Abstract
The temperature dependence coefficients of amorphous silicon and crystalline photovoltaic (PV) modules using Malaysian field data have been obtained using linear regression technique. This is achieved by studying three test stand-alone PV-batt ery systems using 62 Wp a-Si, 225 Wp multi- crystalline and 225 Wp mono-crystalline PV modules. These systems were designed to provide electricity for rural domestic loads at 200 W, 500 W and 530 W respectively. The systems were installed in the field with data monitored using da ta loggers. Upon analysis, the study found that the normalized power output per operating array temperature for the amorphous silicon modules, multi- crystalline modules and mono-crystalline modules were: +0.037 per°C, +0.0225 per °C and +0.0263 per °C respectively. In addition, at a solar irradi ance value of 500 Wm -2 , the current, voltage, power and efficiency dependence coefficients on operating array temperatures obtained from linear regression were: +37.0 mA per °C, -31.8 mV per °C, -0.1036 W per °C and -0.0214% per °C, for the a-Si modules, +22.5 mA per °C, -39.4 mV per °C, -0.2525 W per °C, -0.072 % per °C for the multi-crystalline modules and +26.3 mA per °C, -32. 6 mV per °C, -0.1742 W per °C, -0.0523 % per °C for the mono-crystalline modules. These findings have a direct impact on all systems design and sizing in similar climate regions. It is thus recom mended that the design and sizing of PV systems in the hot and humid climate regions of the globe give due address to these findings.
Highlights
The world photovoltaic (PV) cell and module technology production comprise mainly multicrystalline, monocrystalline and amorphous silicon (a-Si)
This paper presents a summary of the collected data on the performance of the a-Si and crystalline PV
A capacity of 100 Ah per battery was used for the a-Si system and a capacity of 125 Ah per battery each was used for the crystalline systems
Summary
The world photovoltaic (PV) cell and module technology production comprise mainly multicrystalline (multi-c), monocrystalline (mono-c) and amorphous silicon (a-Si). The use of a-Si PV modules has popularly been claimed to offer better performances than crystalline modules in the hotter climate regions of the world. Extensive research in PV applications and performances in the various regions of the globe have been undertaken covering both the a-Si and crystalline modules[1,2,3,4]. Several works have been accomplished in obtaining the temperature dependence coefficients of these types of modules besides research into the a-Si material itself[5,6,7,8]. Despite available data from the various parts of the world, quantified data from the hot and humid climate region such as the Southeast Asian region is very difficult to be found. The issue is becoming urgent as one of the countries in the region that has a wellplanned PV programme is Malaysia, via the United
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