Key points are not available for this paper at this time.
Abstract Maximum utilization of the ACSR conductors, renewable and optimal utilization of the non-renewable resources for meeting the energy requirements is the norm of the present Industrial world. Availability of quality, undisrupted and reliable power at affordable prizes to the customers is the objective of the research. In this paper, a multi- objective optimal power flow of the power system in the presence of Interline Power Flow Controller is proposed for an integrated transmission system. The objective function includes minimization of power loss, negative security margin (NSM), voltage deviation, and negative social welfare (NSW). Lessening of loss and NSW ensures a drop in per-unit charge of energy leading to a greater customer satisfaction. The proposition has been applied on an IEEE 30 bus system. A 24-hour loading of the transmission system has been used to study the reliability of the proposed system. This gives an insight into the actual loading scenario of the power system. The Moth Flame Optimization Algorithm has been used for the optimization of objective function. The results obtained have been presented, compared and analysed in detail.
Mishra et al. (Wed,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: