Solar panel sensor modeling and fiscal modeling

Author

Griffin, Steven T. ; Wyatt, Thomas E.

Author_Institution

Dept. of Electr. & Comput. Eng., Univ. of Memphis, Memphis, TN, USA

fYear

2014

fDate

18-20 Feb. 2014

Firstpage

33

Lastpage

37

Abstract

A solar panel based sensor for automatic recording of practical insolation data at North Latitude 35.122196° and West Longitude -89.934553° has been developed. To implement this, a detailed, application oriented, solar panel model has been tested. This modeling has been divided into categories based on both technological characteristics such as cell and panel construction and disciple orientation such as thermal, electrical, optical, and mechanical. Emphasis has been on performance at maximum collection efficiency. This document addresses efficiency from the electrical output side rather than the optical input side. Emphasis is on effective coupling to load, balanced against collection efficiencies, so that sensor calibration constant is nearly constant. Partial obscuration and cost impacts are addressed.

Keywords

calibration; electric sensing devices; solar absorber-convertors; solar cells; automatic practical insolation recording; cost impact; disciple orientation; effective coupling; fiscal modeling; load matching; maximum collection efficiency; partial obscuration; sensor calibration constant; solar panel sensor modeling; technological characteristics; Computational modeling; Data models; Junctions; Polynomials; Standards; Temperature; Thermal conductivity;

fLanguage

English

Publisher

ieee

Conference_Titel

Sensors Applications Symposium (SAS), 2014 IEEE

Conference_Location

Queenstown

Print_ISBN

978-1-4799-2180-5

Type

conf

DOI

10.1109/SAS.2014.6798912

Filename

6798912