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- Title
Peripheral Trio-block Synthesis (PTBS) Methodology to Estimate Intern Solar Energy.
- Authors
Kola, Leleedhar Rao
- Abstract
Various types of PV modules are commercially available. Of the many types, the one that is recommended for constructing a solar power generation system is the one that generates power in an optimal location with high efficiency and high yield. To plan the deployment of a system, knowledge of the solar irradiance of a given location is essential to predict the possible electricity generation (PEG) of a defined area. Predeterminations based on simulations of insolation and PEG are currently being carried out at specific locations, but it has not been possible to determine the actual technical thrust. This paper introduces a peripheral trio-block synthesis (PTBS) methodology to calculate solar irradiance based on measured physical irradiance data. A metric called Module Preferred Rank (MPR) is also introduced to compare different types of PV modules. Solar irradiance at the location of latitude 13.6214 ON and longitude 79.2903 OE is physically measured using a solar sensor on the day immediately adjacent to the vernal equinox. The developed PTBS methodology is applied to calculate solar irradiance based on measured physical irradiance data. The calculated solar irradiance is used to evaluate PEG via various PV modules that can be deployed in the open area of the site in question, and the MPR of each type is evaluated. The proposed PTBS methodology can potentially become a real-time solar irradiance calculation methodology. The MPR evaluated for various constraints may serve as a reference for the end user to select the appropriate PV module type. Choosing the right PV modules among several can increase the contribution to green power. The results of this paper were able to confirm the above statements.
- Subjects
VERNAL equinox; CHOICE (Psychology); ELECTRIC power production; SOLAR energy; SOLAR radiation; POLYETHYLENE glycol
- Publication
International Journal of COMADEM, 2023, Vol 26, Issue 4, p15
- ISSN
1363-7681
- Publication type
Article