Title :
PV module power gain due to bifacial design. Preliminary experimental and simulation data
Author :
Kreinin, Lev ; Bordin, Ninel ; Karsenty, Asher ; Drori, Avishai ; Grobgeld, Dov ; Eisenberg, Naftali
Author_Institution :
b-Solar, Jerusalem, Israel
Abstract :
Tests and subsequent simulation are needed for rational use of bifacial instead of traditional mono facial modules for generation of additional energy. Outdoor measurements of bifacial modules were undertaken at Jerusalem (~32 deg. of North altitude). Method of determining nominal electrical parameters (Isc and Pmax) for each side of the module is proposed. The relationships of back module irradiance and Isc, Pmax generation are studied for different climatic and design conditions: diffusion/global ratio of sun illumination, seasonal sun position, module elevation above the mounting surface, tilt panel angle, and reflectance of the underlying surface. Non uniformity of back illumination and module elevation are among factors dramatically affecting the energy gain when using bifacial modules.
Keywords :
photovoltaic cells; solar cells; Jerusalem; PV module power gain; back illumination; back module irradiance; bifacial design; bifacial modules; climatic condition; diffusion/global ratio; energy gain; energy generation; module elevation; monofacial modules; mounting surface; nominal electrical parameters; outdoor measurements; seasonal sun position; sun illumination; tilt panel angle;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2010 35th IEEE
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4244-5890-5
DOI :
10.1109/PVSC.2010.5615874
