Abstract
As an intermediate solution between Glaser's satellite solar power (SSP) and ground-based photovoltaic (PV) panels, this paper examines the collection of solar energy using a high-altitude aerostatic platform. A procedure to calculate the irradiance in the medium/high troposphere, based on experimental data, is described. The results show that here a PV system could collect about four to six times the energy collected by a typical U.K.-based ground installation, and between one-third and half of the total energy the same system would collect if supported by a geostationary satellite (SSP). The concept of the aerostat for solar power generation is then briefly described together with the equations that link its main engineering parameters/variables. A preliminary sizing of a facility stationed at 6 km altitude and its costing, based on realistic values of the input engineering parameters, is then presented. © 2009 IEEE.
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Aglietti, G. S., Redi, S., Tatnall, A. R., & Markvart, T. (2009). Harnessing high-altitude solar power. IEEE Transactions on Energy Conversion, 24(2), 442–451. https://doi.org/10.1109/TEC.2009.2016026
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