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Technische Universität Berlin, Full Time Masters Degrees

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The concept of the German “Energiewende” – literally, energy transition – has gained international attention. It includes a variety of measures that aim at making Europe’s largest economy free of fossil fuels and nuclear energy. Read more

Program Background

The concept of the German “Energiewende” – literally, energy transition – has gained international attention. It includes a variety of measures that aim at making Europe’s largest economy free of fossil fuels and nuclear energy. In order to attain this, all areas of energy production and consumption will have to go through a transition process. Besides mobility and industry, buildings are therefore one of the key factors for a successful Energiewende.

Most of all, this implies re-directing from a mainly fossil-fueled energy supply towards renewable energies and a much more energy-efficient use of energy in buildings and urban areas. This is one of the largest and most urgent challenges of current urban development and other social disciplines.

Finding solutions to such a complex challenge means that a multitude of actors from business, society, and public administration take part in the process and influence it with their differing and often conflicting interests. Resulting from this is the need for skilled workers who both understand all stakeholders and are able to work with them.

Building Sustainability

Strategic concepts for communication and cooperation in large-scale projects are crucial for their success. Whereas, “simply” building a house has become a manageable task, things become much more complicated when considering the urban environment and wider interests such as energy efficiency. The Master program, Building Sustainability focuses therefore, not only on technical and economic perspectives, but also aims at imparting relevant knowledge from other disciplines. This means that the scope of the program is both broad and specific at the same time. The combination of technology, management and sustainability-related topics is therefore a unique opportunity for young professionals to extend their skills.

The MBA program Building Sustainability – Management Methods for Energy Efficiency will teach students skills, methods and concepts to consider different approaches, to understand them and to align them for reaching sustainable solutions. Such competences are not only important in the context of the Energiewende but they are indispensable in every building, construction and real estate project that takes energy efficiency and other sustainability criteria into account.

The idea is that sustainable project results that consider economic, ecological and social aspects can only be achieved in extensive cooperation of all stakeholders. Managing and moderating such a cooperation is one of the major challenges of implementing sustainability in building projects of all scales. The program aims therefore on enabling students to understand the complexity of planning and management processes and to develop according solutions. This will happen in modules with different approaches: some will teach facts and numbers, others will facilitate connections between different fields and the softer skills of mediating between them and some are designed to apply these competences to practical projects.

The TU-Campus EUREF is located on the EUREF (European Energy Forum) campus in Berlin-Schöneberg. This former industrial area has been developed into a research hub for energy efficiency, renewable energies and smart grids. Students will gain insight into the numerous real-life examples of building sustainability without having to leave the campus.

Students and graduates

The program addresses a broad group of professionals with varying academic backgrounds, mostly in engineering and technology, management, economics, architecture and urban or environmental planning. However, applicants with other academic backgrounds coupled with working experience in a related field are also encouraged to apply, personal motivation plays an important role in the selection process. Class diversity is one of its greatest assets, as students will not only learn from lecturers with science and business backgrounds, but also from each other.
Graduates will be able to moderate and manage complex projects in the construction, real estate, and planning sector. They will be able to assess the project from technical, ecological and economic perspectives and find solutions which take all stakeholders into account.

Curriculum

The first semester focuses on the basis for successful and sustainable projects. Two comprehensive modules in the fields of building technology and project management will allow students to work on their first, closely guided group project. A lecture series about the sustainable reorganization of building and urban structures with special regard to energy management and the energy market accompanies these modules.

The second semester focuses on the interdisciplinary aspects of building sustainability. It addresses real estate economics and the issue of energy-efficient societies in a global context. Together with the knowledge and skills attained in the first semester, students will conduct a comprehensive and interdisciplinary group project. At the same time, specialization starts and students can choose between deepening their knowledge in either technology and innovation management or in Smart Buildings.

The specialization continues in the third semester, either by completing the technology and innovation module or the technical module with the follow-up course Integration of Renewable Energies. All students take a module in Life Cycle Analysis to complete the holistic approach of sustainability and write their Master thesis. Graduates will earn a degree awarded from the Technische Universität Berlin.

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Management decisions in the energy sector require profound understanding of the sector’s technical, economic, legal, and entrepreneurial peculiarities. Read more
Management decisions in the energy sector require profound understanding of the sector’s technical, economic, legal, and entrepreneurial peculiarities. Climate change, economic changes, public opinion, technological progress and regulation shape and limit the entrepreneurial leeway, but also offer often unforseen chances and opportunities. The industry therefore requires broadly skilled individuals who are experts in the field.

The master programme is taught over a period of three semesters. The first semester covers the technical, economic, entrepreneurial and legal foundations for management decisions in the energy sector; the second semester deepens this view and looks at business practises, primarily of grid-based utilities, and investment; the third semester broadens the view while simultaneously focusing on practise according to student’s individual interests. All semesters include lectures, tutorials, seminars as well as excursions, online materials related to practice and extracurricular activities. The master thesis due in the third semester concludes the programme.

1. Technical Fundamentals
This module deepens student’s knowledge of energy technologies and systems in the framework of today’s changing world.
Prof. Dr.-Ing. Joachim Müller-Kirchenbauer

2. Economic Foundations
This module presents the economic basics for the understanding of energy markets and their regulation, the framework for operational Energy Management.
Prof. Dr. Georg Erdmann

3. Strategic Leadership and Global Management
This module presents the foundations of strategic management and discusses basic tools and applications in the context of the Energy industry.
Prof. Dr. Dodo zu Knyphausen-Aufseß

4. Energy Law
This module presents the legal framework of today’s Energy Markets on the global scale, the EU plane and Germany.
Prof. Dr. Dr. Dres. h.c. Franz Jürgen Säcker

5. Power Grids
This module deals with the technical and managerial challenges of grid management in a changing energy environment, with a focus on transformation processes between different forms and sources of energy and the novel developments in demand response, IT, and metering.
Prof. Dr. Kai Strunz

6. Energy Economy and Energy Business
This module looks at energetic aspects of enterprises and the implications of the changing energy landscape for industrial organisations. How to engineer efficiency and manage engineering efficiently, given changing energy markets and legal conditions?
Prof. Dr.-Ing. Joachim Müller-Kirchenbauer

7. Investments in Grids, Storage and Power Plants
This module looks at energy infrastructure from a financial point of view. Grids, storage facilities and power plants are large-scale long-term investments of national, if not international, scope and importance. How are such projects financed, how can they be insured, how can their risk be assessed, etc.
Prof. Dr. Christian von Hirschhausen

8a. Building Energy Efficiency (compulsory elective)
In this sub-module, students look at physical projects and products such as buildings, plants, city planning, etc. and apply the knowledge gained in prior modules in practise.
Prof. Dr.-Ing. Joachim Müller-Kirchenbauer

8b. Technology and Innovation Management (compulsory elective)
In this sub-module students look at innovations, team building, management processes, administrative, financial or theoretical issues in a specific practical context.
Prof. Dr. Jan Kratzer

Master thesis
Individual topics, individual supervisors.

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The course addresses lawyers, legal practicioners and economists who want to gain in-depth, special knowledge in the field of international and European energy law. Read more
The course addresses lawyers, legal practicioners and economists who want to gain in-depth, special knowledge in the field of international and European energy law. Students will become acquainted with the technical and economic foundations of the energy markets as well as with all legal topics relevant for the whole value chain in the energy sector. The curriculum comprises of competition law, regulatory law and economic fundamentals among others.

Lectures come from the international community (Germany, USA, Switzerland, Belgium, Norway, Russia) and are experts from universities, European and national authorities, international and national energy companies, major law firms, and courts. To name a few, technical universities, the European Commission, the German regulatory authority BNetzA.

The course is also supported by the Institute for Energy and Regulatory Law Berlin (enreg.eu) and benefits from experts‘ knowledge of the European and German energy sector which is the largest one in Europe. The academic director is Professor Dr. iur. Dr. rer. pol. Dres. h.c. Franz Jürgen Säcker who is the editor and author of leading publications in the field of energy law.

Course Structure
The first Semester is dedicated to the fundamentals of energy Regulation. The technical and economic characteristics of the electricity and gas sector will be taught. Students will become acquainted with the technical and economic fundamentals to follow the second semester.
In the second semester, energy law will be taught. This includes the legal framework relevant for the building and the operation of plants generating electricity from fossil and from renewable sources, for the operation of grids as well as for the supply of energy. In the second semester furthermore negotiation strategies will be taught. The theoretical knowledge will be supplemented by excursions, e.g. to a power plant, a CCS-plant and to the EEX which is largest electricity stock exchange in Continental-Europe.

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MSE (M.Sc. in Space Engineering) is an international full-time Master’s programme in space engineering that starts at Technische Universität Berlin in April each year. Read more
MSE (M.Sc. in Space Engineering) is an international full-time Master’s programme in space engineering that starts at Technische Universität Berlin in April each year. The aim of the programme is to educate systems engineers equipped to become leaders in the space industry.

At the Chair of Space Technology of TU Berlin

The course is offered by the Chair of Space Technology at Technische Universität Berlin and combines excellent teaching in space technology with project management and intercultural skills. The entire programme, over four semesters, is taught in English.

Highly project oriented Master’s programme

The Master’s programme is highly project oriented and designed to prepare students for the requirements of the global space industry. Students have the chance to be involved in challenging satellite projects, working within intercultural teams. Especially, they benefit from the worldwide leading expertise and network of TU Berlin in the field of small satellites. Interdisciplinary skills, such as project management, innovation marketing and business will complement the curriculum.

Internship experience in the European space industry

Furthermore, the opportunity to gain internship experience in the European space industry will be provided. After graduation, students will be equipped with skills, experience and a strong network to boost their space career either in Europe, in their home country or anywhere else.

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The growing environmental impact of transport systems, as well as their energy voracity, require new approaches and new concepts. Read more
The growing environmental impact of transport systems, as well as their energy voracity, require new approaches and new concepts. This MBA offers an integrative design across disciplines, addressing a range of different perspectives. The theory and practice-driven approach gives students both a conceptual understanding and the skills needed to tackle practical problems, covering the needs of strategy development, analysis and implementation, complex decision making and project management.
The theory and practice-driven approach gives students both a conceptual understanding and the skills needed to tackle practical problems, covering the needs of strategy development, analysis and implementation, complex decision-making and project management.

Graduates will be able to plan and to manage complex projects in the transport and mobility fields. The program provides the knowledge and skills for assessing projects from social, sustainability and economic perspectives and for creatively, in teams or independently, finding solutions that consider the varying stakeholders’ interests. Graduates will either be able to enter the labour market (private and public sector) or continue with postgraduate studies.

The master program is taught over a period of three semesters. The first two semesters include lectures, tutorials, seminars and excursions. The program will be completed in the 3rd semester by writing and defending a master thesis.
The first semester is dedicated to the fundamentals of mobility and sustainability, considering these issues from different perspectives such as economic factors, social and managerial elements, and naturally including technological drivers.
In the second semester, trends and the future of transport as well as the transition toward sustainable mobility will be the main focuses, which encompasses also the issue of governance and management of complex structures. A lecture series will provide world-based case studies.
The third semester is devoted to the Master Thesis.
Elective courses for specialization are offered.

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