Our Industrial Energy Storage Systems (IESS) are engineered to deliver high-performance, scalable, and intelligent power solutions for modern industrial environments. As industries shift toward renewable integration, electrification, and round-the-clock operational reliability, energy storage has become a strategic infrastructure component rather than an auxiliary system.

Our product line focuses on stability, safety, efficiency, and adaptability—helping enterprises reduce energy costs, enhance grid resilience, and accelerate digital energy transformation.

Product Functions and Uses

Peak Shaving and Valley Filling

Our system intelligently stores electricity during low-tariff periods and releases it during peak demand, effectively reducing electricity bills and avoiding costly demand charges. The built-in AI energy-scheduling module analyzes load curves and optimizes charge–discharge cycles automatically.

Renewable Energy Integration

The IESS seamlessly interfaces with photovoltaic (PV) arrays, wind power systems, and other distributed renewable sources. It stabilizes intermittent generation, increases self-consumption ratios, and enables microgrid autonomy during grid fluctuations.

Emergency Backup and Uninterruptible Power

With millisecond-level switching capability, the system provides clean and stable electricity during outages, ensuring continuity for critical operations such as data centers, manufacturing lines, and automated systems.

Power Quality Improvement

Advanced power electronics suppress harmonic distortion, correct power factor, and smooth short-term load fluctuations—protecting sensitive industrial equipment and extending machinery lifespan.

Microgrid and Off-Grid Operation

Our systems support fully independent microgrid configurations, delivering stable power to remote industrial facilities, mining sites, or mobile field operations without reliance on the public grid.

Product Features

Modular and Scalable Architecture

The system uses standardized battery cabinets and PCS units, allowing flexible configuration from 100 kWh to multi-megawatt solutions. Adding capacity is simple—just expand module stacks according to load growth.

High-Safety LFP Battery Technology

We utilize industrial-grade lithium iron phosphate (LFP) battery cells with UL, CE, TUV, and UN38.3 certifications. Safety layers include cell-level thermal management, fire suppression, automated shutdown protocols, and structural anti-explosion design.

Intelligent Battery Management System (BMS)

Our BMS includes:

• Real-time SoC/SoH monitoring
• Multi-level protection (overcurrent, overvoltage, short-circuit, thermal runaway detection)
• Cloud-linked diagnostics
• Predictive maintenance alerts

This ensures safe, stable, and long-life cycling (>6000 cycles at 80% DOD).

High-Efficiency Power Conversion System (PCS)

The PCS offers:

• Bidirectional AC/DC conversion
• 97%+ energy conversion efficiency
• Fast switching for backup applications
• Grid-forming and grid-following operation modes

Robust Environmental Adaptability

Our cabinet designs include:

• IP54/IP65 protection levels
• -20°C to 55°C operating range
• Forced-air or liquid cooling
• Anti-corrosion industrial coatings

This ensures long-term reliability in factories, ports, chemical plants, or outdoor environments.

Integrated EMS Platform

The Energy Management System includes:

• Visual dashboards for load, generation, storage
• Remote control via web/mobile
• AI optimization for charge–discharge
• Data logs, reports, carbon-reduction analytics

Product Specifications

(Values are typical ranges; customizable based on project requirements.)

User Manual (Operation Guide)

System Startup Procedure

• Inspect external wiring and ensure AC/DC connection points are secured.
• Power on the main breaker and activate the BMS.
• Initiate PCS startup through EMS or the local HMI.
• Configure energy strategy (manual mode or automatic scheduling).
• Confirm system is running within nominal voltage, temperature, and load parameters.

Charging and Discharging

• Automatic mode: EMS determines optimal cycles based on load and pricing.
• Manual mode: Users set charge/discharge times, power levels, and constraints.

Routine Maintenance

• Perform visual inspection of cabinets weekly.
• Check cooling air filters monthly.
• Review EMS diagnostic alerts for cell balancing or temperature anomalies.
• Annual maintenance by certified technicians recommended.

Safety Notes

• Do not open battery modules without authorization.
• Ensure grounding is properly established.
• Avoid placing combustible materials near the system.
• Follow lock-out/tag-out (LOTO) procedures during servicing.

System Shutdown

• Switch to idle mode in EMS.
• Turn off PCS.
• Deactivate BMS and main breaker.
• Confirm all indicators show a powered-down state.

Applicable Industries

Our IESS solutions are widely used across sectors such as:

• Manufacturing & Industrial Plants: Ensures stable power for robotics, CNC machines, furnaces, assembly lines, and automated processes.
• Data Centers & IT Infrastructure: Reduces reliance on diesel generators, provides ultra-stable backup, and improves PUE efficiency.
• Renewable Energy Projects: Supports PV, wind farms, microgrids, off-grid systems, and hybrid renewable power stations.
• Transportation & Logistics: Ideal for ports, rail facilities, charging stations, cold storage centers, and distribution hubs.
• Mining, Oil & Gas: Provides ruggedizable off-grid power in remote and harsh environments.
• Commercial Buildings & Industrial Parks: Optimizes demand charges and provides backup for elevators, HVAC, and critical operations.

Target Customers

Our solutions are designed for:

• Industrial manufacturers aiming to lower energy bills and enhance uptime
• Energy developers integrating storage into renewable plants
• EPC contractors needing reliable turnkey energy storage units
• Data center operators focusing on power quality and redundancy
• Utility companies deploying grid-supporting distributed storage
• Commercial and industrial facility owners planning peak-shaving strategies
• Government or municipal projects building smart grids or microgrids