| Title |
A HBA Approach based Reactive Power Market Clearing and Settlement Using DC Participant Based Distributed Slack OQF Model |
| Authors |
(K. Sarmila Har Beagam) ; (Mahabuba A) ; (Jayashree R) ; (Jennathu Beevi Sahul Hameed) |
| DOI |
https://doi.org/10.5573/IEIESPC.2025.14.4.557 |
| Keywords |
Participant based distributed slack reactive power flow model; Deregulated power system; Incremental loss factor; Loss allocation; Market center concept; Linear programming (LP) |
| Abstract |
The standard single-slack bus power flow (PF) method has flaws in that the slack bus (mismatch) absorbs every loss. This means that the loss is being viewed in light of the slack bus. As a result, it is challenging to demonstrate the equity and transparency of the loss component. This study introduces a fresh way to clear and settle the single-sided auction market using the Honey Badger Algorithm (HBA) and a new method called Participant-Based Distributed Slack Reactive Optimum Reactive PF (PBDSOQF). In this model, the equality constraints are shown by the voltage levels at each bus, and the inequality constraints are shown by a single power balancing equation that matches the amount of power sent by all GENCOs and received by all DISCOs at the market center. It is shown that the suggested technique greatly minimizes the overall bus loss, lowering the objective function’s cost. |