A comparative study of the effects of photovoltaic power plants in desert and lake on the microclimate

Abstract

The utility-scale deployment of photovoltaic (PV) power plants is critical for achieving carbon peaking and carbon neutrality goals and mitigating climate change. However, the impact of a PV power plant project on the microclimate is unclear for different underlying surfaces. Therefore, PV power plants in deserts and lakes were selected to assess and compare the impact of PV array deployment on the environment by the observation. The results indicate that the PV array affected the wind pattern, the wind direction makes simple (from 10 m to 2 m), and wind speed in the PV site under two types of underlying surfaces was less than the reference site. For the PV power plant in desert, the delta (PV - REF) is increased from 0.12 m s−1 at 10 m to 0.27 m s−1 at 2 m. The counterpart in the lake is increased from 0.14 m s−1 at 10 m to 0.55 m s−1 at 2 m. However, the PV arrays had no effect on the air temperature at the center of the PV array gap. The difference in air temperature for two observation sites under two type of underlying surfaces was less than the resolution of instrument MaxiMet (0.1 °C). Instead, the heat from the PV panels is transmitted down to the land surface, causing a temperature effect in the desert and lakes. For the PV power plant in land, the arrays have heating effect on air temperature (The air temperature was 33.43 °C in the PV_land site, and 28.03 °C in the REF_land site in July, respectively). But the arrays have cooling effect on air temperature for the PV power plant in lake in the same month (PV_lake site, 28.58 °C; REF_lake site, 29.97 °C). Furthermore, evaporation is lower in the PV power plant owing to the physical shielding of PV arrays (For the land, the peak of hour evaporation (PV_land – REF_land) was 0.12 mm; for the lake, the peak of hour evaporation (PV_lake – REF_lake) was 0.32 mm). This study provides new evidence of the microclimate impact of photovoltaic array deployment on different underlying surfaces.