Coordinated control of conventional powersources and PHEVs using jaya algorithmoptimized PID controller for frequencycontrol of a renewable penetrated powersystem

Anil Annamraju; Srikanth Nandiraju

doi:10.1186/s41601-019-0144-2

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Coordinated control of conventional powersources and PHEVs using jaya algorithmoptimized PID controller for frequencycontrol of a renewable penetrated powersystem

Contents | 更新时间：2025-11-26

- Coordinated control of conventional powersources and PHEVs using jaya algorithmoptimized PID controller for frequencycontrol of a renewable penetrated powersystem
- Protection and Control of Modern Power Systems Vol. 4, Issue 4, Pages: 1-13(2019)
- 作者机构：
  
  Department of Electrical Engineering, National Institute of Technology Warangal, Warangal, Telangana,India
- 作者简介：
- 基金信息：
- DOI：10.1186/s41601-019-0144-2
  CLC：
- Published：2019
- 稿件说明：
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Anil Annamraju, Srikanth Nandiraju. Coordinated control of conventional powersources and PHEVs using jaya algorithmoptimized PID controller for frequencycontrol of a renewable penetrated powersystem[J]. Protection and Control of Modern Power Systems, 2019, 4(4): 1-13.
DOI：

Anil Annamraju, Srikanth Nandiraju. Coordinated control of conventional powersources and PHEVs using jaya algorithmoptimized PID controller for frequencycontrol of a renewable penetrated powersystem[J]. Protection and Control of Modern Power Systems, 2019, 4(4): 1-13. DOI： 10.1186/s41601-019-0144-2.

摘要

In renewable penetrated power systems

frequency instability arises due to the volatile nature of renewable energy sources (RES) and load disturbances. The traditional load frequency control (LFC) strategy from conventional power sources (CPS) alone unable to control the frequency deviations caused by the aforementioned disturbances. Therefore

it is essential to modify the structure of LFC

to handle the disturbances caused by the RES and load. With regards to the above problem

this work proposes a novel coordinated LFC strategy with modified control signal to have Plug-in Hybrid Electric Vehicles (PHEVs) for frequency stability enhancement of the Japanese power system. Where

the coordinated control strategy is based on the PID controller

which is optimally tuned by the recently developed JAYA Algorithm (JA). Numerous simulations are performed with the proposed methodology and

the results have confirmed the effectiveness of a proposed approach over some recent and well-known techniques in literature. Furthermore

simulation results reveal that the proposed coordinated approach significantly minimizing the frequency deviations compared to the JAYA optimized LFC without PHEVs & with PHEVs but no coordination.

Abstract

In renewable penetrated power systems

it is essential to modify the structure of LFC

to handle the disturbances caused by the RES and load. With regards to the above problem

the coordinated control strategy is based on the PID controller

which is optimally tuned by the recently developed JAYA Algorithm (JA). Numerous simulations are performed with the proposed methodology and

the results have confirmed the effectiveness of a proposed approach over some recent and well-known techniques in literature. Furthermore

simulation results reveal that the proposed coordinated approach significantly minimizing the frequency deviations compared to the JAYA optimized LFC without PHEVs with PHEVs but no coordination.

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