Investigation and damping<?show [AQ='' ID='Q1]'?> of low-frequency oscillations of stochastic solar penetrated power system by optimal dual UPFC

Nahak Narayan; Mallick Ranjan Kumar

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Investigation and damping of low-frequency oscillations of stochastic solar penetrated power system by optimal dual UPFC

机译：最优双UPFC对随机太阳穿透电力系统低频振荡的研究和阻尼<？显示[AQ = “ ” ID = “ Q1] ”>

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摘要

Solar power being stochastic and asynchronous in nature, its integration with conventional power generation has so many challenges in damping of low-frequency oscillations. This study presents an investigation of low-frequency oscillation and damping of stochastic solar power integrated power system by a unified power flow controller (UPFC)-based dual optimal controller, which gains are optimised by a novel hybrid particle swarm optimisation and improved grey wolf optimiser. The dual controller simultaneously controls the modulation index of series and phase angle of shunt converters of UPFC, which co-operate with each other, optimising its efficacy and thereby implementing the advantages of both static synchronous series compensator and static synchronous compensator. A detailed Eigen value analysis has been performed with time domain simulations to study the damped oscillatory response of variable and random solar penetration with a power system along with the interaction of solar power with variable synchronous power generations. For a multi-machine system, a multi-input single output dual controller is proposed. A maximum sensor and time delay have been considered to design the controller providing a realistic approach. It is observed that random and heavy solar penetration has a more detrimental effect on system oscillations, which can be damped heavily with the proposed controller, in contrast to particle swarm optimisation, differential evolution, grey wolf optimiser, differential evolution particle swarm optimisation optimised lead-lag and dual controllers.

机译：太阳能本质上是随机的和异步的，它与常规发电的集成在衰减低频振荡方面有许多挑战。本研究提出了一种基于统一潮流控制器（UPFC）的双最优控制器对随机太阳能发电系统的低频振荡和阻尼的研究，该增益通过新型混合粒子群算法和改进的灰狼优化器进行优化。该双控制器同时控制UPFC并联转换器的串联和相角调制指数，它们相互协作，优化其效率，从而实现了静态同步串联补偿器和静态同步补偿器的优点。详细的本征值分析已通过时域仿真进行了研究，以研究可变和随机太阳穿透与电力系统的阻尼振荡响应，以及太阳能与可变同步发电的相互作用。对于多机器系统，提出了一种多输入单输出双控制器。已经考虑了最大传感器和时间延迟来设计控制器，以提供一种切实可行的方法。可以看出，随机和大量的太阳穿透对系统的振荡具有更大的有害影响，与粒子群优化，微分进化，灰狼优化器，微分进化粒子群优化，优化的铅滞后和双控制器。

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来源
《Renewable Power Generation, IET》 |2019年第3期|376-388|共13页
作者
Nahak Narayan; Mallick Ranjan Kumar;
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作者单位

Siksha O Anusandhan Deemed Be Univ, Dept Elect Engn, Bhubaneswar, Odisha, India;

Siksha O Anusandhan Deemed Be Univ, Dept Elect & Elect Engn, Bhubaneswar, Odisha, India;

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optimal control; damping; power system control; power system stability; power transmission control; static VAr compensators; load flow control; particle swarm optimisation; evolutionary computation; photovoltaic power systems; multimachine system; multiinput single output dual controller; random penetration; heavy solar penetration; system oscillations; grey wolf optimiser; low-frequency oscillation; stochastic solar penetrated power system; optimal dual UPFC; conventional power generation; damping; stochastic solar power integrated power system; unified power flow controller-based dual optimal controller; novel hybrid particle swarm optimisation; static synchronous series compensator; static synchronous compensator; variable penetration; random solar penetration; variable synchronous power generations; evolution particle swarm optimisation optimised lead-lag controllers; eigenvalue analysis;

机译：最优控制;阻尼;电力系统控制;电力系统稳定性;电力传输控制;静态VAr补偿器;潮流控制;粒子群优化;进化计算;光伏电力系统;多机系统;多输入单输出双控制器;随机穿透;重型太阳能穿透;系统振荡;灰狼优化器;低频振荡;随机太阳能穿透电力系统;最优双UPFC;常规发电;阻尼;随机太阳能综合发电系统;基于统一潮流控制器的双重最优控制器;新型混合粒子群优化;静态同步串联补偿器;静态同步补偿器;可变穿透;随机太阳穿透;可变同步发电;进化粒子群优化超前滞后控制器;特征值分析;

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专利

1. Low-frequency power oscillation damping enhancement and voltage improvement using unified power flow controller (UPFC) in multi-machine power system [J] . Nwohu, Mark Ndubuka Journal of Electrical and Electronics Engineering Research . 2011,第5期

机译：多机电源系统中使用统一潮流控制器（UPFC）的低频功率振荡阻尼增强和电压改善
2. Investigation of UPFC Based Damping Controller Parameter for Power Oscillation Damping by Grey-Wolf Optimizer with Time Delay for Multi Machine System [J] . Narayan Nahak, Sankalpa Bohidar, Ranjan Kumar Mallick International review of automatic control . 2018,第1期

机译：多机械系统延迟灰狼优化器电源振荡控制器参数研究基于UPFC阻尼控制器参数
3. Low-frequency oscillation damping in the electric network through the optimal design of UPFC coordinated PSS employing MGGP [J] . Shafiullah Md, Rana Md Juel, Shahriar Mohammad Shoaib, Measurement . 2019,第期

机译：通过MGGP的最佳设计，通过UPFC协调PSS的最佳设计阻尼电网低频振荡阻尼
4. Design of dual optimal UPFC based PI controller to damp low frequency oscillation in power system [C] . Narayan Nahak, Soumya Ranjan Sahoo, Ranjan Kumar Mallick 2018 Technologies for Smart-City Energy Security and Power . 2018

机译：基于双最优UPFC的PI控制器抑制电力系统低频振荡的设计
5. Controller design for PSS and FACTS devices to enhance damping of low-frequency power oscillations in power systems. [D] . You, Ruhua. 2006

机译：PSS和FACTS器件的控制器设计可增强对电力系统中低频功率振荡的阻尼。
6. Optimal SSSC-based power damping inter-area oscillations using firefly and harmony search algorithms [O] . Amirreza Naderipour, Zulkurnain Abdul-Malek, Vigna K. Ramachandaramurthy, -1

机译：使用萤火虫和和声搜索算法的基于SSSC的最优功率阻尼区域间振荡
7. Optimal Selection of UPFC Parameters and Input Controlling Signal for Damping Power System Oscillations [O] . Moslem Salehi, Ali Akbar Motie Birjandi 2016

机译：高压参数的最佳选择和阻尼电力系统振荡的输入控制信号

Investigation and damping of low-frequency oscillations of stochastic solar penetrated power system by optimal dual UPFC

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