Paper Title:
Sine Function and Power Function Model with Photovoltaic Generation System in Simple Installation
  Abstract

This paper shows the result of analytical consideration of the optimality of the solar panel installation for the simple photovoltaic generation system. The power generation is efficiency when the angle of solar panel is to change angle finite times. We adopted the approximated function to figured air mass with sine function or power function in solar radiation data, and calculated the solar radiation to decide optimum angle analytically. Then we have obtained the optimal relation which means the optimal relative angle, and the solar power generation will be made efficiently by using only simple structure.

  Info
Periodical
Advanced Materials Research (Volumes 354-355)
Chapter
Chapter 1: Engineering Thermophysics
Edited by
Hao Zhang, Yang Fu and Zhong Tang
Pages
119-122
DOI
10.4028/www.scientific.net/AMR.354-355.119
Citation
M. Muraoka, R. Masuda, "Sine Function and Power Function Model with Photovoltaic Generation System in Simple Installation", Advanced Materials Research, Vols. 354-355, pp. 119-122, 2012
Online since
October 2011
Export
Price
$32.00
Share

In order to see related information, you need to Login.

In order to see related information, you need to Login.

Authors: Yang Li, Xiao Dong Zheng, Lin Fang Shen
Chapter 1: Advanced Engineering Materials
Abstract:Ethylene Vinyl Acetate (EVA) as package material is widely used in solar cells modules. Conventionally, it is laminated on both sides of...
445
Authors: Yun Lian Song, Si Li, Jian Ran Cao
Chapter 6: Industrial and Civil Engineering
Abstract:Stability problem of gravity retaining wall structure was researched, and a simplified formula of the active earth pressure Ea was turned out...
1154
Authors: Yan Long Li, Jing Xu, Chong Yuan
Chapter 2: Renewable Energy, Bio-Energy and Fuel Cell
Abstract:Solar photovoltaic power generation as an inexhaustible, inexhaustible clean energy has become the focus of future energy development. Along...
203