Abstract
In this study, we allocated soft open points (SOPs) and distributed generation (DG) units simultaneously with and without network reconfiguration (NR), and investigate the contribution of SOP losses to the total active losses, as well as the effect of increasing the number of SOPs connected to distribution systems under different loading conditions. A recent meta-heuristic optimization algorithm called the discrete-continuous hyper-spherical search algorithm is used to solve the mixed-integer nonlinear problem of SOPs and DGs allocation, along with new NR methodology to obtain radial configurations in an efficient manner without the possibility of getting trapped in local minima. Further, multi-scenario studies are conducted on an IEEE 33-node balanced benchmark distribution system and an 83-node balanced distribution system from a power company in Taiwan. The contributions of SOP losses to the total active losses, as well as the effect of increasing the number of SOPs connected to the system, are investigated to determine the real benefits gained from their allocation. It was clear from the results obtained that simultaneous NR, SOP, and DG allocation into a distribution system creates a hybrid configuration that merges the benefits offered by radial distribution systems and mitigates drawbacks related to losses, power quality, and voltage violations, while offering a far more efficient and optimal network operation. Also, it was found that the contribution of the internal loss of SOPs to the total loss for different numbers of installed SOPs is not dependent on the number of SOPs and that loss minimization is not always guaranteed by installing more SOPs or DGs along with NR. One of the findings of the paper demonstrates that NR with optimizing tie-lines could reduce active losses considerably. The results obtained also validate, with proper justifications, that SOPs installed for the management of constraints in LV feeders could further reduce losses and efficiently address issues related to voltage violations and network losses.
Highlights
The high penetration of distributed generation (DG) units poses new challenges—power loss increase, harmonic distortion aggregation, equipment overloads, and voltage quality problems—in the planning and operation of power distribution systems
The contribution of soft open points (SOPs) losses to total active losses, as well as the effect of increasing the number of SOPs connected to the system, are investigated under different loading conditions to determine the real benefits gained from the allocation of SOPs and DGs with network reconfiguration to provide the best operation of distribution networks with minimum losses and enhanced power quality performance
The contribution of SOP loss to the total active power loss as well as the effect of increasing the number of SOPs connected to the systems are studied
Summary
The high penetration of distributed generation (DG) units poses new challenges—power loss increase, harmonic distortion aggregation, equipment overloads, and voltage quality problems—in the planning and operation of power distribution systems. New perceptions are needed to face these challenges, cope with future advances to realize resilient electrical distribution systems with a high penetration of renewables, and guarantee reliable and efficient network performance. Transmission and distribution network operators struggle to identify the sources of network losses, utilize appropriate solutions to ensure reduced losses, operational costs and emissions, while keeping future energy losses as low as possible through proper planning of distribution systems with low carbon technologies [1,2]. Success in implementing the integration of VREs into modern distribution grids considerably depends on developments in energy storage markets, along with improved regulations to motivate the increased use of energy storage systems with renewables [3]
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