The stability control for isolated wind‐diesel power system based on the cross coupling effect model

The stability control for isolated wind‐diesel power system based on the cross coupling effect model

Abstract In the isolated wind‐diesel hybrid power system, the system voltage and frequency may be affected simultaneously by the fluctuated wind turbine output power and variable load, which can make the system crash in extreme cases without control strategy. Therefore, in order to reduce the voltag...

Full description

Bibliographic Details
Main Authors: Yang Mi, Zhongjie Lang, Xin Chen, Yang Fu, Chi Jin, Shuai Shi, Yao Zhao, Enyu Jiang
Format: Article
Language:English
Published: Wiley 2021-05-01
Series:IET Generation, Transmission & Distribution
Online Access:https://doi.org/10.1049/gtd2.12089
id doaj-b7d930bb6c114a8188ac459428dc722b
record_format Article
spelling doaj-b7d930bb6c114a8188ac459428dc722b2021-07-14T13:25:34ZengWileyIET Generation, Transmission & Distribution1751-86871751-86952021-05-0115101588159910.1049/gtd2.12089The stability control for isolated wind‐diesel power system based on the cross coupling effect modelYang Mi0Zhongjie Lang1Xin Chen2Yang Fu3Chi Jin4Shuai Shi5Yao Zhao6Enyu Jiang7Department of EE Shanghai University of Electric Power Shanghai People's Republic of ChinaIntegrated Electronic Systems Lab Co., Ltd. Jinan Shandong People's Republic of ChinaState Grid ZheJiang Electric Power Co, Ltd Ningbo Fenghua District Power Supply Company Zhejiang People's Republic of ChinaDepartment of EE Shanghai University of Electric Power Shanghai People's Republic of ChinaNanyang Technological University Energy Research Institute @ NTU SingaporeDepartment of EE Shanghai University of Electric Power Shanghai People's Republic of ChinaDepartment of EE Shanghai University of Electric Power Shanghai People's Republic of ChinaDepartment of EE Shanghai University of Electric Power Shanghai People's Republic of ChinaAbstract In the isolated wind‐diesel hybrid power system, the system voltage and frequency may be affected simultaneously by the fluctuated wind turbine output power and variable load, which can make the system crash in extreme cases without control strategy. Therefore, in order to reduce the voltage and frequency deviation caused by system power fluctuation, both the battery and super twisting algorithm sliding mode state observer (STATCOM) are equipped to adjust the active power and reactive power for load power demand in the isolated small‐scale power system. Then, the system mathematical model is established which considers the cross‐coupling effect exist in the small‐scale power system. In order to improve the control effect of battery and STATCOM, the unified control strategy is designed for battery and STATCOM by using the super twisting sliding mode state observer and the adaptive sliding mode controller according to the constructed cross‐coupling effect model. Furthermore, the parameters of controller are further optimized by using the fuzzy method. Finally, the simulation experiments are performed by the real‐time digital simulator to validate the effectiveness of the proposed control strategy under different operation points.https://doi.org/10.1049/gtd2.12089
collection DOAJ
language English
format Article
sources DOAJ
author Yang Mi
Zhongjie Lang
Xin Chen
Yang Fu
Chi Jin
Shuai Shi
Yao Zhao
Enyu Jiang
spellingShingle Yang Mi
Zhongjie Lang
Xin Chen
Yang Fu
Chi Jin
Shuai Shi
Yao Zhao
Enyu Jiang
The stability control for isolated wind‐diesel power system based on the cross coupling effect model
IET Generation, Transmission & Distribution
author_facet Yang Mi
Zhongjie Lang
Xin Chen
Yang Fu
Chi Jin
Shuai Shi
Yao Zhao
Enyu Jiang
author_sort Yang Mi
title The stability control for isolated wind‐diesel power system based on the cross coupling effect model
title_short The stability control for isolated wind‐diesel power system based on the cross coupling effect model
title_full The stability control for isolated wind‐diesel power system based on the cross coupling effect model
title_fullStr The stability control for isolated wind‐diesel power system based on the cross coupling effect model
title_full_unstemmed The stability control for isolated wind‐diesel power system based on the cross coupling effect model
title_sort stability control for isolated wind‐diesel power system based on the cross coupling effect model
publisher Wiley
series IET Generation, Transmission & Distribution
issn 1751-8687
1751-8695
publishDate 2021-05-01
description Abstract In the isolated wind‐diesel hybrid power system, the system voltage and frequency may be affected simultaneously by the fluctuated wind turbine output power and variable load, which can make the system crash in extreme cases without control strategy. Therefore, in order to reduce the voltage and frequency deviation caused by system power fluctuation, both the battery and super twisting algorithm sliding mode state observer (STATCOM) are equipped to adjust the active power and reactive power for load power demand in the isolated small‐scale power system. Then, the system mathematical model is established which considers the cross‐coupling effect exist in the small‐scale power system. In order to improve the control effect of battery and STATCOM, the unified control strategy is designed for battery and STATCOM by using the super twisting sliding mode state observer and the adaptive sliding mode controller according to the constructed cross‐coupling effect model. Furthermore, the parameters of controller are further optimized by using the fuzzy method. Finally, the simulation experiments are performed by the real‐time digital simulator to validate the effectiveness of the proposed control strategy under different operation points.
url https://doi.org/10.1049/gtd2.12089
work_keys_str_mv AT yangmi thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT zhongjielang thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT xinchen thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT yangfu thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT chijin thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT shuaishi thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT yaozhao thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT enyujiang thestabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT yangmi stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT zhongjielang stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT xinchen stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT yangfu stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT chijin stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT shuaishi stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT yaozhao stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
AT enyujiang stabilitycontrolforisolatedwinddieselpowersystembasedonthecrosscouplingeffectmodel
_version_ 1721302739853508608

Similar Items