Corpus ID: 126031035

Impact Assessment of Vehicle-to-grid Technology in LFC of Multi-area Solar-thermal Power System

  title={Impact Assessment of Vehicle-to-grid Technology in LFC of Multi-area Solar-thermal Power System},
  author={Pushpa Gaur and N. Soren and Debashish Bhowmik},
  journal={International Journal of Renewable Energy Research},
This paper presents a load frequency control scheme with the integration of Vehicle-to-grid (V2G) which can enhance the system dynamics under load fluctuations. For this, a detailed multi-area multi-source system is designed with a solar-thermal and a thermal unit in Area1, a gas and thermal unit along with an electric vehicle (EV) fleet in Area2, and two thermal units and an EV fleet in Area3. The thermal units are single reheat turbine type, and appropriate generation rate constraints are… Expand
Application of Fractional Order Cascaded Controller for AGC Study in Power System Integrated With Renewable Sources
The intent of this paper assimilates the issues of automatic generation control of a two-area power system entailing five numbers of renewable as well as conventional sources and the recommended controller along with 2-DOF-PIDN-PDN, and PID controllers are designed by endorsing selfish herd optimization technique (SHOT). Expand
Fractional order cascaded controller for AGC study in power system with PV and diesel generating units
A novel three degrees of freedom cascade controller incorporated with derivative filter (N) (3DOF-FopIDN-FOPDN) controller is designed by endorsing a maiden application of WGA (Wild Goat Algorithm) algorithm to reach out an improved dynamic performance. Expand
Optimal design of a three degrees of freedom based controller for AGC of a power system with renewable energy sources
This paper articulates the automatic generation control of an intricate power system in the presence of different non-linearities by designing PID controllers with different degrees of freedom conglomerating with derivative filter to employ as secondary controllers in AGC. Expand
Tuning of 2 DOFPID Controller for Autonomous Hybrid Power system : A Multi objective optimization Approach
This paper explores the design and performance analysis of the Two degree of freedom PID (2DOFPID) controller for Automatic Generation Control (AGC) of an interconnected Autonomous power system. TheExpand
Fractional Fuzzy Controller based AGC of a Power System Integrated with Nonconventional Energy Sources
Reliability, and potential of FOFPID controller is examined by considering random load, as well as sporadic solar irradiation in the system, and the acclaimed controller vows to produce profound results established as a secondary controller in automatic generation control. Expand
Automatic Generation Control for Autonomous Hybrid Power System Using Single and Multi-objective Salp Swarm Algorithm
The simulation studies are carried out under five different sets of load disturbance which reveal the efficacy and superiority of Salp swarm algorithm based controller compared with other controllers. Expand
Simulation research on the grid connected generation system of solar thermal power generation
The simulation experiment shows that the optimized power generation system has great advantages and effectiveness, its dynamic response ability is very strong, and the output waveform of the powergeneration system can change with the sun light, which can effectively prevent the interference from the environment. Expand
Novel application of Selfish Herd Optimisation based Two Degrees of Freedom Cascaded Controller for AGC Study
  • N. Jena, N. C. Patel, +4 authors R. Bayindir
  • Computer Science
  • 2019 8th International Conference on Renewable Energy Research and Applications (ICRERA)
  • 2019
The improved dynamic response as well as robustness analysis confer that the recommended 2DOF-PIDN-PDN controller is more superior and proficient. Expand
EV Charging Stations and RES-Based DG: a Centralized Approach for Smart Integration in Active Distribution Grids
The obtained results demonstrate that a centralized management approach by the DSO, could assure the respect of operation limits of the system in the actual asset, delaying or avoiding upgrading engagements and charges. Expand
Observer-based event triggering H∞ LFC for multi-area power systems under DoS attacks
  • Md Musabbir Hossain, C. Peng
  • Computer Science
  • Inf. Sci.
  • 2021
Abstract This paper investigates the observer-based predictive event-triggered load frequency control (LFC) for a multi-area power system in a smart grid incorporating electric vehicles (EVs) underExpand


Load frequency control of a realistic power system with multi-source power generation
Abstract In this paper, load frequency control (LFC) of a realistic power system with multi-source power generation is presented. The single area power system includes dynamics of thermal with reheatExpand
Load Frequency Control of Power Systems With Electric Vehicles and Diverse Transmission Links Using Distributed Functional Observers
A load frequency control scheme using electric vehicles (EVs) to help thermal turbine units to provide the stability fluctuated by load demands and can cope better against accidental failures than those CO-based controllers. Expand
Impact Valuation of all Connected Generators Separately by Power Sharing Approach in the Wind Incorporated System
This paper presents a maiden attempt to the impact of renewable (wind) energy on the power system from an individual generator to all demands. A modified method is proposed by which the proportion ofExpand
Robust LFC in a Smart Grid With Wind Power Penetration by Coordinated V2G Control and Frequency Controller
Simulation results show the superior robustness and control effect of the proposed coordinated controllers over the compared controllers for robust LFC in the smart grid with large wind farms. Expand
Automatic Generation Contol Including Solar Themal Power Generation with Fuzzy-PID controller with Derivative Filter
The proposed research article presents an optimum Fuzzy-PID controller with a derivative filter to stabilize the frequency in a unified power system which includes renewable sources of energy likeExpand
Supplementary Load Frequency Control by Use of a Number of Both Electric Vehicles and Heat Pump Water Heaters
A new supplementary load frequency control (LFC) method by use of a number of both the EVs and the HPWHs as controllable loads is proposed, shown by numerical simulations conducted on the power system model with a large integration of wind power generation and photovoltaic generation. Expand
Fuzzy Control of Distributed PV Inverters/Energy Storage Systems/Electric Vehicles for Frequency Regulation in a Large Power System
The fuzzy based frequency control strategy by the Megawatt (MW) class distributed PV systems and electric vehicles (EVs) is found satisfactory to provide frequency control and to reduce tie-line power fluctuations. Expand
Effective oscillation damping of an interconnected multi-source power system with automatic generation control and TCSC
Abstract Stabilizing area frequency and tie-line power oscillations in interconnected power systems are main concerns that have received significant attention in automatic generation control (AGC)Expand
Some new findings on automatic generation control of an interconnected hydrothermal system with conventional controllers
This paper deals with automatic generation control of an interconnected hydrothermal system in continuous-discrete mode using conventional integral and proportional-integral controllers. AppropriateExpand
Automatic generation control application with craziness based particle swarm optimization in a thermal power system
A novel gain scheduling Proportional-plus-Integral (PI) control strategy is suggested for automatic generation control of the two area thermal power system with governor dead-band nonlinearity, and the obtained optimal PI-controller improves the dynamic performance of the power system as expected. Expand