فهرست مقالات Power System Stabilizer

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  1 - Improvement of Power System Stability with Salp ‎Swarm Algorithm and Fuzzy Type II
  Payam Rokni Nakhi Salman Amirkhan Javad Safaei Kuchaksaraei Fatemeh Hamedani
  The use of renewable resources in the power system is increasing day by day. Wind energy is one of the forms of renewable energy sources that has been widely available to humans due to the common nature of renewable energy with low concentration (low density). Due to th چکیده کامل

  The use of renewable resources in the power system is increasing day by day. Wind energy is one of the forms of renewable energy sources that has been widely available to humans due to the common nature of renewable energy with low concentration (low density). Due to the constant changes of wind and as a result of changes in the power produced by wind farms, uncertainty in the power of the power system will become an integral part. Now, if the permeability of these resources increases, they can directly affect the dynamic stability of the system and the margin of stability of the system will change in power systems expansion, instability was often due to a lack of synchronizing torque. Issues such as the small perturbation stability of local oscillation modes and low-frequency inter-zone oscillation modes became apparent with a significant improvement in power system performance. The paper presents an optimal and coordinated power oscillation damper based on a wind turbine and power system stabilizer (PSS) to maintain the stability of power system and damp inter-area oscillations. The optimal and coordinated design of the PSS located at the generator site and the damper installed in the control section of the doubly-fed induction generator (DFIG) is defined as an optimization problem. پرونده مقاله
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  2 - LOC-PSS Design for Improved Power System Stabilizer
  Masoud Radmehr Mehdi Mohammadjafari Mahmoud Reza ‎ GhadiSahebi
  A power system stabilizer (PSS) is an ancillary device used for improving stability of otherwise poorly stable power system. It helps to restore the system back to the operating point after disturbances like load changes or faulty situations are withdrawn or smoother tr چکیده کامل

  A power system stabilizer (PSS) is an ancillary device used for improving stability of otherwise poorly stable power system. It helps to restore the system back to the operating point after disturbances like load changes or faulty situations are withdrawn or smoother transition from one to another operating point. Originally, power system stabilizers are installed to add damping to local oscillatory modes, which were destabilized by high gain, fast acting exciters. Its property is to provide damping torque to reduce the electromechanical oscillations introduced in the system under disturbances. In this paper, first, we analyze different types of small signal stabilities of a power system using linearized model and then, design a stabilizer for Single Machine Infinite Bus (SMIB) system. A comparison between the effect of Linear Optimal Control plus PSS (LOC-PSS) and Conventional PSS(CPSS) in terms of either power system responses or its eigen-values due to different load condition is reported. Simulation results show the LOC- PSS is robust for such nonlinear dynamic system and achieves better performance than the CPSS in damping oscillations. The effectiveness of the PSS for different load disturbances is illustrated with simulation carried out in MATLAB software. پرونده مقاله
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  3 - طراحی و شبیه سازی همزمان کنترل کننده های پایدارساز سیستم قدرت سینرجتیک و خازن سری کنترل شده با تریستور در سیستم قدرت چند ماشینه
  آرمان فتح اللهی
  پایدارسازهای سیستم قدرت (PSSs) به طور معمول برای میراسازی گشتاور ژنراتور سنکرون استفاده می‌شوند تا به وسیله‌ی تولید سیگنال‌های کنترل تکمیلی برای سیستم تحریک ژنراتور، این نوسانات را کاهش دهند.در این مقاله به منظور میراسازی نوسانات الکترومکانیکی و غلبه بر مشکلات حاصل از ت چکیده کامل

  پایدارسازهای سیستم قدرت (PSSs) به طور معمول برای میراسازی گشتاور ژنراتور سنکرون استفاده می‌شوند تا به وسیله‌ی تولید سیگنال‌های کنترل تکمیلی برای سیستم تحریک ژنراتور، این نوسانات را کاهش دهند.در این مقاله به منظور میراسازی نوسانات الکترومکانیکی و غلبه بر مشکلات حاصل از تقریب خطی سیستم غیرخطی که پایداری سیستم را در یک همسایگی از شرایط تعادل محدود میکند، از یک پایدارساز سیستم قدرت غیرخطی مبنی بر تئوری کنترل سینرجتیک و کنترل کننده خازن سری کنترل شده با تریستور (TCSC) به طور همزمان استفاده شده است. ترکیب سینرجتیک پایدارساز سیستم قدرت کاملا بر اساس یک مدل غیرخطی ساده شده ی سیستم ارائه می گردد. برای بررسی تاثیرگذاری همزمان این کنترل کننده ها شبیه سازی در سیستم های قدرت تک ماشینه و چند ماشینه و تحت اغتشاشات مختلف مورد مطالعه قرار گرفته است. نتایج شبیه‌سازی نشان می‌دهد که عملکرد همزمان TCSC و پایدارساز سیستم قدرت سینرجتیک (SPSS) ظرفیت بسیار بالایی را برای میرایی نوسانات و بهبود پایداری در مقایسه با پایدارساز سیستم قدرت سینرجتیک و سیستم قدرت مجهز به PSS مرسوم تنظیم شده با الگوریتم ژنتیک (GAPSS) در هر سیستم قدرت دینامیکی غیرخطی از خود نشان می‌دهد. پرونده مقاله
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  4 - میراسازی گشتاورهای پیچشی روی محور توربین- ژنراتور به کمک پایدارسازهای نوین ژنتیکی و فازی
  عباس شولایی محمد بیاتی پوده غضنفر شاهقلیان
  حضور تنش‌های روی محور توربین- ژنراتور که محصول بروز اغتشاش در سیستم‌های قدرت هستند، باعث کاهش عمر مفید محور می‌شود. در این مقاله میراسازی سریع و کنترل این تنش‌ها، با کمک پایدارسازهای نوین محقق می‌گردد. پایدارساز ترکیبی در این مقاله بر روی سیستم تحریک ولتاژ ژنراتور و سیس چکیده کامل

  حضور تنش‌های روی محور توربین- ژنراتور که محصول بروز اغتشاش در سیستم‌های قدرت هستند، باعث کاهش عمر مفید محور می‌شود. در این مقاله میراسازی سریع و کنترل این تنش‌ها، با کمک پایدارسازهای نوین محقق می‌گردد. پایدارساز ترکیبی در این مقاله بر روی سیستم تحریک ولتاژ ژنراتور و سیستم کنترلی خط انتقال جریان مستقیم عمل می‌کند؛ در تنظیم پارامترهای این پایدارساز از الگوریتم ژنتیک با هدف کاهش تنش‌ها، یاری گرفته می‌شود که تاثیر این پایدارساز را چندین برابر می‌نماید. همچنین در کنترل بهتر این پایدارساز از روش کنترل منطق فازی استفاده می‌شود که تاثیر قابل توجهی در کنترل تنش‌های به وجود آمده در سیستم مورد مطالعه دارد. نتایج شبیه‌سازی موید تاثیر پایدارسازهای طراحی شده در کنترل گشتاورهای پیچشی روی محور توربین- ژنراتور است. پرونده مقاله
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  5 - طراحی پایدارسازسیستم قدرت بر اساس تئوری کنترل لغزشی برای سیستم قدرت چند ماشینه
  غضنفر شاهقلیان امین رجبی بهرام کریمی محمدرضا یوسفی
  در این مقاله روشی جدید بر اساس تئوری کنترل لغزشی برای طراحی پایدارساز سیستم قدرت (PSS) ارائه می‌شود. هدف این کنترل کننده افزایش پایداری و بهبود پاسخ دینامیکی یک سیستم قدرت چند ماشینه می‌باشد. به منظور طراحی کنترل‌کننده لغزشی، ابتدا مدل غیرخطی سیستم به شکل نرمال تبدیل می چکیده کامل

  در این مقاله روشی جدید بر اساس تئوری کنترل لغزشی برای طراحی پایدارساز سیستم قدرت (PSS) ارائه می‌شود. هدف این کنترل کننده افزایش پایداری و بهبود پاسخ دینامیکی یک سیستم قدرت چند ماشینه می‌باشد. به منظور طراحی کنترل‌کننده لغزشی، ابتدا مدل غیرخطی سیستم به شکل نرمال تبدیل می‌شود که باعث تسهیل در طراحی کنترل‌کننده‌ی غیرخطی برای آن می‌شود و پس از آن کنترل کننده‌ی لغزشی پیشنهادی ارائه خواهد شد. نتایج شبیه‌سازی‌های انجام شده نشان می‌دهد که این کنترل کننده در برابر ایجاد تغییر در پارامترهای سیستم و نیز ایجاد اغتشاش در سیستم مقاوم می‌باشد. همچنین برای نشان دادن کارآیی بهتر روش پیشنهادی، نتایج روش کنترل لغزشی با روش طراحی کلاسیک (جبرانساز پس فاز- پیش فاز) مورد مقایسه قرار گرفته است. هدف اصلی از به کارگیری این روش بهبود رفتار کنترل کننده به منظور دستیابی به زمان نشست کوتا‌ه‌تر و میزان فراجهش کمتر در پاسخ دینامیکی سیستم می‌باشد. پرونده مقاله
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  6 - Decentralized Synergistic Control of Multi-Machine Power System Using Power System Stabilizer
  Arman Fattollahi-Dehkordi Ghazanfar Shahgholian Bahador Fani
  Many researchers have proposed small signal analysis methods and numerous power system stabilizers designed by system linearization. In these approaches, it is assumed that disturbances are so small and the linear approximation error of a nonlinear power system remains چکیده کامل

  Many researchers have proposed small signal analysis methods and numerous power system stabilizers designed by system linearization. In these approaches, it is assumed that disturbances are so small and the linear approximation error of a nonlinear power system remains in an acceptable range. However, the approximation can restrict the validity of linearized models to a neighborhood of equilibrium points. In this paper, in order to reduce the concerns related to the linearization of the power system and damping of electromechanical oscillations, the synergistic nonlinear control method has been used. In addition, a decentralized control strategy was proposed for the use of power system stabilizers in multi-machine power systems. The relation between generators was modelled as a function of variables and its effects on a single machine connected to an infinite bus power system were examined under various disturbances. Also, three test systems were used to verify the efficiency of the proposed decentralized synergetic method. The simulation results showed that the proposed power system stabilizer was more effective than other stabilizers such as a multi-band power system stabilizer in local and inter-area mode oscillations and under different disturbances. پرونده مقاله
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  7 - Analysis and Simulation Dynamic Behavior of Power System Equipped with PSS and Excitation System Stabilizer
  Arman Fattollahi Majid Dehghani Mohamad Reza Yousefi
  Power system is a nonlinear and temporal variable system. Different parts of the system change at different times and times with changing loads or loss of generators and disturbances. Power system stability and attenuation of low frequency fluctuations are very importan چکیده کامل

  Power system is a nonlinear and temporal variable system. Different parts of the system change at different times and times with changing loads or loss of generators and disturbances. Power system stability and attenuation of low frequency fluctuations are very important. To increase the damping power and stability of the dynamic system, power system stabilizers are used to reduce fluctuations by generating additional control signals for the generator excitation system. In this paper, to improve the stability of the power system dynamic, a power system stabilizer based on synergistic control theory with an excitation system stabilizer according to a simplified nonlinear power system is used. The power system stabilizer has been studied in a single machine system connected to an infinite bus. The results show that the use of power system stabilizer and excita-tion system stabilizer for all nonlinear dynamic systems performs better than synergistic PSS, conventional PSS, and a system without stabilizer. پرونده مقاله
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  8 - Coordination Between the Automatic Voltage Regulator and Output of the Power System Stabilizer to Increase the Stability Improvement
  Majid Salesi-Mousaabadi Ghazanfar Shahgholian
  By combining particle swarm optimization (PSO) and fuzzy logic controller (FLC), the ability of these methods to solve complex and nonlinear problems effectively improves power system stability. Setting the power system stabilizer parameters using the PSO method is pres چکیده کامل

  By combining particle swarm optimization (PSO) and fuzzy logic controller (FLC), the ability of these methods to solve complex and nonlinear problems effectively improves power system stability. Setting the power system stabilizer parameters using the PSO method is presented in this paper. Fuzzy logic controller has been used for simultaneous weighting of the automatic voltage regulator and power system stabilizer output. First, the simulation has been carried out in a single-machine power system, where the optimal PSS parameters have been obtained using the PSO algorithm. Then, by simultaneously adjusting the voltage and damping by the fuzzy logic controller, the effectiveness of the proposed method is verified compared to the PSS based on the linear optimization controller. In the following, the simulation results of a multi-machine system are shown. The efficiency of the method has been shown in response to a variety of disorders پرونده مقاله
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  9 - Design of a PID-PSS Power System Stabilizer for Single-Machine Infinite-Bus Power System
  Mehdi Mahdavian Ali Asghar Amini Mahnaz Hashemi
  Power system stabilizer (PSS) generates electrical torques by applying a signal to the excitation system, which reduces power oscillations. The PSS’s main function is to damp generator rotor oscillations. In this paper, the structure of a PSS based on PID controll چکیده کامل

  Power system stabilizer (PSS) generates electrical torques by applying a signal to the excitation system, which reduces power oscillations. The PSS’s main function is to damp generator rotor oscillations. In this paper, the structure of a PSS based on PID controller for system stability enhancement is presented. The voltage regulator excitation system is equipped with IEEE type-DC1exciter model. The application of the controller is investigated by means of simulation studies on a single machine infinite bus power system. For the system without any PSS and the system with conventional PSS (CPSS) and proportional-integral-derivative PSS (PID-PSS), the system responses for three different conditions were obtained using equations linear simulation. Eigenvalue analysis is used for comparison. The simulation results show that the controller is effective in improving steady state and dynamic performances regardless of the system operating conditions. پرونده مقاله
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  10 - A Review on Improving Power System Stability Using Meta-Heuristic Optimization Algorithms for Power System Stabilizer Tuning
  Sayed Mohammad Ali Zanjani Mehdi Mahdavian Mohammad Amin Honarvar Mehdi Riahinasab Arman Fattollahi
  10.30495/spre.2024
  In the power system, any change in the input or any disturbance causes oscillations in frequency, voltage, and real and reactive power. The Power System Stabilizer (PSS) stands out as a re-nowned and effective equipment for damping power system oscillations, extensively چکیده کامل

  In the power system, any change in the input or any disturbance causes oscillations in frequency, voltage, and real and reactive power. The Power System Stabilizer (PSS) stands out as a re-nowned and effective equipment for damping power system oscillations, extensively explored in studies aimed at enhancing the dynamic stability of power systems. Challenges such as low-frequency fluctuations and the intricate nature of power systems have spurred the application of intelligent methods and optimization algorithms for addressing PSS-related issues. In this paper, a brief review of the studies conducted in the field of meta-heuristic optimization algorithms for PSS design is presented. Meta-heuristic methods are divided into three groups, and based on them, more than 200 articles have been studied in the field of PSS parameter optimization. The balance between exploration and exploitation is a common theme among all meta-heuristic meth-ods. Researchers and practitioners of meta-heuristic optimization methods belong to a wide range of audiences in the fields of power systems optimization, who will benefit from this research پرونده مقاله
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  11 - Coordination Design of Power System Stabilizer and FACTS Controllers Using Nature-Inspired Metaheuristics Optimization Algorithms- A Brief Review
  Sayed Mohammadali Zanjani Ghazanfar Shahgholian Arman Fathollahi Sayed Mohammad Hosain Zanjani
  10.30495/ijsee.2023.1992877.1278
  Electromechanical oscillations in power systems usually exist due to incompatible conditions and disturbances in the network. Meta-heuristics using search strategy are used to find near-optimal solutions. Typically, the implementation of this approach involves the utili چکیده کامل

  Electromechanical oscillations in power systems usually exist due to incompatible conditions and disturbances in the network. Meta-heuristics using search strategy are used to find near-optimal solutions. Typically, the implementation of this approach involves the utilization of a fitness function to assess the candidate solutions. In nature-inspired metaheuristics optimization algorithms, an analogy from nature is used to generate approximate solutions for practical optimization problems. This work presents a comprehensive investigation into various nature-inspired optimization algorithms, including ant colony optimization, genetic algorithm, and bat algorithm. The primary focus of this paper is to explore their efficacy in the coordinated design of Power System Stabilizers (PSS) and Flexible Alternating Current Transmission Systems (FACTS). The objective of this coordinated design is to improve energy system stability and mitigate power system oscillations. Finally, new directions are provided to researchers who work in the field of applications of nature-inspired optimization algorithms and coordination configuration of PSS and FACTS regulators. پرونده مقاله
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  12 - Coordinated Design of PSS and SSSC Damping Controller Considering Time Delays using Biogeography-based Optimization Algorithm
  Javad Gholinezhad Mahmoud Ebaadian Mohammad R. Aghaerrahimi
  In this paper, a consistent pattern with the optimal coordinated design of PSS and SSSC controller to improve the damping of low frequency oscillations is shown. In this design, sensing and signal transmission time delays are considered as effectiveness parameters. The چکیده کامل

  In this paper, a consistent pattern with the optimal coordinated design of PSS and SSSC controller to improve the damping of low frequency oscillations is shown. In this design, sensing and signal transmission time delays are considered as effectiveness parameters. The design problem has been considered an optimization problem and biogeography-based optimization (BBO) algorithm is used for searching the optimal controller parameters. The proposed controller is employed for a single machine and two-machine power systems. The results are displayed in different load conditions to present the efficiency of the proposed method. The proposed controller provides sufficient damping for power system oscillations, in different operating conditions and disturbances. Results analysis shows that the use of biogeography-based optimization algorithm has a higher efficiency in damping oscillations of the power system, compared with the PSO algorithm, and increases the dynamic stability more. پرونده مقاله
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  13 - Design of Multi-Stage Fuzzy PID Bundled Artificial Bee Colony for Multi-machine PSS
  Nasser yousefi
  This paper presents a new strategy based on Multi-stage Fuzzy (MSF) PID controller based on Artificial Bee Colony (ABC) for damping Power System Stabilizer (PSS) in multi-machine environment. The recent studies in artificial intelligence demonstrated that the ABC optimi چکیده کامل

  This paper presents a new strategy based on Multi-stage Fuzzy (MSF) PID controller based on Artificial Bee Colony (ABC) for damping Power System Stabilizer (PSS) in multi-machine environment. The recent studies in artificial intelligence demonstrated that the ABC optimization is strong intelligent method in complicated stability problems. Also, finding the parameters of PID controller in power system has direct effect for damping oscillation. Thus, to reduce the design effort and find a better fuzzy system control, the parameters of proposed controller is obtained by ABC that leads to design controller with simple structure that is easy to implement. The effectiveness of the proposed technique is applied to Single machine connected to Infinite Bus (SMIB) and IEEE 3-9 bus power system. The proposed technique is compared with other techniques through ITAE and FD. پرونده مقاله
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  14 - Robust Control of Power System Stabilizer Using World Cup Optimization Algorithm
  Ali Madadi Navid Razmjooy Mehdi Ramezani
  In this paper, we propose a new optimized PID controller to stabilize the synchronous machine connected to an infinite bus. The model for the synchronous machine is 4-ordered linear Philips-Heffron synchronous machine. In this research, the parameters of the PID control چکیده کامل

  In this paper, we propose a new optimized PID controller to stabilize the synchronous machine connected to an infinite bus. The model for the synchronous machine is 4-ordered linear Philips-Heffron synchronous machine. In this research, the parameters of the PID controller are optimally achieved by minimizing a definite fitness function to removes the unstable Eigen-value to the left side of imaginary axis. The considered parameters for the controller are achieved by employing a new defined, World Cup Optimization algorithm. After applying the proposed controller, it is compared by the particle swarm optimization as a popular and high performance algorithm. Here, controller is obtained for all operating points. Final results show that the using World Cup Optimization algorithm has a better performance toward the compared particle swarm optimization. پرونده مقاله