Construction
The mobile container design perfectly suits the mobility of construction sites; it significantly reduces the capacity of diesel engines, saving fuel and money; it eliminates nighttime noise, creating a zero-noise work area; and it helps companies establish themselves as green and civilized construction sites.
mining area
Mines are typically located in remote deserts, high-altitude areas, or deep mountains, representing typical high-energy-consuming, high-polluting scenarios far from stable power grids. The photovoltaic-storage-diesel microgrid system can ensure grid stability, significantly reduce the cost of mining per ton of ore, perfectly adapt to 24-hour continuous operation, extend the life of diesel engines several times, and support the expansion of the mining area at any time.
farm
Modern farms are highly mechanized and automated, but they typically occupy vast areas and are often located at the end of the power grid or have no grid coverage at all. A photovoltaic-storage-diesel microgrid system addresses this by providing 24-hour power, perfectly complementing agricultural and pastoral power needs, eliminating fuel pollution, and meeting the seasonal electricity fluctuations of farms.
Oil and gas
Oil and gas extraction is typically located in uninhabited areas, deserts, or high-altitude frigid zones, where the natural environment is harsh. Microgrids can significantly improve the electrical stability of the system, flexibly respond to changes in the life cycle of oil and gas wells, and support the easy relocation of equipment.
Resort
The integration of photovoltaic, energy storage, and diesel microgrids into resort settings can perfectly resolve the conflict between ecological protection, customer experience, and high operating costs, creating a quiet and pristine top-tier luxury wilderness experience and addressing the pain points of green environmental certification and carbon emissions.
factory
Photovoltaic-storage-diesel microgrids can be integrated into factory settings, cutting off high electricity costs, providing millisecond-level power outage protection, safeguarding high-value production lines and precision equipment, eliminating expensive transformer expansion costs, and making it easier for factories with green power microgrids to pass the green supply chain audits of major international manufacturers.