武汉首批供水加压站“加盖”光伏板，年均减少碳排放超千吨

Core Insights - The project marks Wuhan's first installation of photovoltaic (PV) systems on water supply booster stations, showcasing an innovative approach to renewable energy integration in urban infrastructure [1][3]. Group 1: Project Overview - The photovoltaic system consists of a total installed capacity of 2,050 kW, with 15,100 square meters of solar panels installed on the rooftops of two booster stations [3]. - Since the system was connected to the grid on June 4, it has generated over 75,000 kWh of electricity by July 15, with an expected annual output of 2.06 million kWh [3]. Group 2: Technological Innovations - The project features a "dust prevention" design with frameless solar panels that facilitate self-cleaning through rainwater, resulting in an average power gain of 2.04% and a maximum gain of 6% [3]. - An intelligent monitoring cloud platform has been implemented to track 18 key parameters related to power generation efficiency and equipment status, enabling precise operations and maintenance [4]. Group 3: Environmental and Economic Impact - The two booster stations consume approximately 8.5 to 9.5 million kWh of electricity annually, with the PV system expected to reduce external electricity purchases by about 15% [4]. - The project is projected to reduce carbon dioxide emissions by 1,010 tons per year, equivalent to the carbon sequestration effect of planting 55,000 trees [4]. Group 4: Strategic Implications - This initiative represents an innovative practice of the "photovoltaic + water services" model, exploring new pathways for utilizing idle spaces in water service systems [4]. - The standardized solution developed from this project can serve as a model for retrofitting 24 booster stations within the water services group, contributing to the establishment of a green and low-carbon urban water network in Wuhan [4].