High-resolution analysis of rooftop photovoltaic potential based on hourly generation simulations and load profiles

Rooftop photovoltaics (PV) are playing an increasingly important role in building a clean and decarbonized energy system. For such distributed resources, formulating scientific development plans and incentives tailored to local conditions requires a comprehensive potential assessment at high spatial...

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Published inApplied energy Vol. 348; p. 121553
Main Authors Jiang, Hou, Zhang, Xiaotong, Yao, Ling, Lu, Ning, Qin, Jun, Liu, Tang, Zhou, Chenghu
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.10.2023
Subjects
case studies
China
economic feasibility
Economic return
electric energy consumption
electricity
energy
Energy storage
Grid flexibility
Load profile
markets
power generation
Rooftop photovoltaics
solar energy
surveys
uncertainty
China
Rooftop photovoltaics
Economic return
Load profile
Grid flexibility
Energy storage
Online AccessGet full text
ISSN0306-2619
DOI10.1016/j.apenergy.2023.121553

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Abstract Rooftop photovoltaics (PV) are playing an increasingly important role in building a clean and decarbonized energy system. For such distributed resources, formulating scientific development plans and incentives tailored to local conditions requires a comprehensive potential assessment at high spatial and temporal resolutions. Here, we evaluate the resource volume, power generation potential, economic feasibility, and market returns on electricity sales of rooftop PV in Jiangsu Province, China at hourly and 500-m resolutions by combining remote sensing survey, PV output simulation and load dispatching. The province's annual rooftop PV generation meets approximately 30% of the total social electricity consumption, and the entire region has reached both plant-side and user-side grid parity. Based on the case study, we investigate the suitable development scale of rooftop PV subject to different owners, as well as the impact of grid's system flexibility and energy storage on rooftop PV curtailment. For household use, the installation of a 3-kW rooftop PV is suitable, while for grid power supply, rooftop PV development needs to be sized to accommodate the grid. We find that increasing system flexibility significantly reduces PV curtailment for the same penetration rate, and that the use of energy storage helps increasing PV penetration under the curtailment constraint. This study represents a relatively extreme case of high penetration of variable solar PV generations, high uncertainty of PV outputs, and high variability in user-side loads, providing a reliable reference for rooftop PV development in other China's provinces. •Rooftop PV in Jiangsu can supply about 30% of the total social electricity demand.•3-kW rooftop PV is economically and commercially suitable for individual residents.•Rooftop PV development for electric utility needs to be sized to accommodate the grid.•Flexible grid and energy storage increase PV penetration and decrease PV curtailment.
AbstractList Rooftop photovoltaics (PV) are playing an increasingly important role in building a clean and decarbonized energy system. For such distributed resources, formulating scientific development plans and incentives tailored to local conditions requires a comprehensive potential assessment at high spatial and temporal resolutions. Here, we evaluate the resource volume, power generation potential, economic feasibility, and market returns on electricity sales of rooftop PV in Jiangsu Province, China at hourly and 500-m resolutions by combining remote sensing survey, PV output simulation and load dispatching. The province's annual rooftop PV generation meets approximately 30% of the total social electricity consumption, and the entire region has reached both plant-side and user-side grid parity. Based on the case study, we investigate the suitable development scale of rooftop PV subject to different owners, as well as the impact of grid's system flexibility and energy storage on rooftop PV curtailment. For household use, the installation of a 3-kW rooftop PV is suitable, while for grid power supply, rooftop PV development needs to be sized to accommodate the grid. We find that increasing system flexibility significantly reduces PV curtailment for the same penetration rate, and that the use of energy storage helps increasing PV penetration under the curtailment constraint. This study represents a relatively extreme case of high penetration of variable solar PV generations, high uncertainty of PV outputs, and high variability in user-side loads, providing a reliable reference for rooftop PV development in other China's provinces.
Rooftop photovoltaics (PV) are playing an increasingly important role in building a clean and decarbonized energy system. For such distributed resources, formulating scientific development plans and incentives tailored to local conditions requires a comprehensive potential assessment at high spatial and temporal resolutions. Here, we evaluate the resource volume, power generation potential, economic feasibility, and market returns on electricity sales of rooftop PV in Jiangsu Province, China at hourly and 500-m resolutions by combining remote sensing survey, PV output simulation and load dispatching. The province's annual rooftop PV generation meets approximately 30% of the total social electricity consumption, and the entire region has reached both plant-side and user-side grid parity. Based on the case study, we investigate the suitable development scale of rooftop PV subject to different owners, as well as the impact of grid's system flexibility and energy storage on rooftop PV curtailment. For household use, the installation of a 3-kW rooftop PV is suitable, while for grid power supply, rooftop PV development needs to be sized to accommodate the grid. We find that increasing system flexibility significantly reduces PV curtailment for the same penetration rate, and that the use of energy storage helps increasing PV penetration under the curtailment constraint. This study represents a relatively extreme case of high penetration of variable solar PV generations, high uncertainty of PV outputs, and high variability in user-side loads, providing a reliable reference for rooftop PV development in other China's provinces. •Rooftop PV in Jiangsu can supply about 30% of the total social electricity demand.•3-kW rooftop PV is economically and commercially suitable for individual residents.•Rooftop PV development for electric utility needs to be sized to accommodate the grid.•Flexible grid and energy storage increase PV penetration and decrease PV curtailment.
ArticleNumber 121553
Author Zhang, Xiaotong
Zhou, Chenghu
Jiang, Hou
Qin, Jun
Liu, Tang
Yao, Ling
Lu, Ning
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  organization: Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China
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Keywords Rooftop photovoltaics
Economic return
Load profile
Grid flexibility
Energy storage
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Snippet Rooftop photovoltaics (PV) are playing an increasingly important role in building a clean and decarbonized energy system. For such distributed resources,...
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SubjectTerms case studies
China
economic feasibility
Economic return
electric energy consumption
electricity
energy
Energy storage
Grid flexibility
Load profile
markets
power generation
Rooftop photovoltaics
solar energy
surveys
uncertainty
Title High-resolution analysis of rooftop photovoltaic potential based on hourly generation simulations and load profiles
URI https://dx.doi.org/10.1016/j.apenergy.2023.121553
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