inf5114 - Digitalised Energy System Requirements Engineering (Complete module description)

inf5114 - Digitalised Energy System Requirements Engineering (Complete module description)

Original version English PDF download
Module label Digitalised Energy System Requirements Engineering
Module code inf5114
Credit points 6.0 KP
Workload 180 h
Institute directory Department of Computing Science
Applicability of the module
  • Master's Programme Computing Science (Master) > Angewandte Informatik
  • Master's programme Digitalised Energy Systems (Master) > Digitalised Energy System Automation, Control and Optimisation
Responsible persons
  • Lehnhoff, Sebastian (module responsibility)
  • Lehrenden, Die im Modul (authorised to take exams)
Prerequisites

No participant requirements

Skills to be acquired in this module

The students will learn different approaches to integrate distributed generation, the regulatory framework, relevant standards and architecture concepts of energy management systems and they are able to apply this knowledge.
Professional competence
The students:

  • develop and evaluate IT- Architectures for energy management
  • model objects of this domain appropriately
  • model energy information systems
  • realise and differentiate advanced tasks of decentralised energy management


Methological competence
The students:

  • name problems for the energy management, analyse these problems systematically and provide solutions
  • apply different simulation approaches of decentralised plants and consumers


Social competence
The students:

  • discuss solutions for the energy management together
  • develop use cases in teams
  • present self-developed solutions


Self competence
The students:

  • reflect their actions with regarde to structure and decompose systems
  • reflect their own use of the limited resource power
Module contents

This module provides the computer science basics for the energy management. It provides the requirements of energy supply information systems with the focus on technical components and the requirements of decentralised and renewable energy plants.
These are:

  • Architectures for energy information systems, e.g. SOA, Seamless Integration Architecture (IEC TC 57), OPC-UA
  • Norms and standards of energy industry data models(CIM, 61850)
  • Systematisation of energy information system requirements based on ontologies
  • Development, analysis and adaption of energy industry reference models and processes
  • Methods and technologies to support energy industry processes
  • Methods and algorithms to support decision processes of the decentralised energy plants control
  • Smart Grid plants communication, the load management in particular
  • Methods for modelling and simulation of power supply system dynamics
Recommended reading
  • Crastan V.: "Elektrische Energieversorgung II", Springer 2004
  • Heuck K., Dettman K. D., Schulz D.: "Elektische Energieversorgung I", 7. Aufl., Vieweg 2007
  • Konstantin, P.: "Praxisbuch Energiewirtschaft", Springer 2006
  • Schwab, A.: "Elektroenergiesysteme, Springer 2009
Links
Language of instruction English
Duration (semesters) 1 Semester
Module frequency every winter term
Module capacity unlimited
Teaching/Learning method V+Ü
Type of course Comment SWS Frequency Workload of compulsory attendance
Lecture 3 WiSe 42
Exercises 1 WiSe 14
Total module attendance time 56 h
Examination Prüfungszeiten Type of examination
Final exam of module

At the end of the course

term paper