Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC?
The performance status of a grid-connected photovoltaic (GCPV) system is denoted by performance indices, namely performance ratio, capacity factor, and even through power acceptance ratio (AR), as documented in Malaysia Standard (MS) procedures for acceptance test of GCPV testing and commissioning (...
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my.utm.1035202023-11-14T06:33:48Z http://eprints.utm.my/103520/ Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? Mohd. Shukor, Fatin Azirah Zainuddin, Hedzlin Jamian, Jasrul Jamani Muhammad, Nurmalessa Muhammad Khir, Farah Liyana Abdul Rahman, Noor Hasliza TK Electrical engineering. Electronics Nuclear engineering The performance status of a grid-connected photovoltaic (GCPV) system is denoted by performance indices, namely performance ratio, capacity factor, and even through power acceptance ratio (AR), as documented in Malaysia Standard (MS) procedures for acceptance test of GCPV testing and commissioning (TNC). Even though AR analysis can be either on the DC or AC side, the MS TNC procedures implemented analysis on the AC side. Therefore, the question arises whether there is any significant difference when using AC AR analysis compared to DC AR analysis in evaluating the system performance. Thus, this paper evaluates the differences between applying DC AR analysis and AC AR analysis in accessing the performance of the ten kWp GCPV system in Malaysia. The AR analytical analysis employed the 2019 one-year historical data of solar irradiance, module temperature, DC power, and AC power. The results demonstrated that the monthly AC AR were consistently lower than DC AR with a percentage difference of approximately 3%. The percentage discrepancy was due to the variation of actual inverter efficiencies compared to the declared constant value by the manufacturer used in the AR prediction model. These findings have verified a significant difference between DC AR analysis and AC AR analysis. Most importantly, this study has highlighted the significance of AC AR analysis compared to DC AR analysis as a tool to evaluate GCPV system performance because AC AR has taken an additional factor into consideration, which is the inverter efficiency variation. Universiti Putra Malaysia Press 2022-01 Article PeerReviewed application/pdf en http://eprints.utm.my/103520/1/JasrulJamaniJamian2022_AcceptanceRatioAnalysisinGrid.pdf Mohd. Shukor, Fatin Azirah and Zainuddin, Hedzlin and Jamian, Jasrul Jamani and Muhammad, Nurmalessa and Muhammad Khir, Farah Liyana and Abdul Rahman, Noor Hasliza (2022) Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? Pertanika Journal of Science and Technology, 30 (1). pp. 221-233. ISSN 0128-7680 http://dx.doi.org/10.47836/pjst.30.1.12 DOI:10.47836/pjst.30.1.12 |
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TK Electrical engineering. Electronics Nuclear engineering Mohd. Shukor, Fatin Azirah Zainuddin, Hedzlin Jamian, Jasrul Jamani Muhammad, Nurmalessa Muhammad Khir, Farah Liyana Abdul Rahman, Noor Hasliza Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? |
| description |
The performance status of a grid-connected photovoltaic (GCPV) system is denoted by performance indices, namely performance ratio, capacity factor, and even through power acceptance ratio (AR), as documented in Malaysia Standard (MS) procedures for acceptance test of GCPV testing and commissioning (TNC). Even though AR analysis can be either on the DC or AC side, the MS TNC procedures implemented analysis on the AC side. Therefore, the question arises whether there is any significant difference when using AC AR analysis compared to DC AR analysis in evaluating the system performance. Thus, this paper evaluates the differences between applying DC AR analysis and AC AR analysis in accessing the performance of the ten kWp GCPV system in Malaysia. The AR analytical analysis employed the 2019 one-year historical data of solar irradiance, module temperature, DC power, and AC power. The results demonstrated that the monthly AC AR were consistently lower than DC AR with a percentage difference of approximately 3%. The percentage discrepancy was due to the variation of actual inverter efficiencies compared to the declared constant value by the manufacturer used in the AR prediction model. These findings have verified a significant difference between DC AR analysis and AC AR analysis. Most importantly, this study has highlighted the significance of AC AR analysis compared to DC AR analysis as a tool to evaluate GCPV system performance because AC AR has taken an additional factor into consideration, which is the inverter efficiency variation. |
| format |
Article |
| author |
Mohd. Shukor, Fatin Azirah Zainuddin, Hedzlin Jamian, Jasrul Jamani Muhammad, Nurmalessa Muhammad Khir, Farah Liyana Abdul Rahman, Noor Hasliza |
| author_facet |
Mohd. Shukor, Fatin Azirah Zainuddin, Hedzlin Jamian, Jasrul Jamani Muhammad, Nurmalessa Muhammad Khir, Farah Liyana Abdul Rahman, Noor Hasliza |
| author_sort |
Mohd. Shukor, Fatin Azirah |
| title |
Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? |
| title_short |
Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? |
| title_full |
Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? |
| title_fullStr |
Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? |
| title_full_unstemmed |
Acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between DC and AC? |
| title_sort |
acceptance ratio analysis in grid-connected photovoltaic system: is there any difference between dc and ac? |
| publisher |
Universiti Putra Malaysia Press |
| publishDate |
2022 |
| url |
http://eprints.utm.my/103520/1/JasrulJamaniJamian2022_AcceptanceRatioAnalysisinGrid.pdf http://eprints.utm.my/103520/ http://dx.doi.org/10.47836/pjst.30.1.12 |
| _version_ |
1783876376019861504 |
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13.250246 |