are trained by experts in the fields of Space Systems and Business Engineering and prepared to take on key roles and management responsibilities in the international environment of the space industry. [+]
The aerospace sector is a fast-growing market. Multinational corporations are conducting research on cutting-edge technology to successfully develop new products and services. Some examples include satellite services in the communication, navigation and remote sensing fields, aerospace transportation, space tourism or the future mining of extraterrestrial materials. Through the university program "SpaceTech", participants are trained by experts in the fields of Space Systems and Business Engineering and prepared to take on key roles and management responsibilities in the international environment of the space industry.Quick Facts Next start: March 2020 Duration: 3 semesters (18 months) Final degree: Master of Engineering (MEng) in Space Systems and Business Engineering ECTS credits: 90 Language of instruction: English Participation fee: € 34,000 (VAT free)Self-payers: please contact us to evaluate the availability of stipends/scholarships The participation fee does not cover costs for travel, accommodation, and meals. Number of participants: limited to 18 Course location: European Space Centers: TU Graz, Austria (Apr 2020) CNES Toulouse, France (Jul 2020) NASA GSFC Greenbelt, MD, USA (Oct 2020) DLR GSOC Munich, Germany (Jan 2021) ESA ESRIN Frascati, Italy (Apr 2021) ESA ESTEC Noordwijk, Netherlands (Jun 2021) TU Graz, Austria (Sep 2021) Content ... [-]
The aim of this two-year program is to provide students with solid knowledge of mechanical engineering (mechanical design, production and plant maintenance, logistics and production planning, etc.) and its related fields. [+]
The aim of this two-year program is to provide students with solid knowledge of mechanical engineering (mechanical design, production and plant maintenance, logistics and production planning, etc.) and its related fields. To this end, the course aims to form a modern mechanical engineer, able to integrate traditionally separated specialized fields, such as the mechanical design, mechatronics, automation, management and logistics ones. The degree course splits into two different branches in which students can specialize: “Mechanics and Automation” and “Logistics and Production”.Short description of the International Study Program
The Master has been established at the Faculty of Science and Technology of the Free University of Bolzano (Unibz). The Master is offered singularly from the Free University of Bolzano and has an international character. The path “Logistics and Production” is offered in collaboration with the Otto-von Guericke University of Magdeburg (OvGU) and allows obtaining a "double degree".... [-]
The Master's Program in Industrial Systems Analytics (ISA) provides content, models, and methods to design, develop, implement and operate complex processes and systems in the energy sector organizations. [+]
The Master's Program in Industrial Systems Analytics (ISA) provides content, models, and methods to design, develop, implement and operate complex processes and systems in the energy sector organizations. Energy systems are complex systems that require a holistic understanding and thus multiple perspectives of research and education. Energy systems can be seen as socio-technical systems, and the new ISA program is built from Technology, Organization and People perspectives (TOP). Systems dynamics and systems thinking are the connecting elements necessary for the program. It is important to understand how the technology and people are organized to achieve the goals.
The program prepares the students to develop and manage product and service innovation for industrial energy systems, delivery, and use. The courses consist of lectures, teamwork assignments, projects, presentations and final exams.... [-]
Printed intelligence is the field of technology that has become increasingly popular in the previous years. Several new companies manufacturing and utilizing both printed electronics applications and components have recently been established and the global demand for special expertise is high. [+]
Printed intelligence is one of the fastest developing areas in technology. In near future, many new applications in the fields of electronics, health, and medical technology as well as construction will utilize printed intelligence. With new technologies also new business opportunities emerge. This widens the career possibilities for the graduates of our Printed Intelligence programme.
The printed intelligence is widely used in different branches of industries e.g. health and medical industries and construction engineering. Printed intelligence can be found in sensors, quick diagnostics and smart garments in e-textiles.
Students will learn state-of-the-art developments and techniques used in printed intelligence. The graduates will have multidisciplinary skills to meet the needs of the companies especially in product development using the printed electronics manufacturing technologies.... [-]
As an intermediate intermediate link, the master in the proposed specialization provides the link the necessary objective between bachelor and doctoral education. Preparing inter and multidisciplinary offers graduates of this master program leveraging global thinking to allow them to solve objectives belonging to natural-ecological systems (environmental quality), social (quality of life), economic (economic efficiency) and technological (process quality technological). [+]
As an intermediate intermediate link, the master in the proposed specialization provides the link the necessary objective between bachelor and doctoral education. Preparing inter and multidisciplinary offers graduates of this master program leveraging global thinking to allow them to solve objectives belonging to natural-ecological systems (environmental quality), social (quality of life), economic (economic efficiency) and technological (process quality technological). Based on such prerequisites, the learner acquires concrete skills and abilities looking:the design of ecotechnologies and eco-installations, the purpose of which is the maximization the quality of the environment and of life; the economic efficiency of engineering activities under pollution prevention industrial; implementation of integrated quality-environment-health-management principles. ... [-]