Peak cutting with industrial storage batteries / Measures for power outages, energy conservation, and energy saving in factories and warehouses.

basic information

【Features】 ■ Highly effective as an energy-saving measure for companies, contributing to reduced electricity costs ■ Reliable power outage countermeasures with a high-output, large-capacity storage system/battery ■ Achieves a high-spec system with a rated output of 30kW and a storage capacity of 73.7kWh at a reasonable price ■ Suitable for backup in commercial facilities and various industrial equipment ■ For environmental measures and energy-saving applications in factories, warehouses, and large commercial facilities, it can support multiple information communication devices and critical equipment ■ Controls "maximum demand" by forced discharge during peak usage times ■ By scheduling, it can achieve peak shift effects by charging and discharging generated power according to time zones ○ Power outage, environmental measures, and energy-saving applications for factories, warehouses, and large commercial facilities By cutting the maximum usage power with the storage system, the maximum demand decreases, allowing for a reduction in high-voltage contract fees. Discharge from the battery occurs during peak internal power demand times, and charging to the battery takes place during times of lower internal power demand. This reduces the peak value of received power, enabling a smaller contracted power supply and allowing for a more reasonable electricity plan. *For more details, please refer to the PDF document or feel free to contact us.

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Applications/Examples of results

【Purpose】 ■ For environmental measures and energy-saving applications in factories, warehouses, and large commercial facilities This industrial storage battery is useful for securing emergency power and maintaining functionality. Cost reduction and reduced environmental impact! By controlling the "maximum demand," it contributes to reducing electricity costs. By reducing peak power loads and cutting maximum usage power with the storage system, the maximum demand decreases, allowing for a reduction in high-voltage contract fees. ■ As part of BCP measures - Emergency power supply for office buildings - Backup for emergency lighting in warehouses during power outages - Pumps for septic tanks to use restrooms 【As an initiative for business continuity during disasters】 To promptly implement business continuity plans during disasters, it is essential to secure a minimum level of infrastructure. Among these, securing emergency power that can handle long-term power outages is of utmost importance. The combination of renewable energy facilities and industrial storage batteries serves as a "key" in formulating business continuity plans and is highly effective as "disaster measures." Even if a power outage lasts for an extended period, it is possible to respond with self-generated power and storage batteries until recovery. *For more details, please refer to the PDF materials or feel free to contact us.

Detailed information

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  You can save on electricity costs. Industrial storage batteries, in conjunction with renewable energy devices such as solar power generation, significantly enhance energy-saving effects. Charge the storage battery during low-cost time periods (mainly at night). By using electricity from the charged storage battery during high-cost time periods, you can save on electricity bills.

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  ●Cost reduction through self-consumption The feed-in tariff has been declining year by year, and by prioritizing the generated electricity for "self-consumption" rather than selling it, we can reduce the amount of electricity purchased from the utility company. By reducing electricity costs and operating more cheaply, overall savings can be achieved.

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  ●Measures for Power Outages During Disasters Even if the power supply is interrupted due to a blackout, if there is electricity stored in a battery, it is possible to continue using electricity, allowing for preparedness as part of a BCP (Business Continuity Plan) strategy. By integrating battery storage with solar power generation, it is possible to respond to prolonged power outages.

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  ●Utilization of Clean Energy Reduction of CO2 emissions through integration with solar power generation. Enhancing corporate value while being environmentally conscious. The introduction of storage batteries is highly effective as an energy-saving measure for companies. By combining with solar power generation, it significantly reduces energy consumption through energy creation. It enables "self-consumption" of the "generated electricity" from renewable energy within the company.

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  ● Backup for three-phase power supply equipment is possible In corporate offices, factories, condominiums, hospitals, and other places, many large electrical devices for business use are employed. These electrical products operate using power supply, which is delivered in three phases. The industrial storage system 'BLP' can supply electricity to three-phase power with an output of 30kW, making it possible to operate large air conditioners, commercial refrigerators, elevators, machine tools, large motors, pumps, and more.

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  ●Energy-saving measures In factories and warehouses, it is possible to back up manufacturing lines, refrigeration and freezing equipment, wastewater pumps, commercial refrigerators, and industrial pumps. This is very effective as an energy-saving measure for companies. Since peak-cut power settings are possible, it contributes to reducing electricity costs. By scheduling, the generated power can be charged and discharged by time zone, achieving peak shift effects as well.

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  The introduction of storage batteries enables the optimal operation of renewable energy facilities, making it possible to pursue decarbonization efforts during normal times. Achieving a decarbonized society requires renewable energy. However, since power generation output is influenced by weather conditions, it is necessary to store renewable electricity for stable supply from unstable power sources. In this context, large-capacity storage batteries are indispensable. The government's stance on supporting the utilization of renewable energy combined with storage batteries has become clear, and as efforts to achieve carbon neutrality by 2050 accelerate, the introduction of storage batteries contributes to decarbonization initiatives.

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  The electricity generated is shifting from "selling" to "using." There is a growing demand for environmentally conscious initiatives, such as the promotion of renewable energy adoption. Additionally, the selling price of solar power has been declining, and there are increasing cases where it is more advantageous to use the generated electricity to reduce electricity costs (self-consumption) rather than selling it. By introducing storage batteries, self-consumption of generated electricity becomes possible. During normal times, it is possible to flatten the load of electricity consumption through peak cutting and peak shifting, allowing for reductions in electricity costs and measures to lower environmental impact.

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  As a measure for the District Continuity Plan (DCP) Since the Great East Japan Earthquake, there has been an increase in companies, organizations, and facilities introducing industrial storage batteries as a preparation for large-scale natural disasters. Alongside their own BCP (Business Continuity Plan) initiatives, more companies are considering contributions to the entire region by implementing measures for the DCP (District Continuity Plan). The DCP involves establishing a system that can provide infrastructure, such as electricity, prepared in advance by the company, to collaborate and support each other during disasters. For companies with strong ties to the community, this leads to active engagement in CSR (Corporate Social Responsibility) activities, such as "contributing to the local community," and contributes to enhancing the "strengths and value of the company." Participation in and response to the District Continuity Plan is considered part of the company's BCP measures.

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