Optimal location of TCSC and SVC for enhancement of ATC in a de-regulated environment using RGA

MadhusudhanaRao, G.; Ramarao, P. Vijaya; Kumar, T. Jayanth

doi:10.1109/iccic.2010.5705874

Cited by 12 publications

(5 citation statements)

References 8 publications

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“…From simulations, they demonstrated that EP with optimal maximum number of FACTS and the suggested split search space managing technique gave higher power transfer capacity and less maximum number of FACTS controllers than those from non-split technique. In the power network during standard and contingency cases, G Madhusudhana Rao et al [6] have suggested real code GA for optimizing the location and controlling parameters of TCSC and SVC for accomplishing maximum available transfer capability (ATC). Using Continuous Power Flow (CPF) technique, ATC was calculated regarding both line thermal limit with bus voltage limits.…”

Section: Literature Reviewmentioning

confidence: 99%

Enhancing the Power System Loadability Using TCSC: Improved Gravitational Search Algorithm

Siddiqui¹,

Rani²

2015

IJIRSET

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For the efficient transmission of power from power plants to consumer loads, the power losses are reduced in modern power system. In order to reduce such losses, a recently evolved FACTS technology is used. In this paper, Thyristor Controlled Series Capacitor (TCSC) is selected to enhance the loadability in the transmission line. To improve the maximum power transfer capability by this device an improved gravitational search algorithm (IGSA) is suggested. Velocity of each agent is improved by this proposed algorithm. If the velocity is high then agents move to a better solution or else the optimum solution might not be achieved. Through the mass determination of each agent, all the solutions are contributing to the optimum solution. Here the maximum power loss of the system is considered as a fitness function. The proposed algorithm is validated on IEEE-57 test system using MATLAB platform. Thus with the help of IGSA the maximum power transfer capability is achieved and that with the economic cost of the device.

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Section: Literature Reviewmentioning

confidence: 99%

Enhancing the Power System Loadability Using TCSC: Improved Gravitational Search Algorithm

Siddiqui¹,

Rani²

2015

IJIRSET

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“…9 shows the voltages of different buses for an IEEE 9 bus system without and with FACTS devices under normal conditions. It is noted that insertion of SVC at bus 9 the voltage is more improved than insertion of TCSC in line 4 (4)(5). The contingency (line outage) ranking by means of the performance index values, are determined for each single line outage case.…”

Section: A System Modelmentioning

confidence: 99%

“…By seeing the Table 3, line 3(3-6) and line 2(8-2) are the mainly critical lines for double outages as contingency have the highest performance index. Fig.11 Comparison of voltages for 9 bus system at double outage (3)(4)(5)(6) The voltage profile at each bus by insertion of TCSC and SVC for double outage of lines at line 3(8-9) and line 2(8-2) is represented in Fig.11. It is observed that by insertion of SVC at bus 9 the voltage is more improved than by insertion of TCSC in line 4(4-5) even at double outage of line.…”

Section: A System Modelmentioning

confidence: 99%

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Effect of FACTS devices on enhancement of Voltage Stability in a deregulated power system

Rao¹,

Amarnath

Rao

2014

2014 International Conference on Circuits, Power and Computing Technologies [ICCPCT-2014]

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The power producers and customers share a regular transmission network for wheeling power from the point of generation to the point of consumption in a restructured power system organization. Every parties in this open access surroundings may try to produce the energy from the cheaper supply for greater profit margin, which may lead to overloading, infringement of line flow, voltage and stability limits. In power system environment voltage stability plays major role, it is integral part of the power system stability. In general Voltage stability problems occur more frequently in a heavily loaded system. The cause of voltage instability could be numerous. The control of voltage levels can be accomplished using Flexible Ac Transmission System Controllers like Static Var Compensator, Thyristorcontrolled series capacitor. This paper focuses on the enhancement Voltage Stability using FACTS devices. In this paper VAR loss Sensitivity method used to find out best possible location of FACTS devices. The results were simulated on modified IEEE-9 bus system using power world simulator 8.0.

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“…Evolutionary programming (EP)is proposed in [7] to solve the RPP problem, particle swarm optimization (PSO) is applied in [8], differential evolution (DE) is presented in [9] and [10], Ant colony optimization algorithm is presented in [11], gravitational search algorithm (GSA) is using to solve RPP problem with flexible ac transmission systems (FACTS) in [12], random drift PSO in [13], and fractional-order darwinian PSO is presented in [14]. In [3] PSO algorithm is presented to maximize the power transfer capability of power transactions between generators and loads in power systems without violating system constraints, genetic algorithm (GA) is proposed in [15], the static synchronous series compensator is used in [16], EP is proposed to determine the optimal allocation of FACTS devices in [17], Cat swarm optimization is applied in [18], hybrid of tabu search and simulated annealing in [19], and different methods of FACTS placements for maximizing the transfer power is applied in [20]. Table I categorizes the evaluated literature and highlights the new aspects of the proposed work in comparison to previous research efforts.…”

Section: Introductionmentioning

confidence: 99%

Reactive Power Planning and Total Transfer Capability Enhancement using Facts and Capacitor Banks. (Dept. E)

Basha

Eladl

ElDesouky

2021

MEJ. Mansoura Engineering Journal

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NOTATION A. Sets of indicesTotal number of buses Number of a possible installed capacitor bank Number of load level duration Number of generators Number of transmission lines Number of possible installed SVC devices Number of installed transformers Number of possible installed TCSC devices B. Constants and parameters Transmission line susceptance between bus i and bus j (p.u) The per-unit cost of the capacitor bank ($/MVAR) The fixed installation cost of capacitor bank in ($) Transmission line conductance between bus i and bus j (p.u) Per-unit energy cost ($/MWh) The interest rate for VAR devices (%) continued on the next page

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Optimal location of TCSC and SVC for enhancement of ATC in a de-regulated environment using RGA

Cited by 12 publications

References 8 publications

Enhancing the Power System Loadability Using TCSC: Improved Gravitational Search Algorithm

Enhancing the Power System Loadability Using TCSC: Improved Gravitational Search Algorithm

Effect of FACTS devices on enhancement of Voltage Stability in a deregulated power system

Reactive Power Planning and Total Transfer Capability Enhancement using Facts and Capacitor Banks. (Dept. E)

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