Introduction of industrial storage batteries to school facilities in decarbonization leading regions.

basic information

Utilization of Industrial Storage Batteries in Decarbonization-Advanced Regions The use of industrial storage batteries in decarbonization-advanced regions significantly contributes to the expansion of renewable energy adoption, energy independence during disasters, and the overall reduction of CO2 emissions in the region. It is expected that the acceleration of decarbonization across Japan will be facilitated by the further introduction of industrial storage batteries in more regions and industries. The characteristic of decarbonization-advanced regions is the adoption of customized decarbonization strategies that leverage the unique challenges and strengths of each area. For example, regions with strong winds focus on wind power generation, while areas with long sunlight hours prioritize solar power generation, implementing optimal renewable energy solutions tailored to regional characteristics. ● Promotion of Decarbonization Tailored to Regional Characteristics: Accelerating the introduction of renewable energy by utilizing local natural resources (wind, solar, geothermal, etc.). ● Improvement of Energy Efficiency: Enhancing energy consumption efficiency through the use of storage batteries and smart grids. ● Revitalization of the Local Economy: Promoting local economic development through the cultivation of new industries and job creation associated with decarbonization. It is anticipated that the insights and technologies gained from decarbonization-advanced regions will spread to initiatives in other regions across the country.

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◯ What is a Decarbonization Leading Region? A decarbonization leading region is a locality that aims to reduce greenhouse gas emissions in line with its regional characteristics towards achieving carbon neutrality by 2050. Efforts will be made in at least 100 regions by the fiscal year 2025. Based on the "Regional Decarbonization Roadmap," the Ministry of the Environment is recruiting regions that will achieve requirements such as "net zero CO2 emissions associated with electricity consumption in the residential (household) and commercial sectors" by the fiscal year 2030, tailored to regional characteristics. Source: Ministry of the Environment "Decarbonization Regional Development Support Site" https://policies.env.go.jp/policy/roadmap/preceding-region/ ◯ Disaster Prevention Measures with Industrial Storage Batteries It is anticipated that a major earthquake with a seismic intensity of 6 or higher will occur with high probability within the next 30 years. If electricity is stored in batteries, it can be used continuously, allowing for preparedness in emergencies as part of business continuity planning (BCP) measures. Source: Cabinet Office Homepage "Disaster Prevention Information Page" https://www.bousai.go.jp/kyoiku/hokenkyousai/jishin.html

Detailed information

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  ● Introduction of industrial storage batteries to school facilities in decarbonization leading regions School facilities are important public assets in the community and serve various roles. In decarbonization leading regions, the utilization of industrial storage batteries in school facilities becomes one of the important initiatives that contribute to energy efficiency, securing power during disasters, and furthering environmental education. The use of storage batteries in decarbonization leading regions significantly contributes to the expansion of renewable energy adoption, energy independence during disasters, and the overall reduction of CO2 emissions in the community. ▼ Benefits of introducing industrial storage batteries to school facilities - Strengthening disaster prevention functions as evacuation centers in collaboration with the community (BCP measures / securing power during emergencies) - Effects of reducing environmental impact - Educational materials for environmental education - Reduction in electricity costs after installation

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  ● Intensification and Frequency of Natural Disasters Localized heavy rains, typhoons, and accompanying strong winds and river floods are occurring with unprecedented scale, leading to frequent disasters. One of the consequences that is likely to arise from these events is power outage damage. Furthermore, the frequency of large-scale power outages is increasing year by year. ◯ Disaster Prevention Measures with Industrial Storage Batteries It is anticipated that a major earthquake with a seismic intensity of 6 or higher will occur with high probability within the next 30 years. If electricity is stored in batteries, it allows for continued use of power, enabling preparedness for emergencies as part of business continuity planning (BCP). Source: Cabinet Office Homepage "Disaster Prevention Information Page" https://www.bousai.go.jp/kyoiku/hokenkyousai/jishin.html

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  ●Utilization of Renewable Energy Efforts that consider the environment, such as promoting the introduction of renewable energy, are being demanded. Renewable energy is necessary for the realization of a decarbonized society. Environmental impact measures for school facilities aimed at achieving carbon neutrality by 2050 are being sought. It is essential to engage in mitigation measures through the reduction of greenhouse gas emissions, improvement of energy efficiency, and the introduction of renewable energy. In regions leading the way in decarbonization, initiatives for decarbonization through the installation of renewable energy facilities, including storage batteries, in school facilities have already begun.

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  ●Benefits of Introducing Solar Power Generation and Industrial Storage Batteries in Schools - Can be used for environmental education - Can reduce electricity costs - Can be utilized as a power source during disasters - Contributes to climate change mitigation - Can take advantage of subsidies The use of storage batteries in school facilities in decarbonization-leading regions brings multifaceted effects such as improved energy efficiency, enhanced safety during disasters, and promotion of environmental education. In particular, securing power during disasters and strengthening collaboration with the community indicate that schools can become important hubs supporting the sustainability of local communities. In the future, as these initiatives spread nationwide, greater acceleration of decarbonization is expected in more regions.

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  ●Energy-saving effects through peak shifting In schools, electricity usage increases during the daytime when classes are held. To manage energy efficiently during this time, it is possible to store low-cost electricity from nighttime or school holidays in batteries and supply it during the peak usage hours of the day, a process known as "peak shifting." This helps reduce the overall energy consumption of the school and contributes to lowering electricity costs.

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  ● Backup for three-phase power supply equipment is possible. CONNEXX SYSTEMS' industrial storage batteries can output 30kW in a three-phase three-wire configuration, and can be used for necessary lighting, air conditioning, mobile phone charging, and power equipment such as water supply pumps in evacuation shelters. In decarbonization-leading regions, the adoption of renewable energy sources such as solar and wind power is progressing, but the power generation from these sources fluctuates due to weather and time of day. Storage batteries temporarily store the generated energy and discharge it when power is needed, thereby enhancing the stability of energy supply.

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  Utilization as Educational Materials for Environmental Education In decarbonization-leading regions, the use of storage batteries in school facilities is becoming an important initiative that contributes to energy efficiency, securing power during disasters, and furthering environmental education. Schools are vital public facilities in the community and play diverse roles. The introduction of storage batteries and solar power generation in school facilities is expected to have effects on reducing environmental impact and can be utilized as educational materials for environmental education. Storage batteries and renewable energy systems installed in schools are also used as educational materials for environmental education. By monitoring actual energy usage and learning about the role of storage batteries, students can understand the importance of sustainable energy and enhance their environmental awareness.

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  ●Batteries contribute to strengthening disaster preparedness Schools often function as evacuation centers during disasters, making energy security essential. By installing batteries, they can be utilized as emergency power sources even during power outages, ensuring power for lighting, communication devices, and medical equipment. This enhances the safety and comfort of evacuees during disasters. The movement to install batteries in schools that serve as evacuation centers is accelerating, and by combining them with solar power generation, a system capable of providing sustainable electricity even during disasters is being established.

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