Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator

Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator

With the intention of keep the customer voltage within a nominal voltage boundary (the South Korea voltage regulation in range of 220 V ± 6% for a single phase), the SVR (step voltage regulator) method in the primary feeder has been seriously systematized for the scheduled tap time delay (f...

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Main Authors: Byungki Kim, Yang-Hyun Nam, Heesang Ko, Chul-Ho Park, Ho-Chan Kim, Kyung-Sang Ryu, Dae-Jin Kim
Format: Article
Language:English
Published: MDPI AG 2019-08-01
Series:Energies
Subjects:
step voltage regulator
coordinated control algorithm
energy storage system
PSCAD/EMDC
novel voltage control method
Online Access:https://www.mdpi.com/1996-1073/12/17/3357
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spelling doaj-fad2cc7ae0cf4548a3a3821d38fd4fe22020-11-25T01:46:07ZengMDPI AGEnergies1996-10732019-08-011217335710.3390/en12173357en12173357Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage RegulatorByungki Kim0Yang-Hyun Nam1Heesang Ko2Chul-Ho Park3Ho-Chan Kim4Kyung-Sang Ryu5Dae-Jin Kim6Jeju Global Research Center (JGRC), Korea Institute of Energy Research (KIER), 200 Haemajihaean-ro, Gujwa-eup 63357, Jeju Specific Self-Governing Province, KoreaJeju Global Research Center (JGRC), Korea Institute of Energy Research (KIER), 200 Haemajihaean-ro, Gujwa-eup 63357, Jeju Specific Self-Governing Province, KoreaJeju Global Research Center (JGRC), Korea Institute of Energy Research (KIER), 200 Haemajihaean-ro, Gujwa-eup 63357, Jeju Specific Self-Governing Province, KoreaJeju Global Research Center (JGRC), Korea Institute of Energy Research (KIER), 200 Haemajihaean-ro, Gujwa-eup 63357, Jeju Specific Self-Governing Province, KoreaDepartment of Electrical Engineering, Jeju National University, 102 Jejudaehak-ro, Jeju-si 63243, Jeju Special Self-Governing Province, KoreaJeju Global Research Center (JGRC), Korea Institute of Energy Research (KIER), 200 Haemajihaean-ro, Gujwa-eup 63357, Jeju Specific Self-Governing Province, KoreaJeju Global Research Center (JGRC), Korea Institute of Energy Research (KIER), 200 Haemajihaean-ro, Gujwa-eup 63357, Jeju Specific Self-Governing Province, KoreaWith the intention of keep the customer voltage within a nominal voltage boundary (the South Korea voltage regulation in range of 220 V ± 6% for a single phase), the SVR (step voltage regulator) method in the primary feeder has been seriously systematized for the scheduled tap time delay (from a minimum of 120 s to a maximum of 900 s). The voltage must be compensated for the primary feeder during the tap delay time of SVR. However, when RES (renewable energy resource) is connected with the primary feeder, the customer voltage could exceed the nominal voltage boundary. Therefore, in order to keep the secondary feeder voltage within the nominal voltage boundary at all the time, this paper proposed a novel voltage control method in the primary feeder using coordinated controls between ESS (energy storage system) and SVR. Through the simulations based on PSCAD/EMTDC which is analysis tool of power system, it is confirmed that the proposed algorithm can effectively control the customer voltage within allowable limitation.https://www.mdpi.com/1996-1073/12/17/3357step voltage regulatorcoordinated control algorithmenergy storage systemPSCAD/EMDCnovel voltage control method
collection DOAJ
language English
format Article
sources DOAJ
author Byungki Kim
Yang-Hyun Nam
Heesang Ko
Chul-Ho Park
Ho-Chan Kim
Kyung-Sang Ryu
Dae-Jin Kim
spellingShingle Byungki Kim
Yang-Hyun Nam
Heesang Ko
Chul-Ho Park
Ho-Chan Kim
Kyung-Sang Ryu
Dae-Jin Kim
Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator
Energies
step voltage regulator
coordinated control algorithm
energy storage system
PSCAD/EMDC
novel voltage control method
author_facet Byungki Kim
Yang-Hyun Nam
Heesang Ko
Chul-Ho Park
Ho-Chan Kim
Kyung-Sang Ryu
Dae-Jin Kim
author_sort Byungki Kim
title Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator
title_short Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator
title_full Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator
title_fullStr Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator
title_full_unstemmed Novel Voltage Control Method of the Primary Feeder by the Energy Storage System and Step Voltage Regulator
title_sort novel voltage control method of the primary feeder by the energy storage system and step voltage regulator
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2019-08-01
description With the intention of keep the customer voltage within a nominal voltage boundary (the South Korea voltage regulation in range of 220 V ± 6% for a single phase), the SVR (step voltage regulator) method in the primary feeder has been seriously systematized for the scheduled tap time delay (from a minimum of 120 s to a maximum of 900 s). The voltage must be compensated for the primary feeder during the tap delay time of SVR. However, when RES (renewable energy resource) is connected with the primary feeder, the customer voltage could exceed the nominal voltage boundary. Therefore, in order to keep the secondary feeder voltage within the nominal voltage boundary at all the time, this paper proposed a novel voltage control method in the primary feeder using coordinated controls between ESS (energy storage system) and SVR. Through the simulations based on PSCAD/EMTDC which is analysis tool of power system, it is confirmed that the proposed algorithm can effectively control the customer voltage within allowable limitation.
topic step voltage regulator
coordinated control algorithm
energy storage system
PSCAD/EMDC
novel voltage control method
url https://www.mdpi.com/1996-1073/12/17/3357
work_keys_str_mv AT byungkikim novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
AT yanghyunnam novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
AT heesangko novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
AT chulhopark novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
AT hochankim novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
AT kyungsangryu novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
AT daejinkim novelvoltagecontrolmethodoftheprimaryfeederbytheenergystoragesystemandstepvoltageregulator
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