TN0347, Energy systems planning, 10.0 Hp
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Syllabus

Finalized by: PN - NJ, 2018-11-26
Valid from : Autumn semester 2019 (2019-09-02)

Level

Second cycle (A1F)

Main field of study

Technology

Subject

Technology

Grading Scale

The grade requirements within the course grading system are set out in specific criteria. These criteria must be available by the course start at the latest.

Course language

Swedish

Entry Requirements

Objectives

The aim of the course is to give advanced knowledge in planning and development of energy systems, from transformation/distribution to utilisation, where facilities and systems interact to meet the energy needs of different users in a sustainable manner.

On completion of the course, the student should be able to:

• model, dimension and analyse local and regional energy systems with multiple users (mainly in the real estate sector and the transport system), taking into account technical, economic- and sustainability related and ethical perspectives
• quantitatively describe and analyse future scenarios and possible actions for energy systems, taking into account the energy needs of different users, long-term goals, available resources, technology development and the environmental impact of the system
• identify, plan, implement and document his/her tasks in the context of a larger project
• account for methods for planning and management of larger projects
• describe the development of his/her own knowledge, and identify need for new knowledge
• present obtained results both in writing and orally for a specific target group.

Content

The students will, in project groups, analyse a delimited geographic area or a structure of users and suggest the design of energy system where different energy technologies can interact to satisfy the estimated demand of one or several energy types (heat, electricity and/or fuels), or suggest how the access to one or several energy sources should be used optimally for production of different energy types, with consideration of existing infrastructure. The course is based on a systems analytical approach with application of methodology from energy technology, modelling, simulation and environmental system analysis and economical cost estimation.

The project assignment is presented to the students who inventory their knowledge and need for new knowledge, specify the task in collaboration with supervisors and plan their work. Students will analyse the technical choices available when designing the system, the potential for use of different energy sources, the economic and sustainability related consequences of different choices, and if applicable analyse the constraints given by political decisions. Computer models (eg. LEAP) are used to simulate the energy systems. Thereafter the students should present a broad description of the task with motivated recommendations for a potential decision-maker.

Project management methods and theory for modelling and planning energy systems are treated in literature, exercises and the projects. Knowledge about strategic planning in issues related to energy systems in companies and public authorities is transmitted through the project or guest lectures. In conjunction with the project, the students write a reflection on their knowledge development and their work in the project group.

Compulsory parts of the course are project introduction, exercises and oral presentation. In addition, each student is expected to be active and present in the project according to the project plan jointly developed by the group.

Examination Formats and Requirements for Passing the Course

Written and oral presentation of project work and individual written assignments. Approved project work, written assignments as well as attendance at the compulsory parts of the course.

Responsible Department/Equivalent

Department of Energy and Technology

Supplementary information

Included in program

• Master Programme in Energy Systems Engineering

Module set

Title	Credits	Code
Single module	10.0	0101

The Course Replaces

TN0314

Other Information

The requirement for prerequisites in energy systems or logistics and transport systems can be met by, e.g. 1TE035 Energy Efficiency in Buildings - Technology and Systems 10 credits, TN0284 Bioenergy – Technology and Systems 10 credits, 1TE038 Wind Power – Technology and Systems 10 credits, 1TE028 Solar Energy – Technology and Systems 10 credits, 1TE754 Analysis of Electric Power Systems 10 credits, 1GV134 District heating systems 5 credits, TN0288 Logistics 5 credits. The requirement for prerequisites in life cycle assessment can be met by e.g. the course TN0285 Energy and life cycle assessment 5 credits.