A Compensated Distributed-Parameter Line Decoupling Approach for Real Time Applications

Abstract

This article proposes a new method called the Compensated Distributed-Parameter Line Decoupling (CDLD) method, and used for decoupling distribution networks among parallel processing cores in a real-time multi-core environment. Due to the short length of distribution grid lines, decoupling the distribution network for real-time processing is challenging and approaches such as Stublines and State Space Nodal (SSN) solvers have been proposed. Both approaches have limitations and the method proposed in this work addresses these limitations to implement improvements. Specifically, the CDLD method can be used as an enhanced Stubline decoupling, improving on its accuracy and transient response, or it can be combined with an SSN solver to improve its computational performance and remove bottleneck issues. The CDLD method was tested on three IEEE benchmark systems in a real-time environment, and significant improvement was realized in network response and computational performance compared to the prevailing methods. The combined SSN-CDLD method proved to be the most promising approach for network decoupling.