Energy Storage /
Battery Energy Storage Systems (BESS) /
ICE 261KW - 500 kWh
Utility - Battery Energy Storage Systems
High-Performing Intelligent Energy Storage Solutions
INDUSTRY APPLICATIONS OF C&L ENERGY STORAGE SYSTEMS
Manufacturing facilities
High-load machinery and sensitive processes require constant, reliable energy. A BESS helps avoid costly production stops by covering peak demand periods and ensuring backup power during grid instability.
Warehousing and logistics centers
By lowering energy costs and enabling efficient EV fleet charging, industrial energy storage solutions offer real value for large-scale logistics sites. A BESS supports overnight operations, peak-load smoothing, and rapid charging during high-demand periods.
Commercial buildings & RWA's
Retail chains, data centers, and office buildings can use commercial battery storage solutions to stabilize energy consumption, reduce peak tariffs, and support sustainability targets by integrating solar or other renewables.
Fleet depots / Highways/Railways
Electrified fleets need dependable charging infrastructure. A BESS delivers fast, efficient charging while easing demand on the local grid - making it ideal for truck, bus, and delivery depots.
ADVANTAGES OF BESS FOR COMMERCIAL AND INDUSTRIAL SITES
Revenue generation & optimizing operating costs
Store energy when rates are low and use it when demand and pricing spike, manage your load profile and enable grid market revenue generation.
Improved energy reliability
Grid disruptions don't have to stop operations. A BESS provides reliable backup power to critical systems, helping minimize downtime and reduce risk.
Safety and security
Advanced safety features such as fire prevention, liquid cooling, PFAS free direct injection fire suppression, and robust oybersecurity.
Scalability and future-proofing
Modular system design allows for easy capacity expansion to meet growing power needs, future-proofing your investment against market changes.
All-in-one design & turnkey solutions
A turnkey BESS solution helps optimize the full system potential and offers hassle free setup, or it can be delivered as a standalone product.
Environmental and Grid Sustainability
Enabling cost-effective, fast, and sustainable charging solutions, while also supporting grid stability and integrating renewable energy sources.
EXPLORE OUR PRODUCTS
PRODUCT FEATURES
Comprehensive Safety Protection Solution
Electrical Safety: High-voltage cabinet features triple protection: soft start, short-circuit protection, and remote ON/OFF switching.
Thermal Safety: Liquid cooling system maintains ≤3℃ temperature difference between cells, extending lifespan by 30%.
Fire Safety: Dedicated Novec 1230 fire extinguishing agent + three-stage detection and execution unit, with suppression response <10 seconds.
Highly Reliable Battery Energy Storage System
Cell-Level: 314Ah high-capacity LiFePO4 cells, with cycle life ≥6,000 cycles.
System-Level: 4 clusters in parallel × 16 packs in series × 16 cells, scalable to 1MWh-level capacity.
Management-Level: Dual BMU + BCMU management with real-time monitoring of 2,000+ cell parameters.
Intelligent Synergistic Energy Management Platform
Multi-Energy Complementary Control: Integrates PV, storage, and grid inputs via the EMS for intelligent dispatch and optimal power allocation.
Bidirectional Conversion Technology: The PCS achieves high-efficiency AC-DC conversion, supporting millisecond-level seamless transition between grid-tied and off-grid modes.
Comprehensive Monitoring & O&M: Dual-channel local + remote communication enables full-parameter visual management via mobile/PC.
Flexible Grid-Forming & Emergency Power Support
Multi-Mode Operation: STS transfer switch ensures critical load power supply within 20ms.
Emergency Power Supply: Redundant dual-path auxiliary power design guarantees uninterrupted control system operation.
Rapid Deployment: Containerized design supports plug-and-play on-site installation, reducing construction costs by 40%.
PRODUCT PARAMETERS
| Cell type | LFP 314Ah |
| Rated charge and discharge C-rate | 0.5C |
| Battery Pack capacity and configuration | 16.077kWh / 1P16S |
| Total Battery Capacity | 1028kWh |
| Accessed PV power | 1440kW (120kW × 12) |
| Rated output voltage | 400V |
| Rated output frequency | 50/60Hz |
| AC rated power | 500kW |
| Rated current | 722A |
| Hybrid switching time | <20ms |
| THDi | <3% (When it represents rated power) |
| Power factor | >0.99 (When it represents rated power) |
| THDu | <3% (Linear load) |
| Weight | <20T |
| Dimensions (L*D*H) | 6058 × 2438 × 2896mm |
| Operating temperature | -30℃ ~ 50℃ (Derating above 40℃) |
| Protection level | IP54 (Container) |
| Cooling concept | Air cooling |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| Battery capacity | 1028kWh |
| System Configuration | 1P16S |
| Battery Pack Configuration | 16.077 kWh |
| Cell type | LFP 314Ah |
| Battery voltage range | 716.8 V to 921.6 V |
| PACK protection level | IP54 (Container) |
| Rated charge / discharge rate | 0.5 C |
| Number of temperature monitoring points | 512 |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| Cycle count | 8000cls (0.5P, 25±2°C, @70%SOH) |
| Factory SOC Settings | 30% – 50% |
| Maximum system efficiency | ≥97.5% |
| Battery cell cooling method | Air cooling |
| Noise | <70dB |
| Communication interface | 4G/WiFi/Ethernet |
| Operating temperature range | -30 to 55°C (derating above 40°C) |
| Operating humidity range | 0 to 95%RH, no condensation |
| Protection level | Container IP54 |
| Fire protection system | Aerosol |
| Display screen | LCD touch |
| Product dimensions (W*D*H) | 6058(W)*2438(D)*2896(H)mm |
| Equipment weight | <26T |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| Input branches number | 8 channels (optional 2 PV MPPT controllers per cluster) |
| Rated current | 168A × 8 channels |
| Rated power | 120kW × 8 channels |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| AC rated power | 500kW |
| AC maximum power | 550kW |
| Rated current | 722A |
| THDi | <3% |
| DC component | <0.5% LPN |
| System voltage format | 3W+N+PE |
| Voltage range | 360VAC~440VAC |
| Frequency range | 45~55Hz |
| Power factor | 1 ~ 1 |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| Rated output power | 500kW |
| Rated output voltage | 400V |
| Rated output frequency | 50/60Hz |
| THDu | <1% linear, <5% nonlinear |
| Overload capacity | 110% overload for 10 minutes |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| Bypass maintenance switch | 1250A |
| DC switch | 1250A |
| Load switch | 1250A |
| Grid switch | 1250A |
| STS unit | 1155A/800kW |
| STS switching time | <20ms |
| Parameter | ICE 500KW – 1028 kWh |
|---|---|
| Grid feedback input | 220Vac |
| Diesel engine drive output | Dry contact |
BESS are very flexible and can support and solve many challenges regarding electrification, such as storing intermittent renewable energy or reducing power peaks in constrained grids.
For example, BESS might primarily support electric vehicle charging in a weak grid. But it can also provide additional services like grid support, leading to revenue opportunities, or CO2 optimization of your local energy use.
So, a BESS can provide both revenue opportunities and cost and emission savings.
The system and installation cost depend on your particular needs, the site and the environment in which it should be placed.
Please get in touch with us for a quote.
The payback time depends on your use case, priorities, and location. A typical business case currently shows around five years.
Please contact us for a more specific analysis.
Our products are compliant with EU standards and can be connected to standard 3-phase 400V grids.
BESS can charge all electric applications on site and is brand agnostic, meaning it supports all vehicle types.
As electrification grows, used batteries still have valuable potential. These are reused and repurposed to support charging solutions and reduce carbon footprint.