Performance of grid-connected photovoltaic systems in Northern and Southern Hemispheres under equatorial climate

Yang Ilya Akila Abdul Rahim; Hedzlin Zainuddin; Eko Adhi Setiawan; Alfian Ferdiansyah Madsuha; Mohamad Zhafran Hussin; Shahril Irwan Sulaiman; Siti Nor Nadhirah Ibrahim

doi:10.11591/ijpeds.v15.i2.pp858-873

Performance of grid-connected photovoltaic systems in Northern and Southern Hemispheres under equatorial climate

Yang Ilya Akila Abdul Rahim, Hedzlin Zainuddin, Eko Adhi Setiawan, Alfian Ferdiansyah Madsuha, Mohamad Zhafran Hussin, Shahril Irwan Sulaiman, Siti Nor Nadhirah Ibrahim

Research output: Contribution to journal › Article › peer-review

Abstract

This work studied the actual and simulated technical performance between two grid-connected photovoltaic (GCPV) systems representing opposite latitudes. The system with a capacity of 5.4 kWp installed in Kelantan, Malaysia represents the northern equator, and the 183.6 kWp system installed in Cikarang, Indonesia, denotes the southern equator. The performance was simulated using PVsyst software, which included the energy output (E_out), reference yield (Y_r), final yield (Y_f), performance ratio (PR), and capacity factor (CF). The mean bias error (MBE) between the actual and simulated technical performance were as follows; for system A, the yearly MBE for the E_out, Y_r, Y_f, PR, and CF were-0.4%, 17.1%,-1.4%,-15.8%, and 1.4%, respectively, and for system B, the E_out, Y_r, Y_f, PR, and CF values were 9.80%, 18.3%, 10.0%,-7.2%, and 10.0% respectively. The results have proven that PVsyst has successfully simulated the yearly E_out, Y_f and CF for both systems including PR, for system B, with MBE less than 10%. However, it is noteworthy to highlight that PVsyst significantly overestimated the Y_r of both systems up to 18.3% and conversely underestimated the PR for system A by 15.8%, which highly likely caused by the Meteonorm imported weather data.

Original language	English
Pages (from-to)	858-873
Number of pages	16
Journal	International Journal of Power Electronics and Drive Systems
Volume	15
Issue number	2
DOIs	https://doi.org/10.11591/ijpeds.v15.i2.pp858-873
Publication status	Published - Jun 2024

Keywords

Equatorial climate
Grid-connected (GC)
Photovoltaic (PV)
PVsyst System performance

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.11591/ijpeds.v15.i2.pp858-873

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title = "Performance of grid-connected photovoltaic systems in Northern and Southern Hemispheres under equatorial climate",

abstract = "This work studied the actual and simulated technical performance between two grid-connected photovoltaic (GCPV) systems representing opposite latitudes. The system with a capacity of 5.4 kWp installed in Kelantan, Malaysia represents the northern equator, and the 183.6 kWp system installed in Cikarang, Indonesia, denotes the southern equator. The performance was simulated using PVsyst software, which included the energy output (Eout), reference yield (Yr), final yield (Yf), performance ratio (PR), and capacity factor (CF). The mean bias error (MBE) between the actual and simulated technical performance were as follows; for system A, the yearly MBE for the Eout, Yr, Yf, PR, and CF were-0.4%, 17.1%,-1.4%,-15.8%, and 1.4%, respectively, and for system B, the Eout, Yr, Yf, PR, and CF values were 9.80%, 18.3%, 10.0%,-7.2%, and 10.0% respectively. The results have proven that PVsyst has successfully simulated the yearly Eout, Yf and CF for both systems including PR, for system B, with MBE less than 10%. However, it is noteworthy to highlight that PVsyst significantly overestimated the Yr of both systems up to 18.3% and conversely underestimated the PR for system A by 15.8%, which highly likely caused by the Meteonorm imported weather data.",

keywords = "Equatorial climate, Grid-connected (GC), Photovoltaic (PV), PVsyst System performance",

author = "Rahim, {Yang Ilya Akila Abdul} and Hedzlin Zainuddin and Setiawan, {Eko Adhi} and Madsuha, {Alfian Ferdiansyah} and Hussin, {Mohamad Zhafran} and Sulaiman, {Shahril Irwan} and Ibrahim, {Siti Nor Nadhirah}",

year = "2024",

month = jun,

doi = "10.11591/ijpeds.v15.i2.pp858-873",

language = "English",

volume = "15",

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journal = "International Journal of Power Electronics and Drive Systems",

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AU - Rahim, Yang Ilya Akila Abdul

AU - Zainuddin, Hedzlin

AU - Setiawan, Eko Adhi

AU - Madsuha, Alfian Ferdiansyah

AU - Hussin, Mohamad Zhafran

AU - Sulaiman, Shahril Irwan

AU - Ibrahim, Siti Nor Nadhirah

PY - 2024/6

Y1 - 2024/6

N2 - This work studied the actual and simulated technical performance between two grid-connected photovoltaic (GCPV) systems representing opposite latitudes. The system with a capacity of 5.4 kWp installed in Kelantan, Malaysia represents the northern equator, and the 183.6 kWp system installed in Cikarang, Indonesia, denotes the southern equator. The performance was simulated using PVsyst software, which included the energy output (Eout), reference yield (Yr), final yield (Yf), performance ratio (PR), and capacity factor (CF). The mean bias error (MBE) between the actual and simulated technical performance were as follows; for system A, the yearly MBE for the Eout, Yr, Yf, PR, and CF were-0.4%, 17.1%,-1.4%,-15.8%, and 1.4%, respectively, and for system B, the Eout, Yr, Yf, PR, and CF values were 9.80%, 18.3%, 10.0%,-7.2%, and 10.0% respectively. The results have proven that PVsyst has successfully simulated the yearly Eout, Yf and CF for both systems including PR, for system B, with MBE less than 10%. However, it is noteworthy to highlight that PVsyst significantly overestimated the Yr of both systems up to 18.3% and conversely underestimated the PR for system A by 15.8%, which highly likely caused by the Meteonorm imported weather data.

AB - This work studied the actual and simulated technical performance between two grid-connected photovoltaic (GCPV) systems representing opposite latitudes. The system with a capacity of 5.4 kWp installed in Kelantan, Malaysia represents the northern equator, and the 183.6 kWp system installed in Cikarang, Indonesia, denotes the southern equator. The performance was simulated using PVsyst software, which included the energy output (Eout), reference yield (Yr), final yield (Yf), performance ratio (PR), and capacity factor (CF). The mean bias error (MBE) between the actual and simulated technical performance were as follows; for system A, the yearly MBE for the Eout, Yr, Yf, PR, and CF were-0.4%, 17.1%,-1.4%,-15.8%, and 1.4%, respectively, and for system B, the Eout, Yr, Yf, PR, and CF values were 9.80%, 18.3%, 10.0%,-7.2%, and 10.0% respectively. The results have proven that PVsyst has successfully simulated the yearly Eout, Yf and CF for both systems including PR, for system B, with MBE less than 10%. However, it is noteworthy to highlight that PVsyst significantly overestimated the Yr of both systems up to 18.3% and conversely underestimated the PR for system A by 15.8%, which highly likely caused by the Meteonorm imported weather data.

KW - Equatorial climate

KW - Grid-connected (GC)

KW - Photovoltaic (PV)

KW - PVsyst System performance

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JF - International Journal of Power Electronics and Drive Systems

IS - 2

ER -

Performance of grid-connected photovoltaic systems in Northern and Southern Hemispheres under equatorial climate

Abstract

Keywords

UN SDGs

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