Disaster Prevention Solution for Industrial Storage Batteries × Solar Power Generation [Power Outage Measures]
Large-capacity, compact industrial storage system 'BLP' for disaster prevention and emergency power outages [Storage capacity 73.7kWh / Rated output 30kW].
By combining industrial storage batteries with self-consumption solar power generation, we can secure an independent power source during disasters and reduce CO2 emissions during normal times. 【Power outage and BCP measures】
**Solutions Centered on Energy Storage Batteries** By combining solar power generation with energy storage batteries, we can effectively utilize renewable energy sources. This ensures a self-sufficient power supply during disasters and contributes to CO2 reduction during normal times! During power outages, we can secure electricity by switching to solar power during the day and using energy storage batteries at night, enabling the use of information communication devices such as emergency radios, televisions, computers, and smartphones, as well as lighting. **Measures Against Power Outages During Disasters** Even if the power supply is cut off due to a blackout, if there is electricity stored in the energy storage batteries, we can continue to use electricity. This allows for preparedness as part of BCP (Business Continuity Planning) measures. The collaboration between energy storage batteries and solar power generation enables us to respond to prolonged power outages. **Cost Reduction Through Self-Consumption** The selling price of electricity is decreasing year by year. By prioritizing the use of generated electricity for "self-consumption" rather than selling it, we can reduce the amount of electricity purchased from power companies. By reducing electricity costs and operating at a lower expense, we can achieve overall savings. ● Support for Developing Power Outage Measures Through our partnership with NEC Networks & System Integration, we can provide comprehensive design proposals for energy storage batteries and renewable energy facilities.
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Collaboration between industrial storage batteries and self-consumption solar power generation for CO2 reduction Contributing to decarbonization efforts The industrial storage system <BLP> is optimal as a combination with self-consumption solar power generation for companies' decarbonization efforts. By effectively utilizing renewable energy, it leads to CO2 emission reduction, lower electricity costs, reduced environmental impact, and benefits such as CSR (Corporate Social Responsibility), adding value to energy conservation and BCP measures (ensuring power supply during emergencies). 【Features】 ■ Rated output: 30kW / Storage capacity: approximately 73.7kWh ■ Contributes to BCP measures for facilities and companies, as well as reducing environmental impact through self-consumption ■ Compact outdoor installation type that does not require housing 【Benefits】 (1) Saves on electricity costs (2) Cost reduction through self-consumption (3) Measures against power outages during disasters ● Currently usable "Renewable Energy + Storage Battery" By introducing storage batteries and optimally operating renewable energy facilities, it becomes possible to engage in decarbonization efforts during normal times. ◆ Partnership with NEC Networks & System Integration Comprehensive design proposals for storage batteries + renewable energy facilities are possible. Leveraging extensive implementation experience, we provide consistent support from introduction to maintenance and operation.
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Applications/Examples of results
● Realizing disaster preparedness with storage batteries By integrating industrial storage batteries with solar power generation, it becomes possible to respond with self-generated power and storage batteries until recovery, even in the event of prolonged power outages. This ensures "safety and security" in case of unexpected power outages and contributes to external "credibility and trust." ● Simultaneously enhancing the main power source of renewable energy and resilience As global warming accelerates, there is a growing demand for energy conservation in offices and facilities. By combining solar power generation with storage batteries, we can effectively utilize renewable energy sources. This contributes to CO2 reduction and significantly decreases energy consumption through energy creation. ● Transitioning from "selling" electricity to "using" it The selling price of solar power has been declining, and increasingly, it is more advantageous 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 in-house, enabling "self-consumption." During normal times, we can achieve load leveling of power consumption through peak cutting and peak shifting, leading to reductions in electricity costs and environmental impact.
Detailed information
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● Important BCP Measures for Companies BCP (Business Continuity Plan) is required to prevent activities from coming to a standstill during a disaster. Securing power supply during emergencies is extremely important. It leads to "peace of mind and safety" in case of unexpected power outages, as well as external "credibility and trust." In recent years, there have been instances where basic functions could not be maintained due to the increase in natural disasters. This not only results in economic losses but also negatively impacts the brand image of companies. The introduction of energy storage systems can ensure power supply during outages and facilitate the quick recovery of business operations.
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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 wisely to reduce electricity costs (self-consumption type) rather than selling it. By introducing storage batteries, it becomes possible to consume the generated electricity in-house, enabling "self-consumption." During normal times, it is possible to achieve load leveling of power consumption through peak cut/peak shift, allowing for reductions in electricity costs and measures to lower environmental impact.
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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 leads to active engagement in CSR (Corporate Social Responsibility) activities such as "efforts to improve environmental issues" and "contributions to local communities." Corporate activities that consider the environment will enhance "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. Charging the storage battery during low-rate time periods (mainly at night) allows for savings. By using electricity from the charged storage battery during high-rate time periods, you can save on electricity costs. By setting a schedule for charging and discharging according to time periods, you can also achieve the peak shift effect.
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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-rate hours (mainly at night). By using electricity from the charged storage battery during high-rate hours, you can save on electricity costs.
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●Ensuring Power Supply is the First Step in BCP Measures In times of emergency, 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 a power supply that can handle prolonged outages is emphasized. In the case of large-scale disasters like the Great East Japan Earthquake, it is anticipated that power outages could last more than a week, and immediately after a disaster, there is a possibility of isolation due to road disruptions and shortages of supplies caused by distribution issues. Using small batteries or gasoline-powered generators as emergency power sources would require storing a large quantity of batteries and fuel, which can be difficult if procuring fuel becomes challenging. However, if self-consumption solar power generation and industrial storage batteries can be implemented, it becomes possible to use the generated electricity and batteries together to prepare for long-term power outages, even during large-scale blackouts.
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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. 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 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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| Model number | overview |
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| LB0700HN | ●Industrial Energy Storage System〈BLP〉 With a rated output of 30kW and a storage capacity of 73.7kWh, it provides peace of mind during prolonged power outages in emergencies. Compact size with an integrated battery enclosure and power conditioner. Achieves both power supply during emergencies and daily self-consumption. Contributes to BCP measures for public facilities and businesses, reduces environmental impact, and strengthens regional disaster prevention capabilities with this industrial/commercial energy storage system. |
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"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 the innovation of energy storage technology that far exceeds 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 of next-generation energy storage systems. Additionally, we provide system integration services. Through the accumulation of our unique technologies, we continue to evolve our energy storage systems to offer to our customers.