Prabjeet S.rar - model of hybrid system pv cell and wind power plant,2019-02-05 01:49:14,下载28次
Mohan R.rar - hybrid mppt and solar cell,2019-02-05 01:45:47,下载15次
Mayank D.rar - matlab model of hybrid wind power plant and solar cell for hybrid power plant,2019-02-05 01:44:09,下载24次
Manas B.zip - matlab model of solar cell and hybrid system,2019-02-05 01:40:29,下载9次
Mamraj D.rar - matlab program and model of wind and pv cell,2019-02-05 01:38:21,下载6次
models.zip - matlab model of facts devices for finding reactive and active power of a simple system in a power system scenario,2019-02-05 01:17:42,下载6次
LFC with MPC.rar - 利用 MPC算法使得由发电机参数摄动和负荷扰动形成的电网频率波动减小。为验证所提出方案的有效性,建立三区域互联电力系统频率响应模型并仿真,将 MPC算法与常规的PID算法控制效果进行比较。结果表明,在负荷扰动、参数摄动和有通信延迟的情况下,MPC技术对互联电网的负荷频率控制性能均优于PID控制
Pareto-design-of-Load-Frequency-Control-for-inter - In this study, it is tried to employ a state-of-the-art multi-objective uniform-diversity genetic algorithm
(MUGA) for Pareto optimization of PI/PID controllers in Load Frequency Control (LFC) of power systems.
At fi rst, multi objective optimization of a linear non-reheat two-area interconnected power system is
conducted with respect to three confl icting objective functions. Gains of PI and PID controllers are con-
sidered as design variables while the objective functions are Integral Time multiply Absolute Error (ITAE),
Ahybr.zip - A hybrid Firefly Algorithm (FA) and Pattern Search (PS) optimized fuzzy PID controller is proposed for
Load Frequency Control (LFC) of multi area power systems. Initially a two area thermal system with Governor
Dead Band (GDB) nonlinearity is considered and the gains of the fuzzy PID controller are optimized
employing a hybrid FA and PS (hFA–PS) optimization technique. The supremacy of proposed hFA–PS over
FA is also demonstrated. The advantage of the proposed fuzzy PID controller has been shown by
comparing the results with some recently published techniques, such as Differential Evolution (DE)
and Craziness based Particle Swarm Optimization (CPSO). Further, sensitivity analysis is performed by
varying the system parameters and operat
Load-frequency-control-of-power-system-under-dere - In this paper, a novel Firefl y Algorithm (FA) optimized hybrid fuzzy PID controller with derivative Filter
(PIDF) is proposed for Load Frequency Control (LFC) of multi area multi source system under deregulated
environment by considering the physical constraints such as Generation Rate Constraint (GRC) and
Governor Dead Band (GDB) nonlinearity. As the effectiveness of FA depends on algorithm control param-
eters such as randomization, attractiveness, absorption coeffi cient and number of fi refl ies are systemat-
4437a360.rar - This paper presents the design of an intelligent fuzzy
gain scheduled proportional-integral (FGSPI) controller as the
supplementary controller for load frequency control (LFC) of
two-area interconnected power system with reheat type thermal
unit of equal capacity in each area. The dynamic response has
been studied for 1% step load perturbation in area-1. The
proposed FGSPI controller is compared against conventional
proportional-integral (PI) controller and state feedback linear
quadratic regulator (LQR) controller using settling times,
overshoots and undershoots of the tie-line power and frequency
deviations as performance indices. Comparative analysis
indicates that the proposed intelligent controller gives better
performance than conventional controllers.
Lewis optimal control 3rd edition 2012.rar - Matlab, LFC, AGC, frequency control, Optimal Control
Load-frequency-control-of-large-scale-power-syste - This article presents a newly developed, novel and effi cient optimization technique called quasi-
oppositional grey wolf optimization algorithm (QOGWO) for the fi rst time to solve load frequency control
problem (LFC) of a power system. Grey wolf optimization (GWO) is a recently developed meta-heuristic
optimization technique based on the effect of leadership hierarchy and hunting mechanism of wolves in
nature. Two widely employed test systems viz. two-area hydro-thermal and four-area hydro-thermal
Load-frequency-control-of-interconnected-power-sy - In this article an attempt has been made to solve load frequency control (LFC) problem in an inter-
connected power system network equipped with classical PI/PID controller using grey wolf optimization
(GWO) technique. Initially, proposed algorithm is used for two-area interconnected non-reheat thermal-
thermal power system and then the study is extended to three other realistic power systems, viz. (i) two-
area multi-units hydro-thermal, (ii) two-area multi-sources power system having thermal, hydro and gas
Load-frequency-control-in-two-area-power-systems- - This paper presents a fuzzy application to the area of load-frequency control (LFC) using fuzzy gain
scheduling of PI controllers. The study has been designed for a two area interconnected power system.
Using variable values for the proportional and integral gains in the controller unit, the dynamic perfor-
mance of the system is improved. A comparison among a conventional PI controller, some other fuzzy gain
Load-frequency-control-of-an-autonomous-hybrid-po - This paper deals with a novel quasi-oppositional harmony search algorithm (QOHSA) based design of
load frequency controller for an autonomous hybrid power system model (HPSM) consisting of multiple
power generating units and energy storage units. QOHSA is a novel improved version of music inspired
harmony search algorithm for obtaining the best solution vectors and faster convergence rate. In this
paper, the effi cacy of the proposed QOHSA is adjudged for optimized load frequency control (LFC) of
Load-frequency-control-in-deregulated-environment - Linear active disturbance rejection control (LADRC) method is investigated for the load frequency control
(LFC) of power systems in deregulated environments. The connections between one area and the rest of
the system and the effects of possible contracts are treated as a set of new disturbances besides the sys-
tem load. LADRC uses an extended state observer (ESO) to estimate the disturbances and compensates
Load-frequency-control-in-deregulated-power-syste - In this paper, the application of Adaptive Neuro Fuzzy System (ANFIS) controller is used formitigating the
various Load Frequency Control (LFC) issues in a two area hydrothermal power system under deregulated
environment is highlighted. To improve the LFC performance, combination of Super Conducting Magnetic
Energy Source (SMES) and Thyristor Controlled Phase Shifters (TCPS) are included in its control area. The
Load-frequency-control-by-neural-network-based-in - Load frequency control (LFC) plays an important role in maintaining constant frequency in order to
ensure the reliability of power systems.With the large-scale development of sustainable but intermittent
sources such as wind and solar, such intermittency challenges the LFC problem. Moreover, the generation
rate constraint (GRC) of power systems also complexes the LFC problem. Concerning the constraint, this
paper addresses an integral sliding mode control (I-SMC) method for power systems with wind turbines.
problem.zip - In order to effectively manage the problem of
load frequency control (LFC), preserve stability of frequency,
tie-line power and area control error (ACE) for
inter-connection hydro power system, the optimal problem
between system parameters and controller parameters was
constructed in this paper according to the relation between the
maximum peak resonance and the maximum peak overshoot.
The mathematic expression between the two kinds of
parameter was obtained by deduced the optimal problem.
Aimed at the non-minimum phase character of hydro generator