A Comparative Study for Effective Distribution Network System Among LVDS and HVDS
DOI:
https://doi.org/10.30732/RJET.20200901003Keywords:
HVDS, LVDS, Distribution System, Radial NetworkAbstract
This paper discusses the previous work done for Low voltage distribution system (LVDS) and High voltage distribution system HVDS distribution system in various research applications. It is observed that LVDS and HVDS have shown vast era of work applications in comparison other distribution networks of the power system. HVDS is one of the most effective ways of distribution system which controls &maintains the voltage stability in power system during distribution and transmission. Power flow capability & control, continuation power flow, line stability index, optimal control, dynamic & transient stability techniques are used with LVDS and HVDS to achieve voltage stability. In this paper various works of LVDS and HVDS is deeply studied and described that in various efficient manner they can used for distribution network.
References
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[3] Haq, S. U., Sardar, S. Ahmad T., and Haq. I. U. (2018). Minimization of Power Losses on Selected 132kv Overhead Transmission Line in Hazara Division Pakistan to Improve the System Efficiency. In IEEE 21st International Multi-Topic Conference (INMIC) (1-6). Karachi.
[4] Dinzi, R., Hamonangan, T.S., Fahmi, F. (2017). High Voltage Distribution System (HVDS) as a better system compared to Low Voltage Distribution System (LVDS) alied at Medan city power network. In IOP Publishing TALENTA-CEST. Indonesia.
[5] Majeed, I. B., Acakpovi A., and Michael, M. B., (2017). Optimization of High Voltage Distribution System. In Research Journal of Applied Sciences, Engineering and Technology (251-255). Ghana.
[6] Tulsky, V. N., Vanin, A. S., Tolba, M. A., Sharova, A. Y., and Diab, A. A. Z., (2016). Study and analysis of power quality for an electric power distribution system - Case study: Moscow region. In IEEE NW Russia Young Researchers in Electrical and Electronic Engineering Conference (EIConRusNW) (710-716). St. Petersburg.
[7] Jiang B., and Wang J., (2016). Research on harmonic analysis of low voltage distribution networks and its monitoring system. In IEEE Advanced Information Management, Communicates, Electronic and Automation Control Conference (IMCEC) (1416-1420). Xi'an.
[8] Flaih, F. M. F., Xiangning, L., Waqar A., and Imran, R. M. (2016). Voltage profile and power loss improvement in distribution system using MVDS considering economic enticements. In IEEE 11th Conference on Industrial Electronics and Applications (ICIEA) (1122-1126) Hefei.
[9] Babu, P. R., Shenoy, R., Ramya, N. S. and Shetty, S., (2014). Implementation of ACO technique for load balancing through reconfiguration in electrical distribution system. In Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives (AICERA/iCMMD) (1-5). Kottayam.
[10] Prajapati, J., Patel, V., and Patel, H. (2014). Load flow, short circuit and stability analysis using Matlab. In International Conference on Green Computing Communication and Electrical Engineering (ICGCCEE) (1-5) Coimbatore.
[11] Shankar, G., Mukherjee, V., Debnath, S., Gogoi K. (2012), “Study of Different ANN Algorithms for Weak Area Identification of Power Systems” IEEE, India.
[12] Vadde A., and Sitaramgupta V. S. N. (2015). Enhancement of distribution system performance using HVAC boost converter and fuzzy controller," In Annual IEEE India Conference (INDICON) (1-5). New Delhi.
[13] Spandana, K., and Reddy, A. V., (2014). Restructuring of a low voltage distribution system into a high voltage distribution system for an improved voltage and power loss profile. In International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE) (1-7). Pattaya.
[14] Agarwal, H. K., Mukherjee, K., and Barna. P., (2013). Partially and fully insulated conductor systems for low and medium voltage overhead distribution lines. In IEEE 1st International Conference on Condition Assessment Techniques in Electrical Systems (CATCON) (100-104). Kolkata.
[15] Babu, P. R., Sushma. B. (2013). Operation and Control of Electrical Distribution System with Extra Voltage to minimize the Losses. In International Conference on Sustainable Energy and Intelligent Systems (SEISCON) (86-90). India.
[16] Babu, P. R., Sushma B., and Ashwin, K. B., (2012) HVDS approach for reducing the Technical and Non-technical losses to enhance the electrical distribution system performance. In IEEE 5th India International Conference on Power Electronics (IICPE) (1-5). Delhi.
[17] Ramesh, L., Madhusudhanaraju, M., Chowdhury S. P., and Chowdhury, S., (2011). Voltage profile improvement through high voltage distribution system. In International Conference on Sustainable Energy and Intelligent Systems (SEISCON) (468-473). Chennai.
[18] Sampath Kumar, S.A., Vasudaven, V., Antony, J., Raju, M.S., Ramesh, L. (2011). Minimization of Power Losses in Distribution System Through HVDS Concepts. In International Conference on Sustainable Energy and Intelligent Systems (SEISCON) (86-90). India.
[19] Amaresh, K., Sivanagaraju S., and Sankar, V., (2006). Minimization of Losses in Radial Distribution System by using HVDS. In International Conference on Power Electronic, Drives and Energy Systems (1-5). IEEE, New Delhi.
[2] Zala. Y. (2017). Comparative study and simulative analysis of high voltage and low voltage distribution systems for rural agricultural loads: Simulation using etap software. In IEEE International Conference on Smart Energy Grid Engineering (SEGE) (46-50). Oshawa.
[3] Haq, S. U., Sardar, S. Ahmad T., and Haq. I. U. (2018). Minimization of Power Losses on Selected 132kv Overhead Transmission Line in Hazara Division Pakistan to Improve the System Efficiency. In IEEE 21st International Multi-Topic Conference (INMIC) (1-6). Karachi.
[4] Dinzi, R., Hamonangan, T.S., Fahmi, F. (2017). High Voltage Distribution System (HVDS) as a better system compared to Low Voltage Distribution System (LVDS) alied at Medan city power network. In IOP Publishing TALENTA-CEST. Indonesia.
[5] Majeed, I. B., Acakpovi A., and Michael, M. B., (2017). Optimization of High Voltage Distribution System. In Research Journal of Applied Sciences, Engineering and Technology (251-255). Ghana.
[6] Tulsky, V. N., Vanin, A. S., Tolba, M. A., Sharova, A. Y., and Diab, A. A. Z., (2016). Study and analysis of power quality for an electric power distribution system - Case study: Moscow region. In IEEE NW Russia Young Researchers in Electrical and Electronic Engineering Conference (EIConRusNW) (710-716). St. Petersburg.
[7] Jiang B., and Wang J., (2016). Research on harmonic analysis of low voltage distribution networks and its monitoring system. In IEEE Advanced Information Management, Communicates, Electronic and Automation Control Conference (IMCEC) (1416-1420). Xi'an.
[8] Flaih, F. M. F., Xiangning, L., Waqar A., and Imran, R. M. (2016). Voltage profile and power loss improvement in distribution system using MVDS considering economic enticements. In IEEE 11th Conference on Industrial Electronics and Applications (ICIEA) (1122-1126) Hefei.
[9] Babu, P. R., Shenoy, R., Ramya, N. S. and Shetty, S., (2014). Implementation of ACO technique for load balancing through reconfiguration in electrical distribution system. In Annual International Conference on Emerging Research Areas: Magnetics, Machines and Drives (AICERA/iCMMD) (1-5). Kottayam.
[10] Prajapati, J., Patel, V., and Patel, H. (2014). Load flow, short circuit and stability analysis using Matlab. In International Conference on Green Computing Communication and Electrical Engineering (ICGCCEE) (1-5) Coimbatore.
[11] Shankar, G., Mukherjee, V., Debnath, S., Gogoi K. (2012), “Study of Different ANN Algorithms for Weak Area Identification of Power Systems” IEEE, India.
[12] Vadde A., and Sitaramgupta V. S. N. (2015). Enhancement of distribution system performance using HVAC boost converter and fuzzy controller," In Annual IEEE India Conference (INDICON) (1-5). New Delhi.
[13] Spandana, K., and Reddy, A. V., (2014). Restructuring of a low voltage distribution system into a high voltage distribution system for an improved voltage and power loss profile. In International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE) (1-7). Pattaya.
[14] Agarwal, H. K., Mukherjee, K., and Barna. P., (2013). Partially and fully insulated conductor systems for low and medium voltage overhead distribution lines. In IEEE 1st International Conference on Condition Assessment Techniques in Electrical Systems (CATCON) (100-104). Kolkata.
[15] Babu, P. R., Sushma. B. (2013). Operation and Control of Electrical Distribution System with Extra Voltage to minimize the Losses. In International Conference on Sustainable Energy and Intelligent Systems (SEISCON) (86-90). India.
[16] Babu, P. R., Sushma B., and Ashwin, K. B., (2012) HVDS approach for reducing the Technical and Non-technical losses to enhance the electrical distribution system performance. In IEEE 5th India International Conference on Power Electronics (IICPE) (1-5). Delhi.
[17] Ramesh, L., Madhusudhanaraju, M., Chowdhury S. P., and Chowdhury, S., (2011). Voltage profile improvement through high voltage distribution system. In International Conference on Sustainable Energy and Intelligent Systems (SEISCON) (468-473). Chennai.
[18] Sampath Kumar, S.A., Vasudaven, V., Antony, J., Raju, M.S., Ramesh, L. (2011). Minimization of Power Losses in Distribution System Through HVDS Concepts. In International Conference on Sustainable Energy and Intelligent Systems (SEISCON) (86-90). India.
[19] Amaresh, K., Sivanagaraju S., and Sankar, V., (2006). Minimization of Losses in Radial Distribution System by using HVDS. In International Conference on Power Electronic, Drives and Energy Systems (1-5). IEEE, New Delhi.
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Published
2020-07-17
How to Cite
Solanki, A. S., & Thankachan, D. (2020). A Comparative Study for Effective Distribution Network System Among LVDS and HVDS. CSVTU Research Journal, 9(01), 16–22. https://doi.org/10.30732/RJET.20200901003
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