官网 皇家理工学院

Innovative Sustainable Energy Engineering at KTH

The purpose of the MSISEE programme is to provide state-of-the-art education in the fields of conventional and renewable energy sources and new power generation. These areas include: energy systems modelling, heat and power engineering, solar, wind and hydro power engineering. Innovative and entrepreneurial aspects will be highlighted via the advanced renewable energy concepts that are being implemented in the Nordic countries. Students will gain proficiency in project design and implementation, operation and maintenance, policy making and systems analysis. Advanced training with a research-oriented perspective is also included.

The programme is a combination of conventional teaching, project work and an independent research thesis project. The MSISEE Programme equips the students with the necessary theoretical and practical experience for better professional development in the field of energy systems engineering. The students will learn different software tools, which will help them to apply their knowledge in a more modern way. The graduate students of the programme could contribute positively to technological, economic and social development by providing more sustainable solutions to society.

In the MSISEE programme, students will join from all over the world for two years at two different universities. After successful completion of the programme requirements, a double degree from the following two best European universities will be issued:

  • KTH, Royal Institute of Technology, Sweden.
  • Aalto University, Finland.

On successful completion of the MSISEE programme, students will be equipped with the following skills and experiences, which will help them to start their careers in industrial, research and academic environment:

  • Professional level understanding of conventional and non-conventional energy systems.
  • The capability to understand environmental, economic and social impacts of various energy resources.
  • Understanding of old and modern energy technologies for better management and planning in order to achieve sustainable energy and environment sectors at national, regional and global levels.
  • An aptitude to formulate and analyse the problems of an energy system so as to suggest a wide range of possible solutions.
  • Development of other professional skills for example; interaction in an international environment, leading a group of people, project management, oral communication, report writing and presentation of final results.

This is a two year programme (120 ECTS credits) given in English. Graduates are awarded the degree of Master of Science from KTH and the equivalent degree from the other attended university. The programme is given mainly at KTH Campus in Stockholm by the School of Industrial Engineering and Management (at KTH).

 

Admission requirements for each study track

Under you will find information about the admission requirements for each study track. On the lower side of the page, you will find information about the English Language Requirements.

Students are welcome to apply even if they are not fulfilling the prerequisites at the time of your application, but plan to take spring courses at their home universities which address the lacking prerequisites. They should be able to at least show documentation that they are registered for these course.

 

Study track

Bio Energy track

A BSc degree corresponding to a minimum 180 ECTS credits in the following fields: Energy Engineering or Mechanical Engineering and Chemical Engineering.

Applicants must also document that they have fulfilled the following minimum requirements:

  •     Mathematics: 20 ECTS including linear algebra, calculus and differential equations
  •     Thermodynamics and heat transfer: 5 ECTS
  •     Energy & Environment: 5 ECTS
  •     Statistics and dynamics: 5 ECTS
  •     Fluid mechanics: 5 ECTS
  •     Materials science: 5 ECTS

Moreover, the applicant must have sufficient qualifications within numerical methods and elementary programming using e.g. MATLAB or a similar programming language.

Energy Systems track

A BSc degree corresponding to a minimum of 180 ECTS credits in the engineering field with clear background of energy, economics and mathematics. Applicants that are enrolled in an integrated five year degree with no bachelor level can also apply.
Furthermore, applicants must document that they have fulfilled the following minimum requirements during their previous studies:

  • Mathematics: 20 ECTS including linear algebra, calculus and differential equations
  • Thermodynamics and heat transfer: 5 ECTS
  • Energy & Environment: 5 ECTS
  • Statics and dynamics: 5 ECTS
  • Fluid mechanics: 5 ECTS
  • Industrial Economics: 5 ECTS

Applicants must have sufficient knowledge of numerical methods and basic programming using e.g. MATLAB or a similar programming language.

Heat and Power Engineering track

A BSc degree corresponding to a minimum of 180 ECTS credits in the following fields: Mechanical Engineering, Chemical Engineering, Chemistry and Physics.
Applicants must document that they have fulfilled the following minimum requirements:
The applicant’s qualifications must include a strong working knowledge of mathematics and energy/thermal engineering. Applicants must document that they have fulfilled the following minimum requirements:

  • Mathematics: 21.5 ECTS including linear algebra, calculus and differential equations
  • Thermodynamics: 6 ECTS
  • Mass and/or heat transfer: 6 ECTS
  • Fluid mechanics: min. 5 ECTS

The applicant must have sufficient qualifications within numerical methods and elementary programming using e.g. MATLAB or a similar programming language.

Solar Cell Systems and Materials track

A BSc degree corresponding to a minimum of 180 ECTS credits in the following fields: Physics or relevant BSc, Material Science or Inorganic Chemistry/Chemical Engineering. Applicants must document that they have fulfilled the following minimum requirements:

  • Mathematics: 25 ECTS including linear algebra, calculus and differential equations Numerical methods and elementary programming using e.g. MATLAB or a similar programming language Statistics and probability theory: 5 ECTS
  • Chemistry: 15 ECTS

Either:

  • Physics: 30 ECTS

Or

  • Thermodynamics:  7.5 ECTS
  • Materials Science:  15 ECTS
  • Mass and heat transfer:  7.5 ECTS

System Integration of Wind Power track

A BSc degree corresponding to a minimum of 180 ECTS credits in the following fields: Mechanical Engineering, Electrical Engineering or other relevant BSc.
Applicants must document that they have fulfilled the following minimum requirements:

  • Mathematics: 25 ECTS including linear algebra, calculus and differential equations
  • Statistics and probability theory: 5 ECTS
  • Electric circuits/Circuit analyses: 5 ECTS
  • Basics in control systems
  • Basics in electrical machines
  • Basics in fluid mechanics

Moreover, the applicant must have sufficient qualifications within numerical methods and elementary programming using e.g. MATLAB or a similar programming language
Students without this qualification must be prepared to complete their curriculum during the first year.

要申请此工作 请将您的详细情况发送到以下邮箱 info@hiias.com