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The Effects of a Fishery Complementary Photovoltaic Power Plant on the Near-Surface Meteorology and Water Quality of Coastal Aquaculture Ponds

Fawen Song, Zhiqiang Lu, Zhouhua Guo, Yi Wang, Li Ma

2024Water17 citationsDOIOpen Access PDF

Abstract

To date, most studies focus on the ecological and environmental effects of land-based photovoltaic (PV) power plants, while there is a dearth of studies examining the impacts of water-based PV power plants. The effects of a fishery complementary PV power plant, a kind of water-based PV technology, on the near-surface meteorology and aquaculture water environment were investigated in coastal aquaculture ponds in southeast China. The results showed that PV prevented 89~93% of the solar radiation on the surface of the pond, resulting in an average reduction in water temperature of 1.5 °C and a substantial decrease in light intensity of 94%. Furthermore, it weakened the wind speed by 41~50% and elevated the surface air temperature by an average of 0.6 °C. In addition, PV power results in an impressive decrease in chlorophyll-α of 72~94% and a notable increase in dissolved oxygen (DO) concentrations of 8~24%. PV power also reduced the concentration of labile phosphate, active silicate, total nitrogen, total phosphorus, and total organic carbon. However, the PV power did not have a substantial influence on the concentrations of nitrate and ammonium. Our results highlight that fishery complementary PV power plants may be able to improve water quality and benefit shade-loving species.

Topics & Concepts

Environmental scienceAquacultureWater qualityPhotovoltaic systemEnvironmental engineeringLight intensityRenewable energyPower stationNitratePhosphorusHydrology (agriculture)FisheryFish <Actinopterygii>EcologyBiologyChemistryElectrical engineeringPhysicsEngineeringOrganic chemistryOpticsGeotechnical engineeringWater-Energy-Food Nexus StudiesFish Ecology and Management StudiesWater Quality Monitoring Technologies
The Effects of a Fishery Complementary Photovoltaic Power Plant on the Near-Surface Meteorology and Water Quality of Coastal Aquaculture Ponds | Litcius