五部门印发《工业绿色微电网建设与应用指南（2026—2030年）》

Core Viewpoint - The article emphasizes the importance of developing industrial green microgrids as a key strategy for achieving low-carbon transformation in industrial energy use and meeting carbon peak targets in the industrial sector. It outlines guidelines for the construction and application of these microgrids from 2026 to 2030, integrating renewable energy sources and advanced technologies to enhance energy efficiency and sustainability [2][4]. Summary by Sections Construction Principles - Promote efficient multi-energy complementary utilization by integrating local solar, wind, hydrogen, and waste heat resources to create a clean energy supply system that meets diverse industrial energy needs [2]. - Encourage high local consumption of renewable energy by analyzing industrial load conditions and planning the scale and mix of renewable energy and new storage systems [2]. Main Construction Content - Industrial green microgrids should include renewable energy generation, industrial waste energy utilization, clean hydrogen production and use, new energy storage applications, energy conversion, and digital energy management systems [5]. - Renewable energy generation should aim for a self-consumption rate of at least 60% for new solar and wind projects, with distributed photovoltaic systems participating in the electricity market [5][6]. Construction Models - Two main construction models are proposed: self-built by industrial enterprises or parks, and third-party co-built with qualified service providers. Each model has specific operational and regulatory responsibilities [13][14]. Application Scenarios - High energy-consuming industries such as steel, petrochemicals, and non-ferrous metals should utilize waste heat and renewable energy to improve energy efficiency and reduce reliance on fossil fuels [17]. - Flexible application scenarios for industries like machinery and textiles should leverage clean energy output and load forecasting to optimize energy use and reduce costs [15]. - Scalable adjustable applications in sectors like electrolytic aluminum and polysilicon should utilize real-time load adjustment capabilities to participate in demand response and ancillary services [16]. Construction Requirements - Strict adherence to standards and regulations for microgrid construction and operation is essential to ensure safety and reliability [18]. - Accelerate the application of advanced technologies such as AI, big data, and IoT to enhance the intelligence of industrial green microgrids [19]. - Ensure economic feasibility by analyzing cost-effectiveness and encouraging social capital participation in project construction [20].