Abstract
In fact, optimal RPD is one of the most critical optimization matters related to electrical power stability and operation. The minimization of overall real power losses is obtained by adjusting the power systems control variables, for instance; generator voltage, compensated reactive power and tap changing of the transformer. In this search, a new heuristic computing method named as fractional particle swarm optimization gravitational search algorithm (FPSOGSA) is presented by introducing fractional derivative of velocity term in standard optimization mechanism. The designed FPSOGSA is implemented for the optimal RPD problems with IEEE-30 and IEEE-57 standards by attaining the near finest outcome sets of control variables along with minimization of two fitness objectives; active power transmission line losses ($P_{loss,}$ MW) and voltage deviation ($\text{V}_{\mathrm {D}}$ ). The superior performance of the proposed FPSOGSA is verified for both single and multiple runs through comparative study with state of art counterparts for each scenario of optimal RPD problems.
Highlights
The electric power networks are intricated networks which consists of transmission, distribution and generation sub-systems aiming to operate with lowest consumption of resources while providing minimum losses, voltage deviation, operational cost, highest reliability and security [1]–[3]
The effectiveness of designed fractional particle swarm optimization gravitational search algorithm (FPSOGSA) is verified for the minimization of transmission line loss and voltage deviation with initial parameter settings documented in Table 3 while considering the following test systems
The results reported from other algorithms and the one generated by the FPSOGSA are listed in Table 7 along with the information of the control variables
Summary
Gk (ij) Vi, Vj δi, δj δij Transfer conductance of k branch Voltage magnitudes Voltage angles at ith and jth bus Difference in Voltage Angle between i-th and j-th bus. Active and Reactive power demand Active and Reactive power generation Penalty Multipliers for bus Voltages, Transformers Tap settings and Reactive power violations. Khan et al.: Design of FPSOGSA for Optimal Reactive Power Dispatch Problems
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