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Industrial storage batteries Product List and Ranking from 7 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Oct 01, 2025~Oct 28, 2025
This ranking is based on the number of page views on our site.

Industrial storage batteries Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Oct 01, 2025~Oct 28, 2025
This ranking is based on the number of page views on our site.

  1. CONNEXX SYSTEMS Kyoto//Energy
  2. 丸紅エネブル Tokyo//Trading company/Wholesale
  3. A-スタイル 東京支社 Tokyo//Energy
  4. 4 三社ソリューションサービス Osaka//Industrial Electrical Equipment
  5. 5 リョーサン ソリューション事業本部/システムソリューション部 Tokyo//Electronic Components and Semiconductors
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Industrial storage batteries Product ranking

Last Updated: Aggregation Period:Oct 01, 2025~Oct 28, 2025
This ranking is based on the number of page views on our site.

  1. System for Energy Storage Facilities and Industrial Storage Batteries Comprehensive Catalog 丸紅エネブル
  2. Industrial storage battery compatible with DC link that can directly input solar power generation into the storage battery. CONNEXX SYSTEMS
  3. Industrial storage batteries that realize disaster prevention and reduction preparedness in the community, such as evacuation shelters and schools. CONNEXX SYSTEMS
  4. 4 Industrial storage batteries for power outage measures and BCP measures in nursing homes and elderly care facilities. CONNEXX SYSTEMS
  5. 5 Industrial storage battery <BLP> that balances self-consumption and BCP measures. CONNEXX SYSTEMS

Industrial storage batteries Product List

31~36 item / All 36 items

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

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

The introduction of storage batteries in schools in decarbonization-leading regions brings multifaceted benefits such as improved energy efficiency, enhanced safety during disasters, and promotion of environmental education.

"Decarbonization Leading Regions" refers to areas designated by the Japanese government as regions that are particularly engaged in advanced efforts to reduce greenhouse gas emissions. In these regions, initiatives such as the introduction of renewable energy tailored to local characteristics, efficient energy utilization, and the adoption of advanced technologies for decarbonization are being implemented, serving as model cases aimed at nationwide deployment in the future. Additionally, these efforts contribute to the economic growth of the region and the establishment of a sustainable society. ▼ Effects of Introducing Industrial Storage Batteries in Schools School facilities are important public facilities in the community and serve various roles. In decarbonization leading regions, the use of industrial storage batteries in school facilities becomes one of the important initiatives that lead to energy efficiency, securing power during disasters, and further contributes to environmental education. ▼ Benefits of Introducing Industrial Storage Batteries in School Facilities - Collaboration with the community + strengthening disaster prevention functions as evacuation centers (BCP measures / securing power during emergencies) - Reduction of environmental impact - Educational materials for environmental education - Reduction of electricity costs after installation - Effective use of space

  • Lithium-ion battery

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Industrial storage batteries contributing to the promotion of sustainable logistics [Environmental consideration and cost reduction]

Industrial storage batteries contributing to the promotion of sustainable logistics [Environmental consideration and cost reduction]

Benefits of introducing storage batteries that contribute to promoting sustainable logistics / Industrial storage batteries contribute to environmental considerations and cost reduction in the transportation and warehousing industries, as well as strengthening disaster response capabilities.

●Reduction of Electricity Costs By utilizing industrial storage batteries, it is possible to supply electricity from the batteries during peak times when electricity rates are high and store electricity during low-cost periods, enabling "peak shifting." Additionally, by reducing contracted power, "peak cutting" can also lead to a reduction in basic fees. ●Efficient Use of Renewable Energy By combining with renewable energy sources such as solar power, the generated electricity can be stored in industrial storage batteries, allowing for stable use regardless of weather conditions or time of day. This reduces the need for purchasing electricity from external sources and achieves sustainable energy management. ●Reduction of CO2 Emissions By decreasing dependence on external power and utilizing renewable energy, CO2 emissions can be reduced. This contributes to achieving corporate environmental goals and decarbonization efforts. ●Strengthening BCP (Business Continuity Planning) By using the power stored in industrial storage batteries during disasters or power outages, the operation of logistics facilities can be maintained. ●Stable Supply and Efficiency of Electricity Utilizing industrial storage batteries allows for demand-supply adjustments in electricity supply, enabling efficient energy management. By reducing energy waste and enhancing the stability of electricity supply, it supports efficient logistics operations.

  • Power storage device

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Industrial storage batteries promoting carbon neutrality in the logistics industry.

Industrial storage batteries promoting carbon neutrality in the logistics industry.

Promoting carbon neutrality in the transportation and warehousing industries, optimizing energy consumption through the use of industrial storage batteries, and reducing CO2 emissions.

■Current Status of CO2 Emissions in the Logistics Industry The current status of CO2 emissions in the logistics industry is attracting attention as part of global climate change measures, and there is a demand for emission reductions across the entire industry. ■Promotion of Carbon Neutrality in Transportation and Warehousing The logistics industry is at the center of global economic activities, and due to high energy consumption and CO2 emissions, the transition to decarbonization is inevitable. Transportation activities, as well as warehouses and distribution centers, consume a significant amount of energy for heating, cooling, lighting, and machinery operation. Particularly in large-scale logistics facilities, energy consumption for refrigeration and cooling is increasing, contributing to CO2 emissions. ■Utilization of Renewable Energy and Industrial Storage Batteries in Transportation and Warehousing In this context, the introduction of industrial storage batteries, in combination with renewable energy, contributes to the efficient use of renewable energy and optimization of operational costs. This not only enables the reduction of electricity costs in the logistics industry, stabilizes energy supply, and promotes carbon neutrality, but also serves as a means to strengthen corporate competitiveness while achieving long-term cost reductions.

  • Power storage device

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Case study of the industrial storage battery "eCHARGE" introduced in a seafood processing factory.

Case study of the industrial storage battery "eCHARGE" introduced in a seafood processing factory.

Rising electricity costs and energy-saving measures! We will introduce case studies of our storage batteries! Simulation results show that annual electricity costs can be reduced by approximately 2.75 million yen!

We would like to introduce a case where the industrial storage battery "eCHARGE" was implemented at a seafood processing factory. The customer had a refrigeration and freezing facility with high power consumption of 24 hours, and the recent surge in electricity prices was a challenge. Therefore, they requested the installation of a storage battery to reduce electricity costs during the night. After the installation, it is expected that the annual electricity costs will be reduced by approximately 2.75 million yen. 【Installed Equipment】 ■ Panel Capacity: 84.48kW ■ PCS: Yaskawa Electric three-phase 9.9kW × 4 units = 39.6kW ■ Storage Battery Capacity: eCHARGE 38.4kWh × 4 units = 153.6kWh *For more details, please download the PDF or feel free to contact us.

  • Cells and batteries

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Industrial storage batteries for areas affected by heavy salt damage | Connex Systems

Industrial storage batteries for areas affected by heavy salt damage | Connex Systems

【Reliable salt damage resistance】 Industrial storage batteries with salt damage countermeasures | The design excels in maintainability, significantly expanding the installation scenarios for industrial storage batteries.

▼Industrial Storage Battery System <BLP> Salt Damage Countermeasure Model 【Salt Damage Resistant Battery】 Until now, our industrial storage battery systems could not be installed in areas affected by seawater or sea breezes. However, in response to numerous requests, we are now starting to accept orders for the industrial storage battery system <BLP> salt damage countermeasure model, which can be safely installed in coastal areas and salt-affected regions. 【Salt Damage Resistant Industrial Storage Battery】 Orders are now being accepted for the salt damage countermeasure model industrial storage battery system <BLP> (LB0700HN-S). There is no need to store it in a dedicated enclosure like a container, allowing installation in heavily salt-affected areas and regions previously deemed unsuitable, significantly expanding the installation possibilities for industrial storage batteries. ▼Excellent Maintenance Design - Rust-resistant stainless steel enclosure - Reliable dust and waterproof performance (Protection class IP66 / Salt damage protection C5-M) - Adopts a sealed structure using a panel cooler, eliminating the need for filter replacements and other maintenance.

  • Power storage device
  • Lithium-ion battery
  • Secondary Cells/Batteries

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Industrial storage battery compatible with DC link that can directly input solar power generation into the storage battery.

Industrial storage battery compatible with DC link that can directly input solar power generation into the storage battery.

The industrial storage system LUVIS offers a model compatible with DC links. It enables direct current power supply with minimal energy loss.

【DC Link Compatible Industrial Energy Storage System】 ● A lineup of models compatible with the "DC Link System" that stores solar power in its direct current form. ● Reduced power loss due to fewer power conversion cycles, improving the utilization efficiency of the storage battery. Features of DC Link Compatible Models ▷ DC Link has a higher charging efficiency from solar power to the storage battery compared to AC Link. ▷ DC Link can overcharge excess power from solar energy. ▷ During long power outages, DC Link can directly charge from solar power without the need for an accompanying PV power conditioner. This industrial energy storage system is designed to keep installation costs low with a reasonable system design, achieving reductions in electricity costs through self-consumption in conjunction with solar power, and providing measures against power outages during disasters. It seeks the best balance between efficient output and storage capacity. It contributes to the effective use of renewable energy and CO2 reduction, supporting decarbonization efforts by reducing energy consumption through energy creation, and encompasses functions that promote energy conservation and SDGs management.

  • Power storage device
  • Lithium-ion battery
  • Secondary Cells/Batteries

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