DocumentCode
1764024
Title
Power Electronics at the Grid Edge : The key to unlocking value from the smart grid
Author
Divan, Deepak ; Moghe, Rohit ; Prasai, Anish
Volume
1
Issue
4
fYear
2014
fDate
Dec. 2014
Firstpage
16
Lastpage
22
Abstract
Utilities implementing diverse grid modernization initiatives are observing greater volatility at the grid edge that cannot be managed using traditional electromechanically switched centralized command and control solutions. The decentralized, distributed, and dynamic capabilities required can only be achieved with semiconductor-based power electronics solutions that are deployed appropriately along the grid edge. The key control objective is the fast and granular control of volts and vars at hundreds of points along the feeder, a functionality typically associated with static synchronous compensators (STATCOMs) and unified power flow controllers (UPFCs), albeit in a distributed manner and at lower voltage levels. Several companies are now offering grid-edge power-electronics solutions to solve this new set of challenges, with substantial data from the field validating the benefits that such solutions can provide. This article discusses the challenges, solutions, and some of the results that point to the benefits that power electronics at the grid edge can provide for utilities.
Keywords
load flow control; power electronics; smart power grids; static VAr compensators; voltage control; STATCOM; UPFC; control solutions; decentralized capability; distributed capability; dynamic capability; electromechanically switched centralized command solutions; granular volt control; grid edge; grid modernization; semiconductor-based power electronics solutions; smart grid; static synchronous compensators; unified power flow controllers; unlocking value; Automatic voltage control; Command and control systems; Compensators; Electrical supply industry; Load flow; Power distribution; Power grids; Reactive power; STATCOM; Smart grids; Switching systems; Voltage control;
fLanguage
English
Journal_Title
Power Electronics Magazine, IEEE
Publisher
ieee
ISSN
2329-9207
Type
jour
DOI
10.1109/MPEL.2014.2360811
Filename
6990864
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