SCU provides Volvo with an electric engineering machinery equipment mobile charging system that can charge electric construction machinery, such as excavators and loaders, in areas without power grids, such as mining areas and construction sites.
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SCU provides photovoltaic- energy storage system– diesel generator solutions for remote areas in the Middle East, providing them with stable electricity, saving costs, reducing noise and achieving sustainable development.
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SCU provides a 2MWh 40ft energy storage container system and a 1500kvA UPS for a gemstone mine in Mozambique to ensure the stability of power supply, improve energy efficiency, reduce costs and carbon emissions, and achieve green development.
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SCU provides German customers with an integrated solar energy storage EV charging system, which can reduce the pressure on the power grid and help users save energy costs significantly. The intelligent management system can monitor and optimize energy use in real-time to ensure the efficient operation of the entire system.
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SCU provides a Hungarian stadium with an energy storage system (GRES), helping the stadium optimize the use of electricity for high-energy-consuming equipment such as lighting, improve energy efficiency, and promote local energy sustainable development.
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SCU energy storage container has been successfully applied to a pig farm in Belgium, helping to achieve solar consumption and peak-valley arbitrage, helping customers maximize energy utilization, reduce operating costs, and promote the farm’s sustainable development.
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SCU provides the Hungarian pencil factory with the GRES energy storage system, which uses peak-shaving arbitrage in electricity prices to help the company optimize and manage energy and reduce carbon emissions.
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SCU provides a PV-distributed energy storage solution for a chicken farm in Belgium, using a 20ft energy storage container to ensure the normal operation of the chicken farm’s mechanical equipment, reduce adverse effects, and achieve green agriculture.
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The mechanical equipment of a Czech metal processing plant consumes large amounts of electricity and has high electricity bills. Previously, PV was installed on the roof, but the excess electricity could not be stored. SCU provided it with a 20ft energy storage container, which was connected using an AC coupling solution. The excess electricity was stored in the battery, which reduced the use of the power grid by shaving peak loads and filling valleys. This saved the factory electricity bills and can also serve as a backup power source.
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