Techniques Analysis for Reduction Power Loss in Distribution System Synergy Photovoltaic Power Plant
Main Article Content
Abstract
This paper presents a techniques analysis for reduction power loss in distribution system synergy photovoltaic power plant. Analysis reducing power loss is a factor affecting the efficiency of the power distribution system. It with technical impacts under limitations such as intervals of load, Distance from source point to load group. Therefore, this paper is presented to solve the problem of power loss in the power distribution system synergy photovoltaic power plant. Through mathematical modelling of a 33-bus distribution system and a power flow algorithm in conjunction with a distributed generator. The results showed that connect photovoltaic power plant can improve the power loss in the distribution system.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
The content within the published articles, including images and tables, is copyrighted by Rajamangala University of Technology Rattanakosin. Any use of the article's content, text, ideas, images, or tables for commercial purposes in various formats requires permission from the journal's editorial board.
Rajamangala University of Technology Rattanakosin permits the use and dissemination of article files under the condition that proper attribution to the journal is provided and the content is not used for commercial purposes.
The opinions and views expressed in the articles are solely those of the respective authors and are not associated with Rajamangala University of Technology Rattanakosin or other faculty members in the university. The authors bear full responsibility for the content of their articles, including any errors, and are responsible for the content and editorial review. The editorial board is not responsible for the content or views expressed in the articles.
References
P. Ngamprasert, N. Rugthaicharoencheep and S. Woothipatanapan, “Application Improvement of Voltage Profile by Photovoltaic Farm on Distribution System,” 2019 International Conference on Power, Energy and Innovations (ICPEI), pp.98-101, December 2019.
J. A. M. Rupa, and S. Ganesh, “Power Flow Analysis for Radial Distribution System Using Backward/Forward Sweep Method,” International Journal of Electrical and Computer Engineering, vol.8, no.10, pp.1628-1632, 2014.
P.Ngamprasert, P.Wannakarn, and N.Rugthaicharoencheep, “Enhance Power Loss in Distribution System Synergy Photovoltaic Power Plant,” 2020 International Conference on Power, Energy and Innovations (ICPEI), pp.173-176, May 2021.
G. W. Chang, and N. C. Chinh, “Coyote Optimization Algorithm-Based Approach for Strategic Planning of Photovoltaic Distributed Generation,” IEEE Access, vol.8, pp.36180-36190, February 2020.
R. Han, Q. Wang, T. Wang, Y. Zheng, and Shaoping Guan, “Research on power loss of distribution network with photovoltaic access,” The Journal of Engineering, vol.2017, no.13, pp.2257-2260, October 2017.
F. Sarkar, and R. Ramya, “Voltage sag and distortion mitigation in a hybrid power system using FACTs device,” International Journal of Science and Research, vol.4, no.5, pp.311 - 317, May 2015.
S. Aarif, and Er. R. K. Randhawa, “Improvement of power quality using photovoltaic dynamic voltage restorer,” International Journal for Research in Applied Science & Engineering Technology, vol.5, no.9, pp.703-708, September 2017.
GE Yang-yang, CAI Zhi-yuan, and SUN Li-yong, “Optimal placement for hybrid energy in micro-grid,” IEEE International Conference on Power System Technology (POWERCON), 2016.
N. M. Nor, A. Ali, T. Ibrahim, and M. F. Romlie, “Battery Storage for the Utility-Scale Distributed Photovoltaic Generations,” IEEE Access, vol.6, pp.1137-1154, November 2017.
Y. Wang, N. Zhang, H. Li, J. Yang, and C. Kang, “Linear three-phase power flow for unbalanced active distribution networks with PV nodes,” CSEE Journal of Power and Energy Systems, vol.3, no.3, pp.321-324, September 2017.
J. S. Savier, and D. Das, “Impact of network reconfiguration on loss allocation of radial distribution systems,” IEEE Trans. on Power Delivery, vol.22, no.4, pp.2473-2480, October 2007.