inf511 - Smart Grid Management

inf511 - Smart Grid Management

Department of Computing Science 6 KP
Module components Semester courses Summer semester 2024 Examination
Lecture
  • No access 2.01.5112 - Digitalised Energy System Modeling and Control Show lecturers
    • Prof. Dr. Sebastian Lehnhoff
    • Jörg Bremer
    • Malin Radtke, M. Sc.

    Tuesday: 16:00 - 18:00, weekly (from 02/04/24), Location: A14 1-113, V03 0-D002
    Wednesday: 10:00 - 12:00, weekly (from 17/04/24), Location: A04 2-221
    Dates on Wednesday, 24.07.2024, Friday, 26.07.2024, Wednesday, 31.07.2024 10:00 - 15:00, Wednesday, 07.08.2024 09:00 - 17:00, Tuesday, 03.09.2024 13:00 - 16:00, Friday, 06.09.2024 14:30 - 16:30, Location: (OFFIS O50)

Exercises
  • No access 2.01.5112 - Digitalised Energy System Modeling and Control Show lecturers
    • Prof. Dr. Sebastian Lehnhoff
    • Jörg Bremer
    • Malin Radtke, M. Sc.

    Tuesday: 16:00 - 18:00, weekly (from 02/04/24), Location: A14 1-113, V03 0-D002
    Wednesday: 10:00 - 12:00, weekly (from 17/04/24), Location: A04 2-221
    Dates on Wednesday, 24.07.2024, Friday, 26.07.2024, Wednesday, 31.07.2024 10:00 - 15:00, Wednesday, 07.08.2024 09:00 - 17:00, Tuesday, 03.09.2024 13:00 - 16:00, Friday, 06.09.2024 14:30 - 16:30, Location: (OFFIS O50)

Notes on the module
Prerequisites

No participant requirements

Prüfungszeiten

At the end of the semester

Module examination

written or oral exam

Skills to be acquired in this module

After successful completion of the course the students should be able to understand the existing structures and technical basis of energy systems to produce, transfer and distribute electricity and their interaction and dependency on each other. They should have developed an understanding for necessary IT- and process control technology components, methods and processes to control and operate electrical energy systems. The students are able to estimate and evaluate the requirements and challenges of ICT and computer science which are caused by the development and integration of unforeseable fluctuations of decentralised plants. The students will be able to estimate the influence of distributed control concepts and algorithms for decentralised plants and consumers in the so called Smart Grid energy systems. Regarding the requirements the students will be able to analyse the safety, reliability, realtime capability and flexibility of Smart Grid energy systems.
Professional competence
The students:

  • understand the existing structures and the technical basis of energy systems producing, transferring and distributing electricity and their interaction and dependency on each other.
  • develop an understanding for necessary IT- and process control technology components, methods and processes to control and operate electrical energy systems.
  • estimate and evaluate the requirements and challenges of ICT and computer science which are caused by the development and integration of unforeseeable fluctuations of decentralised plants.
  • estimate the influence of distributed control concepts and algorithms for decentralised plants and consumers in the so called Smart Grid energy systems.

Methodological competence
The students:

  • analyse the safety, reliability, realtime capability and flexibility of Smart Grid energy systems
  • use advanced mathemtical methods to calculate networks

Social competence
The students:

  • create solutions in small teams
  • discuss their solutions

Self-competence
The students:

  • reflect their own use of electricity as a limited resource

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