S. Vadhva scite author profile

Solar power received on the surface of any object on the earth could be considered as the power absorbed in the entire volume of that object and hence measured in Watts per unit volume. In this paper, effectiveness of measuring power and energy per unit volume and the impact of height in system efficiency is analyzed. Variations in solar radiation intensity based on the angles of the Sun during the day and the year is briefly reviewed.It is shown how the wide ranges of these variations can affect efficiency of a solar power generating system and its energy delivery. Module of Irradiance and Collectivity Factors are introduced as parameters to estimate power/energy entering a volume and the efficiency of the system. Cost efficiency of the system is discussed considering all high cost items such as land, collector equipment and the supporting structure. A solar powertracking concept is analyzed and shown how it would significantly increase the efficiency of the system. Feasibility of tracker in solar power generation is studied based on Tracking factor as defined here.

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Applications of Battery Storage to Improve Performance of Distribution Systems

Zarghami

Vaziri

Rahimi

et al. 2013

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Distributed generation issues, and standards

Vaziri

Vadhva

Oneal

et al. 2011

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Modeling and controlling 3D formations and flocking behavior of unmanned air vehicles

Belkhouche

Vadhva

Vaziri

2011

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S. Vadhva

A simple and effective approach for peak load shaving using Battery Storage Systems

Solar energy in a volume and efficiency in solar power generation

Applications of Battery Storage to Improve Performance of Distribution Systems

Distributed generation issues, and standards

Modeling and controlling 3D formations and flocking behavior of unmanned air vehicles

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