BCP measures for wastewater treatment systems utilizing subsidies.

basic information

■Industrial Storage Battery System LUVIS This industrial storage battery system achieves a reduction in electricity costs through self-consumption and disaster preparedness against power outages, while keeping installation costs down with a reasonable system design in collaboration with solar power generation. It pursues the best balance of efficient output and storage capacity. With a storage capacity of 61.4 kWh and a rated output of 30 kW, it is equipped with a function that automatically switches between grid connection and autonomous operation, making it ideal for microgrids. It offers a DC link model that allows direct input from solar power generation to the storage system, as well as an AC link model that works in conjunction with other companies' solar power inverters. 【Applications】 ● Power outage measures and BCP (Business Continuity Plan) measures The combination of renewable energy facilities and industrial storage batteries is very effective as "disaster preparedness." Even if a power outage lasts for an extended period, it is possible to respond with self-generation and storage batteries until recovery. This provides "peace of mind and safety" in case of unexpected power outages, and also leads to external "credibility and trust." *For more details, please refer to the PDF materials or feel free to contact us.

Price range

Delivery Time

Applications/Examples of results

【Backup for Three-Phase Power Supply Equipment】 In the sewage treatment plant replacement work due to the aging of the facility's sewage treatment tank, we utilized the "Subsidy for Carbon Dioxide Emission Reduction Measures (Decarbonization Promotion Project for Sewage Treatment Systems)." This enables BCP measures for the sewage treatment system. For BCP-purpose storage batteries, please consult Conex Systems. *For more details, please refer to the PDF document 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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  ●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 self-consumption.

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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, 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 decarbonization policy has clearly indicated a stance to support the utilization of combinations of renewable energy and storage batteries, and as the movement towards achieving carbon neutrality by 2050 accelerates, the introduction of storage batteries contributes to decarbonization efforts.

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  ● Measures against rising electricity costs with renewable energy equipment and industrial storage batteries We will introduce a case where the industrial storage system LUVIS was implemented to achieve BCP measures, reduce electricity costs, and lower environmental impact. ● Backup load - Complete purification tank system (pumps, blowers, etc.) By choosing the industrial storage system LUVIS, we were able to meet the client's requests for reducing electricity costs and CO2 emissions, as well as implementing backup measures for the purification tank at a low cost.

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  ● Collaboration between industrial storage batteries and self-consumption solar power generation Self-consumption solar power generation refers to a system that uses electricity generated by solar power for in-house use without selling it to the power company. By combining self-consumption solar power generation with industrial storage systems, companies can effectively utilize renewable energy for their decarbonization efforts, reduce CO2 emissions and electricity costs, and lessen environmental impact. This brings benefits such as corporate social responsibility (CSR) and adds value to energy-saving and business continuity planning (BCP) measures for securing power in emergencies. As a cost-effective solution, interest is currently growing among companies.

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  ●Impact of Electricity Price Increase on Corporate Management Since 2021, electricity prices have remained high. The annual electricity costs are substantial, and they represent a significant portion of total costs in industries such as manufacturing and retail. Large enterprises, in particular, are greatly affected, leading to an increase in companies considering further energy-saving efforts and the introduction of energy-efficient facilities and equipment. Due to various factors such as rising fuel prices driven by global conditions and the continuously increasing renewable energy surcharge, electricity prices are expected to rise in the future. It is important to take early action to mitigate risks and implement measures against the soaring electricity costs.

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  ●Backup Power Measures During Power Outages (BCP Measures) One of the major issues during disasters is the interruption of power supply. When formulating a BCP, it is necessary to consider securing power during emergencies. Recovery from damage caused by disasters takes a certain amount of time. By securing emergency power with batteries, businesses can continue their operations. Ensuring power supply is the first step in BCP measures.

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  ●Efforts to Improve Renewable Energy Self-Sufficiency Rate Renewable energy not only helps improve energy self-sufficiency rates but also contributes to the reduction of greenhouse gas emissions. Japan has set a goal to achieve "carbon neutrality" by 2050, and as global warming accelerates, efforts to reduce CO2 emissions and enhance energy conservation in facilities are becoming increasingly common. The trend in the business scene, driven by the acceleration of ESG investments, promotes environmental initiatives and leads to energy-saving and SDGs management.

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  ● Backup for three-phase power supply equipment is possible Power outages can occur due to disasters. In some facilities, there is also a possibility of simultaneous water outages. This is because electric pumps are used to supply water. It can be said that this is one of the essential devices that would cause problems if it stops during a disaster, as it is used in a wide range of facilities from buildings and hotels to food factories. The industrial storage battery system LUVIS can be used for power equipment such as purification tank systems with a three-phase three-wire output of 30kW.

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