Industrial energy storage systems are used at enterprises, warehouses, production sites, logistics facilities and in engineering infrastructure. Such solutions help provide backup power, support equipment operation, manage loads and adapt power supply to the facility’s operating mode.
For industrial projects, reliability, safety, battery system controllability, monitoring capability and adaptation to specific operating conditions are especially important. 1AK-LI-ION can develop battery solutions according to the customer’s technical specification: by voltage, capacity, layout, case, communication interfaces and operating mode.
Energy storage systems for backup power are used where it is important to ensure operation of critical equipment during power outages or transition between power sources.
Depending on the project, the system may support engineering infrastructure, production areas, communication systems, automation, lighting, warehouse equipment or other equipment essential for facility continuity.
What is considered during selection
| Parameter | What is important |
|---|---|
| Critical loads | Which systems must receive power |
| Autonomous operating time | Required backup period |
| Load power | Peak and continuous power |
| Placement conditions | Room, cabinet, container, technical area |
| Monitoring system | Control of battery status and emergency modes |
| Safety requirements | Protection, switching, temperature range |
Energy storage systems can be used for load management at an industrial facility. The battery system stores energy and releases it at a specified time, helping support equipment operation and reduce load on external infrastructure.
This scenario may be relevant for facilities with uneven power consumption, peak loads, own generation sources or the need for more flexible energy management.
Possible tasks
| Task | Value for the facility |
|---|---|
| Peak load support | Use of stored energy during periods of high load |
| Operation with own generation | Energy storage and later use |
| Equipment backup | Support of critical systems |
| Improved controllability | Parameter control and integration with facility infrastructure |
| Scalability | Ability to move from cabinet to containerized execution as energy needs grow |
Project ESS are developed for a specific facility and technical specification. This format is suitable when a standard solution does not cover requirements for power, capacity, dimensions, interfaces, case, operating conditions or operating scenario.
1AK-LI-ION performs selection of battery modules, configuration design, BMS integration, mechanical assembly, cable routing, testing and preparation of the solution for operation. For large facilities, the solution can be implemented in a containerized format.
What is defined during design
| Parameter | What is defined |
|---|---|
| System purpose | Backup, buffer, hybrid operation, autonomy |
| Voltage | Requirements of the facility and external equipment |
| Capacity | Energy reserve and operating duration |
| Power | Load parameters |
| Case / placement | Cabinet, rack, container, custom execution |
| Interfaces | CAN / RS485 / telemetry — if required |
| Maintenance | Access, diagnostics, condition monitoring |
| Project status | Prototype, pilot batch, serial supply |
An ESS is selected not only by battery capacity. Correct solution selection requires considering the facility purpose, load power, autonomous operating time, charge and discharge mode, placement conditions, safety requirements and method of integration with external equipment.
| Selection criterion | What to consider |
|---|---|
| Purpose | Energy sector, industry, private home, remote site |
| Execution format | Modular, cabinet-type, containerized or home solution |
| Operating scenario | Backup, buffer, operation with renewables, hybrid scheme, autonomy |
| Load power | Peak and continuous power of consumers |
| Capacity | Required energy reserve |
| Autonomy time | How long the system must support the load |
| Voltage | Facility and equipment requirements |
| Chemical system | Li-Ion / LFP — according to safety, service-life and operating-mode requirements |
| BMS | Protection, balancing, monitoring and data exchange |
| Temperature range | Operating and placement conditions |
| Interfaces | CAN / RS485 / telemetry — if required |
| Scalability | Ability to increase system capacity and power |
| Placement | Rack, cabinet, container, technical room or project execution |
For energy facilities, operation with generation, buffer modes and integration with external infrastructure are usually important. For industry, backup power, controllability, safety and adaptation to the enterprise operating mode are essential. For containerized ESS, power, capacity, climate control, safety and placement conditions matter. For private homes, autonomy, safe operation, compatibility with solar generation and support of critical loads are important.
For consultation on selecting ESS for different applications, please contact info@1ak-group.com