The potential for photovoltaic-powered pumped-hydro systems to reduce emissions, costs, and energy insecurity in rural China

Zongru  Yang; Guoxiu  Sun; Paul Behrens; Poul Alberg Østergaard; Mònica Egusquiza; Eduard  Egusquiza; Beibei Xu; Diyi  Chen; Eduardo  Patelli

doi:10.1016/j.ecmx.2021.100108

The potential for photovoltaic-powered pumped-hydro systems to reduce emissions, costs, and energy insecurity in rural China

Zongru Yang, Guoxiu Sun, Paul Behrens, Poul Alberg Østergaard, Mònica Egusquiza, Eduard Egusquiza, Beibei Xu, Diyi Chen, Eduardo Patelli

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Abstract

Homes in rural China often have access to water wells for domestic and agricultural use. Given the significant difference in height between the well water and the roof of the house, such an arrangement could be used as a solar-powered pumped-hydro energy generation system. These systems could both limit increases in carbon emissions from coal-powered electricity while alleviating energy insecurity, while providing significant savings to households. The potential for these systems in rural regions across Shaanxi province is investigated by assessing eight key environmental and socioeconomic indicators. The find is that positive impacts across almost all indicators with generally rapid investment payback periods of 6.4–8.1 years, annual net income increases of 314.2 CNY −541.6 CNY per year per household. This research laid a theoretical foundation for the promotion of PV-PH system in Shaanxi Province.

Original language	English
Article number	100108
Journal	Energy Conversion and Management: X
Volume	11
DOIs	https://doi.org/10.1016/j.ecmx.2021.100108
Publication status	Published - 2021

Keywords

Distributed generation
Emission mitigation
Energy insecurity
Photovoltaics
Pumped-hydro
Rural energy
Techno-economic evaluation

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10.1016/j.ecmx.2021.100108Licence: CC BY-NC-ND 4.0

Open Access articleFinal published version, 9.23 MBLicence: CC BY-NC-ND 4.0

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title = "The potential for photovoltaic-powered pumped-hydro systems to reduce emissions, costs, and energy insecurity in rural China",

abstract = "Homes in rural China often have access to water wells for domestic and agricultural use. Given the significant difference in height between the well water and the roof of the house, such an arrangement could be used as a solar-powered pumped-hydro energy generation system. These systems could both limit increases in carbon emissions from coal-powered electricity while alleviating energy insecurity, while providing significant savings to households. The potential for these systems in rural regions across Shaanxi province is investigated by assessing eight key environmental and socioeconomic indicators. The find is that positive impacts across almost all indicators with generally rapid investment payback periods of 6.4–8.1 years, annual net income increases of 314.2 CNY −541.6 CNY per year per household. This research laid a theoretical foundation for the promotion of PV-PH system in Shaanxi Province.",

keywords = "Distributed generation, Emission mitigation, Energy insecurity, Photovoltaics, Pumped-hydro, Rural energy, Techno-economic evaluation",

author = "Zongru Yang and Guoxiu Sun and Paul Behrens and {\O}stergaard, {Poul Alberg} and M{\`o}nica Egusquiza and Eduard Egusquiza and Beibei Xu and Diyi Chen and Eduardo Patelli",

year = "2021",

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T1 - The potential for photovoltaic-powered pumped-hydro systems to reduce emissions, costs, and energy insecurity in rural China

AU - Yang, Zongru

AU - Sun, Guoxiu

AU - Behrens, Paul

AU - Østergaard, Poul Alberg

AU - Egusquiza, Mònica

AU - Egusquiza, Eduard

AU - Xu, Beibei

AU - Chen, Diyi

AU - Patelli, Eduardo

PY - 2021

Y1 - 2021

N2 - Homes in rural China often have access to water wells for domestic and agricultural use. Given the significant difference in height between the well water and the roof of the house, such an arrangement could be used as a solar-powered pumped-hydro energy generation system. These systems could both limit increases in carbon emissions from coal-powered electricity while alleviating energy insecurity, while providing significant savings to households. The potential for these systems in rural regions across Shaanxi province is investigated by assessing eight key environmental and socioeconomic indicators. The find is that positive impacts across almost all indicators with generally rapid investment payback periods of 6.4–8.1 years, annual net income increases of 314.2 CNY −541.6 CNY per year per household. This research laid a theoretical foundation for the promotion of PV-PH system in Shaanxi Province.

AB - Homes in rural China often have access to water wells for domestic and agricultural use. Given the significant difference in height between the well water and the roof of the house, such an arrangement could be used as a solar-powered pumped-hydro energy generation system. These systems could both limit increases in carbon emissions from coal-powered electricity while alleviating energy insecurity, while providing significant savings to households. The potential for these systems in rural regions across Shaanxi province is investigated by assessing eight key environmental and socioeconomic indicators. The find is that positive impacts across almost all indicators with generally rapid investment payback periods of 6.4–8.1 years, annual net income increases of 314.2 CNY −541.6 CNY per year per household. This research laid a theoretical foundation for the promotion of PV-PH system in Shaanxi Province.

KW - Distributed generation

KW - Emission mitigation

KW - Energy insecurity

KW - Photovoltaics

KW - Pumped-hydro

KW - Rural energy

KW - Techno-economic evaluation

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U2 - 10.1016/j.ecmx.2021.100108

DO - 10.1016/j.ecmx.2021.100108

M3 - Journal article

SN - 2590-1745

VL - 11

JO - Energy Conversion and Management: X

JF - Energy Conversion and Management: X

M1 - 100108

ER -

The potential for photovoltaic-powered pumped-hydro systems to reduce emissions, costs, and energy insecurity in rural China

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Keywords

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