Achieving both CO2 emission reduction and electricity cost reduction: Industrial storage battery <BLP>

basic information

Solutions centered around storage batteries achieve both reduced electricity costs and secure power supply during emergencies. Industrial storage system <BLP> 【Benefits】 (1) Savings on electricity bills (2) Cost reduction through self-consumption (3) Measures against power outages during disasters ▼ For environmental measures and energy-saving applications in factories, warehouses, and large commercial facilities, peak-cut power settings are possible. By forcing discharge during maximum usage peak times, we can control "maximum demand" and contribute to reducing electricity costs. Additionally, with scheduled settings, peak shift effects can be achieved by charging and discharging generated power based on time slots. ▼ Securing power supply is the first step in BCP measures. One of the major issues during disasters is the cessation of power supply. To promptly implement business continuity plans during emergencies, it is essential to secure at least the minimum infrastructure. Among these, ensuring a power supply that can handle long outages is of utmost importance. *For more details, please refer to the materials. Feel free to contact us with any inquiries.

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Applications/Examples of results

▼ The introduction of storage batteries enables decarbonization efforts during normal times. To achieve a decarbonized society, renewable energy is essential. However, the unstable supply of electricity from renewable sources, which is affected by weather conditions, necessitates the storage of renewable energy. In this context, large-capacity storage batteries are indispensable. The government's decarbonization policy has clearly indicated a commitment to support the utilization of renewable energy combined with storage batteries, and as efforts to achieve carbon neutrality by 2050 accelerate, the introduction of storage batteries can contribute to decarbonization initiatives. ▼ From "selling" the electricity generated to "using" it. There is a growing demand for environmentally conscious initiatives, such as promoting the adoption of renewable energy. Additionally, the selling price of solar power has been declining, and increasingly, it is becoming more advantageous to use the generated electricity efficiently to reduce electricity costs (self-consumption) rather than selling it. By introducing storage batteries, it becomes possible to consume the generated electricity for one's own use. During normal times, it is possible to flatten the load of electricity consumption through peak cutting and peak shifting, leading to reductions in electricity costs and measures to lower environmental impact.

Detailed information

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  ●Utilization of Clean Energy Reduction of CO2 emissions through integration with solar power generation. Enhancing corporate value while considering the environment. 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 becomes possible to consume the "generated electricity" from renewable energy for in-house use, enabling "self-consumption."

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  ●Promotion of SDGs Contributing to the achievement of the SDGs (Sustainable Development Goals) and enhancing corporate value. As companies are strongly urged to reduce CO2 emissions, the introduction of storage batteries contributes to efforts to improve environmental issues and support local communities. Active engagement in CSR (Corporate Social Responsibility) activities and environmentally conscious corporate practices lead to the enhancement of "corporate strengths and values."

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  ●Energy saving through peak cut By cutting the maximum power usage with a storage system, you can reduce high-voltage contract fees. The industrial storage system 'BLP', which allows for peak cut power settings for environmental measures and energy-saving purposes in factories, warehouses, and large commercial facilities, controls the "maximum demand" by forcibly discharging during peak usage times, contributing to a reduction in electricity costs.

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  ●Peak Shift Effect Industrial storage batteries significantly enhance energy-saving effects when linked with renewable energy devices such as solar power generation. 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. By setting a schedule for charging and discharging based on time periods, you can also achieve peak shift effects.

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  ●BCP (Business Continuity Plan) Measures In order to promptly implement the BCP during a disaster, it is necessary to secure a minimum level of infrastructure. The industrial storage system 'BLP' has a three-phase, three-wire output of 30kW, which can be used for power equipment such as water supply pumps. Additionally, by including a transformer (*), it is also possible to utilize single-phase devices such as lighting, televisions, and air conditioning. Furthermore, with a large capacity of 73.7kWh, it can reliably supply power even during prolonged outages. (*Limited to customers with high-voltage receiving contracts.)

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  ●Ensuring power supply is the first step in BCP measures In emergencies, companies are required to prepare to continue essential operations. To swiftly implement a business continuity plan (BCP) during a disaster, it is necessary to secure at least the minimum infrastructure. Among these, ensuring emergency power supply that can handle prolonged power outages is emphasized. As a key element in formulating a business continuity plan, the combination of renewable energy systems and industrial batteries is highly effective as a "disaster response." Even if a power outage lasts for an extended period, it becomes possible to respond with self-generated power and batteries until recovery.

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

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  ● You can save on electricity costs. Industrial storage batteries significantly enhance energy-saving effects when linked with renewable energy devices such as solar power generation. 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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  One of the backup power supply systems that can be used safely is a storage battery. More companies are introducing storage batteries as emergency power supplies to protect data server information and secure communication means in case of a power outage. By storing electricity in a battery, you can ensure a power source during emergencies. As a BCP measure, why not consider introducing storage batteries for further cost reduction in your daily operations?

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