Title :
Improvement of the fire-proofing and fire-resistance properties of PV modules for building´s exterior walls
Author :
Ohuchi, T. ; Ishikawa, Norito ; Kozawa, Y.
Author_Institution :
Tech. Res. Inst., Kajima Corp., Tokyo, Japan
Abstract :
Research was conducted to investigate the fire-proofing and fire-resistance properties of a curtain-wall-type PV module for a building´s exterior walls. Several types of fluoroplastics were found to have a potential for application as fire-proofing cell encapsulation materials that can replace EVA. By using a cone calorimeter, decreases in total heat evolved and delays in ignition time were seen as the limiting oxygen index of cell encapsulation materials increased in the order of EVA, and fluoroplastics-A and B. From the test results of fire resistance tests using actual PV modules, the flames were found to be weaker with fluoroplastics compared with the case of EVA. Those also corresponded with the result of a cone calorimeter. Fluoroplastics were found to be more advantageous as fire-proofing cell encapsulation materials
Keywords :
calorimeters; calorimetry; encapsulation; flameproofing; flames; plastics; solar cell arrays; PV modules; building exterior walls; cell encapsulation materials; cone calorimeter; curtain-wall-type PV module; fire-proofing improvement; fire-resistance properties improvement; flames; fluoroplastics; ignition time delays; oxygen index limiting; total heat evolution; Building materials; Conducting materials; Delay effects; Encapsulation; Fires; Laboratories; Materials testing; Resistance heating; Safety; Water;
Conference_Titel :
Photovoltaic Specialists Conference, 2000. Conference Record of the Twenty-Eighth IEEE
Conference_Location :
Anchorage, AK
Print_ISBN :
0-7803-5772-8
DOI :
10.1109/PVSC.2000.916187
