The total installed capacity of this user-side energy storage project is 4.6MW/9.89MWh, with 2 grid connection points established. It is equipped with a total of 46 sets of BRES 100kW/215kWh energy storage systems, enabling the full absorption of stored energy during peak periods and reducing enterprise electricity expenses through peak shaving.
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We designed a solar BESS charging station all-in-one solution for a Thai customer. SCU designed a 40ft energy storage container + 240KW EV charging stack solution for them. Half of the container space is an accessory storage area, and the other half is a customer rest area. This system forms a microgrid of PV, BESS and EV chargers, which can realize two operation modes of grid-connected and off-grid according to the demand. It uses peak shaving and valley filling to reduce costs and also makes up for the shortcomings of discontinuity in solar power generation.
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SCU provided a 40ft energy storage container to a village in the Niger desert in Africa to form a large scale off-grid solar battery storage solution to help the village solve its long-term electricity difficulties, provide the village with a reliable power supply, and bring benefits to the lives of residents.
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SCU cooperated with CHINA HUANENG to provide a 40ft automated centralized charging container system of 2MW for the supercharging station electric heavy-duty trucks battery swapping project it invested in, providing key support for the mine’s new energy heavy-duty trucks to achieve efficient and high-power charging and battery swap.
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SCU provides an energy storage system (GRES) and EV charger microgrid system for a factory in Ethiopia to help the factory’s trams charge. The energy storage system reduces the impact of EV chargers on the power grid and can also save costs and increase profits for the factory.
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In response to rising energy costs and environmental pressure, a supermarket in Europe chose to introduce SCU’s commercial and industrial energy storage system. The PV + ESS self-consumption model comprehensively improved energy utilization efficiency and significantly saved energy costs.
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SCU provided a 1MWh/200kW energy storage system off-grid solution for a hospital in Africa, which enabled the hospital to eliminate the high cost and noise problems of diesel generators, achieving dual benefits of environmental protection and economy.
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As a key player in the EV industry, EV testing companies have a huge demand for electric energy during their testing process. SCU provided a PV+ESS commercial and industrial energy storage solution to a European EV testing company using AC coupling, which successfully helped it achieve self-sufficiency.
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SCU provided an energy storage system as a UPS solution for a thermal power plant in Austria to solve the problem of power grid instability and power outages due to large power equipment and power demand. The solution improves the stability and reliability of thermal power plants and sets a new benchmark for a sustainable power industry in Austria.
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