Difference between revisions of "Projects:2021s1-13013 Investigation of voltage control modes and strategy for large embedded generators connected to the distribution network with high penetration of Distributed Energy Resources"

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(Created page with "Category:Projects Category:Final Year Projects 13013 Abstract here == Introduction == Project description here === Project team === ==== Project s...")
 
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[[Category:Final Year Projects]]
 
[[Category:Final Year Projects]]
 
[[Category:2020s1|13013]]
 
[[Category:2020s1|13013]]
Abstract here
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<!-- Abstract Here -->
 
== Introduction ==
 
== Introduction ==
Project description here
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The  connection  of  embedded  generating  systems  to  the  distribution network  may  impact  on  distribution utilities’ ability to regulate network voltages.  For    this    reason,    distribution    utilities  require    embedded generating systems to consider voltage, power factor and reactive power control system as described below.
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*Voltage  droop  control  which  varies  by  a  fixed  percentage  to manage network stability.
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*Operate at an agreed power factor such that voltage variations are maintained within prescribed limits.
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*Control reactive power output, within their capability, to maintain the connection point voltage to anagreed target.Evaluate  the  ideal  voltage  control  and  methodology  for  large  embedded generators categories connected to the distribution network.
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*>30kVA & ≤200kVA (NER Chapter 5A assessment)
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*>200kVA & <5MVA (NER Chapter 5A assessment)
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*>5MVA (NER Chapter 5 assessment) (optional scope)
  
 
=== Project team ===
 
=== Project team ===
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* Dr Ali Pourmousavi Kani
 
* Dr Ali Pourmousavi Kani
 
* Mr Andrew Lim (SA Power Networks)
 
* Mr Andrew Lim (SA Power Networks)
 
=== Objectives ===
 
Set of objectives
 

Revision as of 21:31, 8 April 2021

Introduction

The connection of embedded generating systems to the distribution network may impact on distribution utilities’ ability to regulate network voltages. For this reason, distribution utilities require embedded generating systems to consider voltage, power factor and reactive power control system as described below.

  • Voltage droop control which varies by a fixed percentage to manage network stability.
  • Operate at an agreed power factor such that voltage variations are maintained within prescribed limits.
  • Control reactive power output, within their capability, to maintain the connection point voltage to anagreed target.Evaluate the ideal voltage control and methodology for large embedded generators categories connected to the distribution network.
  • >30kVA & ≤200kVA (NER Chapter 5A assessment)
  • >200kVA & <5MVA (NER Chapter 5A assessment)
  • >5MVA (NER Chapter 5 assessment) (optional scope)

Project team

Project students

  • Ishika Ghosh
  • Georgia Kappos

Supervisors

  • Mr David Vowles
  • Dr Ali Pourmousavi Kani
  • Mr Andrew Lim (SA Power Networks)
Retrieved from "https://projectswiki.eleceng.adelaide.edu.au/projects/index.php?title=Projects:2021s1-13013_Investigation_of_voltage_control_modes_and_strategy_for_large_embedded_generators_connected_to_the_distribution_network_with_high_penetration_of_Distributed_Energy_Resources&oldid=15988"