Courses in Stud.IP

current semester
link to course in Stud.IP Studip_icon
Smart Grid Technologies
Subtitle:
Modul: Smart-Grid-Technologien
Semester:
WiSe 22/23
Course type:
Lecture
Course number:
lv2706_w22
Lecturer:
Prof. Dr.-Ing. Christian Becker, Dr. Davood Babazadeh, Tom Steffen, M.Sc., Christina Eckel, M.Sc., Marwan Mostafa, M.Sc.
Description:

Introduction to Smart Grids

  • Intelligent Distribution Grids
  • Paradigm shifts: Digitalization & Sustainability 

Emerging technologies in distribution grids 

  • Distributed Energy Resource (DER) 
  • Battery Energy Storage (BES) technologies 
  • Sector-coupling & EV/V2G
  • Microgrids, Inverter-based Systems 
  • Modelling and control of PV & BESS 

Distribution grid management & analysis 

  • Distribution grid structure (Hamburg example)
  • Distribution grid management and operation architecture and functions 
    • Fault Detection, Isolation & Restoration 
    • Self-Healing in distribution systems
    • Volt-Var Optimization 
    • Distribution Load Flow
  • Demand Side Management & Demand Response 
  • Lab exercise (Smart Grid Operation)

Computational intelligence and optimization techniques in Smart Grids 

  • Computational challenges in Smart grid
  • Heuristic & Analytic Optimization Methods 
  • Intelligent Systems (Expert Systems, ML/AL) 
  • Applications (optimal load flow, reactive capacitor placement)
  • Lab exercise (optimization formulation) 

ICT Technologies for Smart Grids

  • Advanced Metering Technologies: Smart Meters, RTU, PMU  
  • Automation and Communication standards in Distribution grids
  • Interoperability in Smart grids ( Smart Grid Architecture Model)
  • Cyber security

Practical lesson-learned: Stromnetz Hamburg (SNH) perspective

  • Definition of Smart Grid and its requirements from industry view 
  • Grid digitalization - examples of industrial projects 
  • Flexible load management 
  • Electromobility & transportation sector integration

Study visits:

  • Digital Substation in Harburg 
  • Electric Bus charging station  
  • Stromnetz Hamburg Control Center
Pre-requisites:
Fundamentals of Electrical Engineering, Introduction to Control Systems, Mathematics I, II, III Electrical Power Systems I
Performance accreditation:
Project, Report, Assignments, Presentations
ECTS credit points:
6
Stud.IP informationen about this course:
Home institute: Elektrische Energietechnik (E-6)
Registered participants in Stud.IP: 17
Documents: 66
former semester
link to course in Stud.IP Studip_icon
Smart Grid Technologies
Subtitle:
Modul: Smart-Grid-Technologien
Semester:
WiSe 22/23
Course type:
Lecture
Course number:
lv2706_w22
Lecturer:
Prof. Dr.-Ing. Christian Becker, Dr. Davood Babazadeh, Tom Steffen, M.Sc., Christina Eckel, M.Sc., Marwan Mostafa, M.Sc.
Description:

Introduction to Smart Grids

  • Intelligent Distribution Grids
  • Paradigm shifts: Digitalization & Sustainability 

Emerging technologies in distribution grids 

  • Distributed Energy Resource (DER) 
  • Battery Energy Storage (BES) technologies 
  • Sector-coupling & EV/V2G
  • Microgrids, Inverter-based Systems 
  • Modelling and control of PV & BESS 

Distribution grid management & analysis 

  • Distribution grid structure (Hamburg example)
  • Distribution grid management and operation architecture and functions 
    • Fault Detection, Isolation & Restoration 
    • Self-Healing in distribution systems
    • Volt-Var Optimization 
    • Distribution Load Flow
  • Demand Side Management & Demand Response 
  • Lab exercise (Smart Grid Operation)

Computational intelligence and optimization techniques in Smart Grids 

  • Computational challenges in Smart grid
  • Heuristic & Analytic Optimization Methods 
  • Intelligent Systems (Expert Systems, ML/AL) 
  • Applications (optimal load flow, reactive capacitor placement)
  • Lab exercise (optimization formulation) 

ICT Technologies for Smart Grids

  • Advanced Metering Technologies: Smart Meters, RTU, PMU  
  • Automation and Communication standards in Distribution grids
  • Interoperability in Smart grids ( Smart Grid Architecture Model)
  • Cyber security

Practical lesson-learned: Stromnetz Hamburg (SNH) perspective

  • Definition of Smart Grid and its requirements from industry view 
  • Grid digitalization - examples of industrial projects 
  • Flexible load management 
  • Electromobility & transportation sector integration

Study visits:

  • Digital Substation in Harburg 
  • Electric Bus charging station  
  • Stromnetz Hamburg Control Center
Pre-requisites:
Fundamentals of Electrical Engineering, Introduction to Control Systems, Mathematics I, II, III Electrical Power Systems I
Performance accreditation:
Project, Report, Assignments, Presentations
ECTS credit points:
6
Stud.IP informationen about this course:
Home institute: Elektrische Energietechnik (E-6)
Registered participants in Stud.IP: 17
Documents: 66

Courses

For information on courses and modules, please refer to the current course catalogue and module manual of your degree programme.

Module / Course Period ECTS Credit Points
Module: Electrical Power Systems I: Introduction to Electrical Power Systems WiSe 6
Module: Electrical Power Systems II: Operation and Information Systems of Electrical Power Grids WiSe 6
Module: Electrical Power Systems III: Dynamics and Stability of Electrical Power Systems SuSe 6
Module: Electrical Engineering II: Alternating Current Networks and Basic Devices SuSe 6
Module: Electrical Engineering Project Laboratory SuSe 6
Module: Process Measurement Engineering SuSe 4
Module: Smart Grid Technologies WiSe, SuSe 6

Course: Seminar on Electromagnetic Compatibility and Electrical Power Systems

Further Information

WiSe, SuSe 2

SuSe: Summer Semester
WiSe: Winter Semester