Output Power Enhancement by Flexible Solar Panel with Optimal Solar Field

Abstract

Most photovoltaic modules which comes for power extraction is flat and subsequently, investigate on board or plate design for photovoltaic frameworks regularly utilizes flat boards or plate. Notwithstanding, the expanded accessibility of thin-film photovoltaic modules opens up potential outcomes for the use of flexible solar cell on curve board or surfaces, including the joining of photovoltaic boards on building rooftops with twofold arch. This paper acquaints a method to analyze the power output for flexible photovoltaic modules on bended surfaces or plate and additionally an idea to organize various such modules on a surface or plate. This mix of geometry arc angle of cell and sun-based investigation gives information that is vital for area design of photovoltaic flexible curve solar panel and analyzation of power output. The calculation of the techniques which is presented is outlined with analysis, for which several parameters have been investigated in an optimized way. Maximum power generation for flexible curve panel are depends on optimal design of field area configuration where flexible curve panels will be installed and collector parameters. The power generation from the field for flexible curve solar panel has been calculated at a different curve angles. The parameter of field area design has been calculated analytically and validated in genetic algorithm (MATLAB).