Publication detail

The Finite Volume Method in Photovoltaic - The Cooling System of Concentrator Solar Panels

VYROUBAL, P. MAXA, J. VANĚK, J. KŘIVÍK, P. SOLČANSKÝ, M.

Original Title

The Finite Volume Method in Photovoltaic - The Cooling System of Concentrator Solar Panels

English Title

The Finite Volume Method in Photovoltaic - The Cooling System of Concentrator Solar Panels

Type

conference paper

Language

en

Original Abstract

In concentrator cells, light is concentrated using lens to fall on solar cells to deliver maximum possible energy. By using concentrator cells light intensity is increased by targeting on certain area, which in result increases electricity production. Design and optimization of cooling equipment for heating concentrator solar cells is realized by SolidWorks and Flow Simulation systems. The device is analyzed on the flow and heat transfer to optimize the functional sample.

English abstract

In concentrator cells, light is concentrated using lens to fall on solar cells to deliver maximum possible energy. By using concentrator cells light intensity is increased by targeting on certain area, which in result increases electricity production. Design and optimization of cooling equipment for heating concentrator solar cells is realized by SolidWorks and Flow Simulation systems. The device is analyzed on the flow and heat transfer to optimize the functional sample.

Keywords

Photovoltaic cell, concentrator, simulation, model

RIV year

2014

Released

03.03.2014

Location

San Francisco

ISBN

978-1-62332-031-7

Book

13th International Conference on Advanced Batteries, Accumulators and Fuel Cells (ABAF 2012)

Pages from

255

Pages to

264

Pages count

9

BibTex


@inproceedings{BUT106968,
  author="Petr {Vyroubal} and Jiří {Maxa} and Jiří {Vaněk} and Petr {Křivík} and Marek {Solčanský}",
  title="The Finite Volume Method in Photovoltaic - The Cooling System of Concentrator Solar Panels",
  annote="In concentrator cells, light is concentrated using lens to fall on solar cells to deliver maximum possible energy. By using concentrator cells light intensity is increased by targeting on certain area, which in result increases electricity production. Design and optimization of cooling equipment for heating concentrator solar cells is realized by SolidWorks and Flow Simulation systems. The device is analyzed on the flow and heat transfer to optimize the functional sample.",
  booktitle="13th International Conference on Advanced Batteries, Accumulators and Fuel Cells (ABAF 2012)",
  chapter="106968",
  doi="10.1149/04801.0255ecst",
  howpublished="online",
  number="1",
  year="2014",
  month="march",
  pages="255--264",
  type="conference paper"
}