Against the backdrop of deepening energy transition, traditional high-energy-consumption scenarios are undergoing systematic upgrading.
As the dual-carbon goals continue to advance, high-energy-consumption industries are accelerating their shift toward green and low-carbon development. As an important part of urban infrastructure, wastewater treatment plants undertake environmental governance functions while maintaining typical high-energy-consuming operation, leaving considerable room for energy optimization and structural improvement.
Recently, a wastewater treatment plant project of a water group in Wuhu, supported by LSHE’s integrated solar and energy storage solutions and core products, has achieved key progress. The 2MW distributed photovoltaic system of the project was successfully connected to the grid on April 14, delivering clean power to the plant’s energy consumption system. Meanwhile, the supporting 1MWh energy storage system is under steady construction. With the gradual implementation of photovoltaic and energy storage systems, the project has become the local demonstration project that systematically introduces clean energy into the wastewater treatment scenario, providing practical references for the green upgrading of similar urban infrastructure.
In terms of energy consumption characteristics, wastewater treatment plants operate continuously with stable loads, which makes them highly compatible with distributed photovoltaic systems. With a total installed capacity of 2MW, the project is expected to generate approximately 2 million kilowatt-hours of clean electricity annually. Adopting the operation mode of "self-consumption with surplus power grid connection", the project realizes on-site production and consumption of clean energy. It effectively reduces reliance on external power purchase while improving the overall stability and cost-effectiveness of energy use.
The project is expected to cut carbon dioxide emissions by more than 2,000 tons every year. While lowering operational costs, it provides quantifiable support for regional green development. During project implementation, based on the customer’s actual energy consumption demands, LSHE delivered an integrated solar and energy storage solution covering scheme design and system configuration. Through overall collaborative planning and optimized design of photovoltaic and energy storage systems, the operational efficiency of the system is effectively improved, helping customers build a more stable and sustainable energy consumption structure.
Energy management capability has become an essential part of corporate competitiveness.
As the energy transition continues to advance, an increasing number of traditional infrastructure facilities are stepping into a new stage of green and low-carbon development. The transformation from high-energy-consumption operation modes to low-carbon operation systems has become a major industry trend. In the future, comprehensive energy solutions will be applied in more scenarios, continuously promoting the optimization of energy structures and the upgrading of energy utilization methods.
2026.04.17 
2026-05-09
