Nattakarn Sakarapunthip scite author profile

Nattakarn Sakarapunthip

2Publications

12Citation Statements Received

25Citation Statements Given

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Affiliations

Joint Graduate School of Energy and Environment, King Mongkut's University of Technology Thonburi

Publications

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Effects of dust accumulation and module cleaning on performance ratio of solar rooftop system and solar power plants

Sakarapunthip

Chenvidhya

Chuangchote

et al. 2017

Jpn. J. Appl. Phys.

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Thailand is an agricultural country, with rice, sugar, and cassava as the major export products. Production of rice, sugar cane, and cassava entails agricultural activities that give rise to significant airborne dusts. In this work, five photovoltaic (PV) units (one solar rooftop and four power plants) are selected for the study. From the study of dust accumulation on glass surface located near rice farms, it was found that opaque areas due to the deposition of dust are 11–14% after 1–2-week exposure. As a consequence, PV system performance is affected. Performance ratio was calculated to determine these effects. Overall results reveal that during the dry and hot seasons, dust deposition significantly affects the performance ratio. The performance ratio reduces by 1.6–3% for 1-month dust accumulation and reduces by 6–8% for 2-month dust accumulation. After cleaning the dust accumulated, the performance ratio greatly increases, resulting in the increase in the energy output by 10%. This increase provides economic and cost benefits of PV cleaning. The performance ratio is not significantly changed during the rainy season, which PV modules are relatively clean as the dust is washed away by rain. It was also found that most of the solar power plants in Thailand still rely on manual cleaning of PV modules with washing water followed by wiping. However, only one power plant, employs a machine for cleaning, resulting in lower cleaning costs.

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Dust Accumulation and Its Effect on PV Performance in Tropical Climate and Rice Farm Environment

Sakarapunthip

Chenvidhya

Chuangchote

et al. 2021

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