Techno-Economics of an Improved Hybrid solar Wind turbine
DOI: 10.54647/energy480191 91 Downloads 220007 Views
Author(s)
Abstract
The design of an Improved Hybrid Solar Wind Turbine (IHSWT) is described in which solar and wind are combined and converted into a single energy source. It consists of installing solar panels on the south- facing façade of the wind turbine tower. To capture maximum sunlight, the solar panels below the turbine blade, are mounted on extended cantilever arms and arranged in a semi-circular skirt around the perimeter of the tower face. This is an improvement on the previous design as more panels can be installed allowing for greater capture of solar irradiance. Data of an NREL 8 MW reference wind turbine is used for comparison to evaluate the performance and cost of the proposed IHSWT. From the results it is clear that IHSWT offers a reduced levelized cost of energy (LCOE), even after allowing for shading losses from the turbine blade, and a much steadier production of energy. The introduction of IHSWT would help to make wind farms a more cost-effective and competitive source of clean energy.
Keywords
Improved hybrid solar wind turbine, solar panels, turbine blade, cost- effectiveness, LCOE. tower
Cite this paper
Cawas Phiroze Nazir,
Techno-Economics of an Improved Hybrid solar Wind turbine
, SCIREA Journal of Energy.
Volume 8, Issue 1, February 2023 | PP. 18-32.
10.54647/energy480191
References
[ 1 ] | Global Wind Report 2023 https://gwec.net › globalwindreport2023 |
[ 2 ] | Renewable Energy Magazie 2011 https://www.renewableenergymagazine.com/wind/strategic-alliance-to-produce-a-groundbreaking 10th Oct 2011 |
[ 3 ] | Gujarat_Hybrid_Renewable_Energy_Park https://en.wikipedia.org/wiki/ 2020 |
[ 4 ] | López Mario, Rodríguez Noel and Iglesias Gregorio 2020 Combined Floating Offshore Wind and Solar , http://www.mdpi.com/journal/jmse 30 July 2020 |
[ 5 ] | RWE Renewables 2022, RWE and Solar Duck accelerate technology development and commercialization of offshore floating solar at scale https://www.rwe.com/en/press/rwe-renewables/2022-0 |
[ 6 ] | Liu, H.; Kumar, A.; Reindl, T.2020 The Dawn of Floating Solar—Technology, Benefits, and Challenges; Springer: Singapore,; Volume 41, ISBN 9789811387432 |
[ 7 ] | Nazir C.P. 2021”Techno-Economics of a Hybrid Photovoltaic Wind Turbine”, SCIREA Journal of Energy, Vol 6 , Issue 6, Dec 2021 https://doi.org/10.54647/energy48149 |
[ 8 ] | Stehly Tyler and Patrick Duffy 2022 National Renewable Energy Laboratory December 2022 https://www.nrel.gov/docs/fy23osti/84774.pdf |
[ 9 ] | Vestas Wind Turbine V-236-15 MW https//www.vestas.com>products>offshore>v236, 2021V236- |
[ 10 ] | Gifford & partners 2007 Concrete Towers for Onshore and Offshore Wind Farms, www.concretecentre.com ISBN 1-904818-48-X , 2017 |
[ 11 ] | ACCIONA, a pioneer in hybridization of solar panels with wind power towers 2019 https://www.acciona.com/updates/news/acciona-pioneer-hybridization-solar-panels-wind-power-towers/?_adin=01833301559 |
[ 12 ] | Jinko Solar, 2021 https://jinkosolar.eu/downloads/datasheets-tiger-neo/ |
[ 13 ] | Willey Lawrence D. 2010 Design and development of megawatt wind turbines WIT Transactions on State of the Art in Science and Engineering, Vol 44, © 2010 WIT Press doi:10.2495/978-1-84564-205-1/06 |
[ 14 ] | Brown Christian 2022 Shading Losses in PV systems, and Techniques to mitigate them https://www.aurorasolar.com/blog/shading-losses-for-pv-systems-and-techniques-to-mitigate-them/ |
[ 15 ] | Mavrokefalialis Dimitris Research investigates the shady role of wind turbines 2021 Energy Live News https://www.energylivenews.com/2021/11/02/research-investigates-the-shady-role-of-wind-turbines/ |
[ 16 ] | Solomin Evgeny , Sirotkin Evgeny , Cuce ,Erdem Shanmuga Priya Selvanathan and Kumarasamy Sudhakar 2021 Hybrid Floating Solar Plant Designs: A Review. Energies 2021, 14, 2751. https://doi.org/10.3390/en14102751 |
[ 17 ] | NREL (National Renewable Energy Laboratory), 2017. PV Watts Calculator. |
[ 18 ] | Deline C. 2009 Partially shaded operation of a grid-tied pv system Conference Paper NREL/CP-520-46001 June 2009 https://www.nrel.gov/docs/fy09osti/46001.pdf [19] Solar Calculator n.d. Do Solar Panels work in the Shade?. https://solarcalculator.com.au/solar-panel-shading/ |
[ 19 ] | IRENA 2020 Utility Scale PV|Electricity|2022|ATB|NREL https://atb.nrel.gov/electricity/2022/utility-scale_pv |
[ 20 ] | Jahangiri M, Shamsabadi A.A., Riahi R, Raiszadeh, Dehkordi P F, 2020, Levelized Cost of Electricity for Wind-Solar Power Systems in Japan, a Review. Journal of Power Technologies, [S.l.], v. 100, n. 3, p. 188-210, aug. 2020. ISSN 2083-4195 |
[ 21 ] | Future of Wind – A Global Energy Transformation paper https://www.irena.org/-/media/Files/IRENA/Agency/Publication/2019/Oct/IRENA_Future_of_wind_2019.pdf https://www.nrel.gov/docs/fy17osti/67675.pdf. |
[ 22 ] | Global Solar Atlas n.d.– Wikipedia en.wikipedia.org › wiki › Global Solar Atlas (Accessed Jan 2023) |
[ 23 ] | Executive Summary IRENA Renewable Power Generation Costs in 2021 https://www.irena.org/publications/2022/Jul/Renewable-Power-Generation-Costs-in-2021 |