Saurabh Jambolkar, Shivendra Singh Thakur, Shilpi Tomar | International Journal of Power Electronics Controllers and Converters | Vol 10, Issue 01 | pp. 23-31 | ISSN: 2456-1614
Abstract
The photovoltaic (PV) cell is one kind of renewable energy source that harnesses sunlight to create electrical current without the need for any kind of mechanical or thermal coupling. PV cells are typically joined to form PV modules, which have 72 PV cells total. Depending on temperature and sun irradiation, PV modules can generate a DC voltage between 23 and 45 volts and a maximum output of 160 watts. With a few notable exceptions, the electrical infrastructure worldwide operates on AC voltage, with the distribution grid having a voltage of 120 or 230 volts. As a result, PV modules cannot be connected to the grid directly; instead, an inverter is required. The inverter's two primary responsibilities are to maximize energy harvesting, load the PV module optimally, and introduce a sinusoidal current into the grid. As a result, studies have been conducted on inverter technologies, which are employed to connect a single photovoltaic module to the grid. The development of the inverter prioritizes mass production, high dependability, and low cost.
Keywords—PVCell, Inverter, DC/DC Converter, renewable energy, grid connectivity.
Keywords
Inverter, PVCell, DC/DC Converter, renewable energy, grid connectivity.
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- Kjaer, Soren Baekhøj“Design and Control of an Inverter forPhotovoltaic Applications”, Aalborg University, DENMARK,Instituteof Energy Technology, January 2005 ISBN: 87-89179-53-6.
- Photovoltaic technology, National Energy Education devolvementproject.
- Nishant Singh, An Improved grid connected PV generation invertercontrol system, a project report, Department of ElectricalEngineering,National Institute of Technology Rourkela.
- Vikas Kulkarni, Rajesh Nehete, Simulation and Analysis of Photo-Voltaic (PV) based Solar Inverter System, International Journal of SoftComputing and Engineering (IJSCE), ISSN: 2231-2307, Volume-3,Issue-6, January 2014.
- Ebenezer Nyarko Kumi, Abeeku Brew-Hammond, “Design andAnalysis of a 1MW Grid-Connected Solar PV System in Ghana” ATPSWorking Paper No. 78.
- B. Kjaer, J.K. Pedersen, F. Blaabjerg, A review of single-phase grid-connected inverters for photovoltaic modules, IEEE trans. on industryapplications, vol. 4, no.5, September/October 2005.
- Blaabjerg, Z. Chen, S. B. Kjaer, Power electronics as efficientinterface in dispersed power generation systems, IEEE trans. on powerelectronics, vol. 19, no. 5, pp. 1184-1194, September 2004.
- Kouro S, Leon JI, Vinnikov D, Franquelo LG. Grid-connected photovoltaic systems: An overview of recent research and emerging PV converter technology. IEEE Industrial Electronics Magazine. 2015 Mar 19;9(1):47-61.
- Reiter E, Ardani K, Margolis R, Edge R. Industry Perspectives on Advanced Inverters for US Solar Photovoltaic Systems. Grid Benefits, Deployment Challenges, and Emerging Solutions. National Renewable Energy Lab.(NREL), Golden, CO (United States); 2015 Sep 1.
- Obi M, Bass R. Trends and challenges of grid-connected photovoltaic systems–A review. Renewable and Sustainable Energy Reviews. 2016 May 1;58:1082-94.
How to cite this article
@article{JambolkarS2024,
author = {Saurabh Jambolkar and Shivendra Singh Thakur and Shilpi Tomar},
title = {Emerging Solutions for Enhancing Grid Connectivity in PV Inverter Designs},
journal = {International Journal of Power Electronics Controllers and Converters},
year = {2024},
volume = {10},
number = {01},
pages = {23--31},
issn = {2456-1614},
url = {https://journalspub.com/publication/ijpecc/article=10162}
}