Group 1 - The He-Xiang Expressway project marks Anhui Province's first large-scale photovoltaic project on highways, providing a new model for the green transformation of transportation infrastructure [1] - The project is located on the G4222 highway segment from Huai'an to Xiangyang, with a planned total installed capacity of approximately 8.524 megawatts and an expected annual power generation of about 8.48 million kilowatt-hours, resulting in a reduction of carbon dioxide emissions by approximately 4,170 tons and saving about 2,586 tons of standard coal annually [1] - The project aims to achieve precise control and efficient distribution of energy, intelligently allocating power resources based on the electricity demand of different highway areas and time periods, ensuring reliability and stability of power supply [1] Group 2 - From its inception, the He-Xiang Expressway project has integrated the concept of energy fusion throughout the entire lifecycle of the highway, focusing on the collaborative development goal of "transportation + energy" from design and construction to future operation and maintenance [2]

Core Viewpoint - The project marks the launch of Anhui Province's first large-scale photovoltaic project along a highway, representing a significant step towards energy integration in transportation infrastructure [1] Project Overview - The project has a planned total installed capacity of approximately 8.524 megawatts and is expected to generate an average annual electricity output of about 8.48 million kilowatt-hours [1] - It is projected to reduce carbon dioxide emissions by approximately 4,170 tons annually and save about 2,586 tons of standard coal [1] Technological Innovations - The project will establish an intelligent microgrid system, creating a new efficient, stable, and green power supply and distribution system [1] - It aims to achieve precise energy regulation and efficient distribution based on the varying electricity demands of different highway areas and times [1] - The project includes an innovative "tunnel entrance photovoltaic corridor" that integrates photovoltaic components with the surrounding environment to optimize space utilization for solar power generation [1]