Altyeb Ali Abaker Omer, Wen Liu*, Ming Li, Jianan Zheng, Fangxin Zhang, Xinyu Zhang, Samia Osman Hamid Mohammed, Liulu Fan, Zhipeng Liu, Fangcai Chen, Yuxuan Chen, Jan Ingenhoff Water evaporation reduction by the agrivoltaic systems development　Solar Energy,　247, 13-23, 2022.11;

Abstract:The triple benefits of the AgriVoltaic Systems Development (AVSD) have been well demonstrated, not only for the PV electricity generation but also for reduced water evaporation, enhancing further the benefits of simultaneously crop growth on the same land area. However, the reduction rate of the water evaporation of AVSD has not been investigated in a quantitative way. Therefore, this study conducted experiments to measure water evaporation reduction under the Concentrated-lighting Agrivoltaic System (CAS) and the Even-lighting Agrivoltaic System (EAS). Evaporation containers and pans were placed in the bare soil (CK) under the CAS and the EAS. Our results showed a significant reduction in water evaporation under CAS and EAS. Cumulative soil surface evaporation of CK, CAS, and EAS for 45 days was 80.53 mm, 63.38 mm, and 54.14 mm. The cumulative water evaporation from soil and pan surfaces decreased by 21 % and 14 % (under CAS), 33 %, and 19 % (under EAS), respectively. The slope ≠ 0 of simple linear regression showed a significant positive relationship between evaporation time and cumulative water evaporation. The correlation coefficient in all treatments was more than 0.91, suggesting a robust linear relationship. The feasibility of AVSD could significantly reduce irrigation water, enhance crop growth, and generate electricity simultaneously on the same agricultural land.

Translation or Not:no

Date of Publication:2022-10-08

Links to published journals:https://doi.org/10.1016/j.solener.2022.10.022