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Microsystem Technologies

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21.04.2023 | Technical Paper

Design, development and performance analysis of FSPV system for powering sustainable energy based mini micro-grid

verfasst von: Sagnik Bhattacharya, Anik Goswami, Pradip Kumar Sadhu

Erschienen in: Microsystem Technologies | Ausgabe 10/2023

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Abstract

The Floating Solar Photovoltaic System (FSPV) is emerging as a favorable technology to policymakers for economically harvesting renewable energy. The implementation of large-scale photovoltaic (PV) systems is often disrupted due to the unavailability of land. The FSPV systems, where the PV modules are floated in water bodies facilitate optimal utilization of water resources and land assets. The FSPV provides higher power output compared to land-based PV systems of the equal area because of improved energy conversion efficiency at a lower temperature. Another opportunity for the FSPV system is integration with hydropower stations, storage systems, and the electric grid. This paper explores the flood duration curve-based optimal sizing of the FSPV System with the objective of electrification of rural micro-grid. A comparison of energy output and module temperature rise has been made for the FSPV system and its equivalent land-based PV system of equal area. The system generates 18.08 GWh, which is 10.04% more than the land-based PV system. The DC Capacity factor is 17.2%. The Demand Supply Factor (DSF) for a particular day in winter, spring, summer, and monsoon is 37.55%, 41.7%, 45.9%, and 25% respectively. The results indicate that the FSPV system is a sustainable alternative to power renewable energy-based mini micro-grid and provide cost effective electricity to all.

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Agrawal, S., Bali, N. and Urpelainen, J., (2019) Rural electrification in India: Customer behaviour and demand. Report, Smart Power India & Initiative for Sustainable Energy Policy.

Al-Ghussain L, Samu R, Taylan O, Fahrioglu M (2020) Sizing renewable energy systems with energy storage systems in microgrids for maximum cost-efficient utilization of renewable energy resources. Sustain Cities Soc 55:102059. https://doi.org/10.1016/j.scs.2020.102059CrossRef

Alktranee M, Bencs P (2022) Effect of evaporative cooling on photovoltaic module performance. Proc Integ Optim Sustain 6(4):921–930. https://doi.org/10.1007/s41660-022-00268-wCrossRef

Barron-Gafford GA, Minor RL, Allen NA, Cronin AD, Brooks AE, Pavao-Zuckerman MA (2016) The Photovoltaic heat island effect: larger solar power plants increase local temperatures. Sci Rep. https://doi.org/10.1038/srep35070CrossRef

Central Electricity Authority (CEA) Dashboard. (2020, April 21). Retrieved June 1, 2022, from https://cea.nic.in/dashboard/?lang=en

Central Electricity Authority (CEA). (2022, May). Executive Summery on Power Sector March-2022. Retrieved June 1, 2022, from https://cea.nic.in/wp-content/uploads/executive/2022/03/Executive_Summary_Mar_2022.pdf

Gadzanku, S, Beshilas L, & Grunwald U. (Bryn) (2021) Enabling Floating Solar Photovoltaic (FPV) Deployment: Review of Barriers to FPV Deployment in Southeast Asia. https://doi.org/10.2172/1787553.

Gonzalez Sanchez R, Kougias I, Moner-Girona M, Fahl F, Jäger-Waldau A (2021) Assessment of floating solar photovoltaics potential in existing hydropower reservoirs in Africa. Renew Energy 169:687–699. https://doi.org/10.1016/j.renene.2021.01.041CrossRef

Goswami A, Sadhu P, Goswami U, Sadhu PK (2019) Floating solar power plant for sustainable development: a techno-economic analysis. Environ Prog Sustain Energy. https://doi.org/10.1002/ep.13268CrossRef

Goswami A, Sadhu P, Sadhu PK (2020) Development of a Grid connected solar-wind hybrid system with reduction in levelized tariff for a remote Island in India. J Solar Energy Eng 142(4):044501CrossRef

Green MA (1982) Solar cells: operating principles, technology, and system applications. Englewood Cliffs. https://doi.org/10.1016/0038-092x(82)90265-1CrossRef

Hafeez H, Kashif Janjua A, Nisar H, Shakir S, Shahzad N, Waqas A (2022) Techno-economic perspective of a floating solar PV deployment over urban lakes: a case study of NUST lake Islamabad. Sol Energy 231:355–364. https://doi.org/10.1016/j.solener.2021.11.071CrossRef

IEA (2022) Renewable energy market update: outlook for 2022 and 2023. OECD Publishing, Paris,. https://doi.org/10.1787/faf30e5a-enCrossRef

IEA (2021), World Energy Outlook 2021, IEA, Paris https://www.iea.org/reports/world-energy-outlook-2021

IISD (2022) Mapping India’s Energy Policy 2022: Aligning support and revenues with a net-zero future. https://www.iisd.org/system/files/2022-05/mapping-india-energy-policy-2022.pdf

IRENA (2019), Future of Solar Photovoltaic: Deployment, investment, technology, grid integration and socio-economic aspects (A Global Energy Transformation: paper), International Renewable Energy Agency, Abu Dhabi. Retrieved June 1, 2022 https://www.irena.org/publications

IRENA (2022), Renewable Energy Statistics 2022, The International Renewable Energy Agency, Abu Dhabi Retrieved June 1, 2022, from https://www.irena.org/statistics

Kiesecker J, Baruch-Mordo S, Heiner M, Negandhi D, Oakleaf J, Kennedy C, Chauhan P (2019) Renewable energy and land use in India: a vision to facilitate sustainable development. Sustainability 12(1):281. https://doi.org/10.3390/su12010281CrossRef

Kjeldstad T, Lindholm D, Marstein E, Selj J (2021) Cooling of floating photovoltaics and the importance of water temperature. Sol Energy 218:544–551. https://doi.org/10.1016/j.solener.2021.03.022CrossRef

Lee N, Grunwald U, Rosenlieb E, Mirletz H, Aznar A, Spencer R, Cox S (2020) Hybrid floating solar photovoltaics-hydropower systems: benefits and global assessment of technical potential. Renew Energy 162:1415–1427. https://doi.org/10.1016/j.renene.2020.08.080CrossRef

Liu L, Wang Q, Lin H, Li H, Sun Q, wennersten, R. (2017) Power generation efficiency and prospects of floating photovoltaic systems. Energy Procedia 105:1136–1142. https://doi.org/10.1016/j.egypro.2017.03.483CrossRef

Makhija SP, Dubey SP, Bansal RC, Jena PK (2021) Techno-environ-economical analysis of floating PV/On-ground pv/grid extension systems for electrification of a remote area in India. Technol Econom Smart Grids Sustain Energy. https://doi.org/10.1007/s40866-021-00104-zCrossRef

Nag AK, Sarkar S (2018) Modeling of hybrid energy system for futuristic energy demand of an Indian rural area and their optimal and sensitivity analysis. Renew Energy 118:477–488. https://doi.org/10.1016/j.renene.2017.11.047CrossRef

NWIC (2022) Daily Reservoir Level & Storage Timeseries Timeseries data for period 2016–01–01 to 2022–01–01. Retrieved June 2, 2022, from https://nwic.gov.in/data

Panchet Population Census 2011 - 2022. (n.d.). Retrieved June 2, 2022, from https://www.census2011.co.in/data/town/362194-panchet-jharkhand.html

Precision Survey Consultancy, (2020) “Sedimentation Survey Report of Panchet Reservoir under NHP” Damodar Valley Corporation https://nhp.mowr.gov.in

Prilliman, M., Stein, J. S., Riley, D., & Tamizhmani, G. (2020, June). Transient weighted moving average model of photovoltaic module back-surface temperature. In 2020 47th IEEE Photovoltaic Specialists Conference (PVSC) (pp. 0490–0497). IEEE.

Ravichandran N, Ravichandran N, Panneerselvam B (2021) Floating photovoltaic system for Indian artificial reservoirs—an effective approach to reduce evaporation and carbon emission. Int J Environ Sci Technol 19(8):7951–7968. https://doi.org/10.1007/s13762-021-03686-4CrossRef

Reges JP, Carvalho PCM, de Araújo JC, Carneiro TC (2022) Sizing Methodology of Floating Photovoltaic Plants in Dams of Semi-Arid Areas. J SolEnergy Eng 144(4):041003

Shyam B, Kanakasabapathy P (2022) Feasibility of floating solar PV integrated pumped storage system for a grid-connected microgrid under static time of day tariff environment: a case study from India. Renew Energy 192:200–221. https://doi.org/10.1016/j.renene.2022.04.031CrossRef

Solanki, C. S. (2015). Solar photovoltaics: fundamentals, technologies and applications. Phi learning pvt. Ltd.ISBN: 978–81–203–5111.

Spencer RS, Macknick J, Aznar A, Warren A, Reese MO (2018) Floating photovoltaic systems: assessing the technical potential of photovoltaic systems on man-made water bodies in the continental United States. Environ Sci Technol 53(3):1680–1689. https://doi.org/10.1021/acs.est.8b04735CrossRef

Tsai CT, Muna YB, Lin HY, Kuo CC, Hsiung R (2021) Optimal design and performance analysis of solar power microsystem for mini-grid application. Microsyst Technol 27(4):1267–1281. https://doi.org/10.1007/s00542-018-4213-7CrossRef

Van de Ven D-J, Capellan-Peréz I, Arto I, Cazcarro I, de Castro C, Patel P, Gonzalez-Eguino M (2021) The potential land requirements and related land use change emissions of solar energy. Sci Rep. https://doi.org/10.1038/s41598-021-82042-5CrossRef

Villalva MG, Gazoli JR, Filho ER (2009) Comprehensive approach to modeling and simulation of photovoltaic arrays. IEEE Trans Power Electron 24(5):1198–1208. https://doi.org/10.1109/tpel.2009.2013862CrossRef

Wang Y, Kamari ML, Haghighat S, Ngo PTT (2020) Electrical and thermal analyses of solar PV module by considering realistic working conditions. J Therm Anal Calorim 144(5):1925–1934. https://doi.org/10.1007/s10973-020-09752-2CrossRef

Yadav AS, Mukherjee V (2021) Conventional and advanced PV array configurations to extract maximum power under partial shading conditions: a review. Renew Energy 178:977–1005. https://doi.org/10.1016/j.renene.2021.06.029CrossRef

Titel: Design, development and performance analysis of FSPV system for powering sustainable energy based mini micro-grid
verfasst von: Sagnik Bhattacharya
Anik Goswami
Pradip Kumar Sadhu
Publikationsdatum: 21.04.2023
Verlag: Springer Berlin Heidelberg
Erschienen in: Microsystem Technologies / Ausgabe 10/2023
Print ISSN: 0946-7076
Elektronische ISSN: 1432-1858
DOI: https://doi.org/10.1007/s00542-023-05457-2

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