Industrial storage batteries that realize disaster prevention and mitigation preparations in the community, such as evacuation shelters and schools.
LB0700HN
Introducing industrial storage batteries to enhance local disaster prevention capabilities as evacuation sites and disaster prevention bases for residents during emergencies. 【Industrial Storage System〈BLP〉】
School facilities are progressing in the introduction of storage batteries, supported by the Ministry of Education, Culture, Sports, Science and Technology. Not only schools and community centers but also welfare facilities have a high potential to serve as evacuation shelters, and more facilities are considering the introduction of renewable energy equipment and storage batteries as measures for disaster response. There is an increasing number of facilities considering the introduction of solar power generation (renewable energy equipment) and industrial storage batteries for BCP (Business Continuity Planning) measures at locations that could serve as disaster prevention bases or evacuation shelters. Strengthening the evacuation functions of facilities is becoming essential, not only for environmental impact measures towards achieving carbon neutrality by 2050 but also as disaster prevention and mitigation measures against increasingly severe disasters. ▼ Benefits of introducing storage batteries in school facilities With about half of public elementary and junior high schools being over 40 years old, the aging of school facilities has reached its peak. The school buildings themselves are required to implement environmental impact measures towards achieving carbon neutrality by 2050 through "energy conservation" via high insulation and high-efficiency air conditioning, as well as "energy creation" using renewable energy. Furthermore, it is essential to enhance the evacuation functions of facilities, including indoor gymnasiums that serve as local evacuation shelters, as part of disaster prevention and mitigation measures against increasingly severe disasters.
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basic information
"Strengthening local disaster prevention capabilities as evacuation sites and disaster prevention bases for residents during emergencies" The industrial storage battery system <BLP> has a three-phase, three-wire output of 30kW, and can be used for essential lighting, air conditioning, mobile phone charging, and power equipment such as water supply pumps at evacuation centers. Many of these devices are critical equipment that require electricity even during disasters, making it important to secure backup power during outages. Additionally, with a large capacity of 73.7kWh, it is possible to supply power reliably even during prolonged outages. "Achieving disaster preparedness and energy conservation with industrial storage batteries" By combining solar power generation with storage batteries, natural energy sources can be effectively utilized. This contributes to reducing CO2 emissions and enhances corporate social responsibility (CSR), adding value to energy conservation and business continuity planning (BCP) measures. "Backup examples" Water supply pumps, air conditioning systems, office automation equipment, computers, mobile phones, smartphones, broadcasting speakers, and evacuation guidance lights within facilities.
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Applications/Examples of results
●Schools (Evacuation Centers) Strengthening local disaster prevention capabilities as evacuation sites and disaster prevention hubs for residents during disasters. With the promotion of the Ministry of Education, Culture, Sports, Science and Technology, the introduction of storage batteries in school facilities is also progressing. Not only schools and community centers but also welfare facilities have a high potential to serve as evacuation centers, and the number of facilities considering the introduction of renewable energy equipment and storage batteries as disaster measures is increasing. The industrial storage battery system 'BLP' has a three-phase three-wire output of 30kW, which can be used for necessary lighting, air conditioning, mobile phone charging, and power equipment such as water supply pumps at evacuation centers. Additionally, with a large capacity of 73.7kWh, it can reliably supply power even during prolonged power outages.
Detailed information
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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). The combination of battery storage and solar power generation enables a response 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 considering the environment. The introduction of storage batteries is very 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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By introducing storage batteries and optimally operating renewable energy facilities, it is possible to pursue decarbonization efforts during normal times. The realization of a decarbonized society requires renewable energy. However, due to the instability of power generation output influenced by weather conditions, it is necessary to store renewable electricity for stable supply. 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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As part of measures to strengthen local disaster resilience (National Resilience), schools (closed schools), community centers, and roadside stations are being highlighted as evacuation sites and disaster prevention hubs for residents during emergencies. By installing storage batteries at disaster prevention hubs, the local disaster resilience can be enhanced.
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The electricity generated is shifting from "selling" to "using." Efforts that consider the environment, such as promoting the introduction of renewable energy, are being demanded. 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 type) rather than selling it. By introducing storage batteries, it becomes possible to consume the generated electricity for one's own use, enabling "self-consumption." During normal times, it is possible to achieve load leveling of electricity consumption through peak cut/peak shift, 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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● Backup for three-phase power supply equipment is possible With a three-phase, three-wire output of 30kW, it can be used for necessary lighting, air conditioning, mobile phone charging, and power equipment such as water supply pumps at evacuation centers. Additionally, with a large capacity of 73.7kWh, it can reliably supply power during prolonged outages.
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Utilization as educational materials for environmental education The introduction of storage batteries and solar power generation in school facilities is expected to serve as educational materials for environmental education and to contribute to the reduction of environmental impact.
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●Batteries contribute to strengthening disaster preparedness In recent times, there is a growing demand for preparedness to continue essential operations even during emergencies such as natural disasters. Many companies are advancing their disaster response plans by combining batteries with solar power generation to reduce energy consumption through renewable energy. Furthermore, the increasing demand for battery and solar power systems from public facilities that serve as hubs during disasters indicates that this trend is expanding. Why not prepare for power outages caused by unpredictable natural disasters with batteries?
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| Model number | overview |
|---|---|
| LB0700HN | 【Features】 ■BCP measures at locations that can serve as disaster prevention bases or evacuation shelters ■Can respond to long-term power outages ■Compact outdoor installation type that does not require housing storage, allowing for space-saving installation. |
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Company information
"Transforming energy infrastructure with innovative energy storage technology" We aim to promote regional energy independence and contribute to the creation of a clean and resilient future energy infrastructure. CONNEXX SYSTEMS is a startup company that, with this vision in mind, challenges innovations in energy storage technology that far exceed conventional wisdom. Energy storage is the "bond" that connects today's energy to the energy of the future. CONNEXX SYSTEMS contributes to the creation of a safe and secure future society through innovative energy storage solutions. CONNEXX SYSTEMS primarily engages in the development, manufacturing, sales, and planning design of next-generation energy storage systems, among other business activities. We also provide system integration services. Through the accumulation of our unique technologies, we continue to evolve our energy storage systems to offer to our customers.