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Industrial Commercial Energy Storage Container

Industrial Commercial Energy Storage Container

Power System : 500KW-1000KW
Energy Capacity: 1MWH-2MWH
Battery Technology: Lithium Iron Phosphate (LiFePO₄)
Lifespan: >6000 Cycles @ DOD 90%
Cooling System: Liquid-cooling system
Operating Temperature: -25°C to 55°C
Communication Protocols: Ethernet, Modbus, CAN, RS485
Protection: IP55 Waterproof & Dustproof
Certification: IEC, CE, UN38.3, MSDS, EN50549

Product Introduction
Industrial 1MWH Battery Energy Storage Container 

 

 

1. 215kWh+ Capacity for Dual-Sector Demands

Industrial-Grade Storage: Configurable from 215kWh to 5MWh+ using 280Ah LiFePO4 cells (paired with 768V architecture), with 80% depth of discharge (172kWh–4MWh usable). Powers a medium factory's production line for 4–6 hours or a 100,000 sq.ft retail center through peak hours (9 AM–7 PM), supporting HVAC, refrigeration, and machinery.

High-Density Design: 40ft high-cube containers pack 2–3x more energy per square foot than site-built systems, maximizing power in limited industrial yards or commercial parking lots.

 

 

2. Rugged Containerized Durability

All-Weather Enclosure: IP66-rated container resists dust, rain, and salt mist (IEC 61701 certified), thriving in extreme environments-from desert factories to coastal hotels. Reinforced steel frame withstands 160mph winds, 80 lbs/sq.ft snow loads, and vibration from nearby machinery (IEC 60068-2-6 compliant).

280Ah Cell Longevity: Large-format 280Ah LiFePO4 cells endure 6,000+ cycles (15+ year lifespan) with 80% capacity retention, enduring daily deep discharges required for industrial shifts or commercial peak demand.

 

 

3. High-Efficiency Power Conversion & Grid Synergy

Industrial-Strength PCS: 100kW–500kW bi-directional Power Conversion System (PCS) with 98.5% efficiency, converting stored DC to 3-phase AC (480V/600V) for seamless grid integration. Supports 1C continuous discharge (215kWh in 1 hour) and 2C surge capacity for machinery startups or HVAC spikes.

Rapid Mode Switching: <5ms transition between grid-tied, off-grid, and generator modes-critical for preventing downtime in factories (avoiding production halts) or supermarkets (preserving perishables during outages).

 

 

 

Container Energy Storage System


Advantageous Functions

  • Smooth New Energy Output
  • Peak Valley Arbitrage
  • Demand Management
  • Construction of Microgrid

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20FT 40HQ Container Energy Storage System

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00031 -

MECC-645-300
Battery capacity:645kWh
PCS capacity:300kW
Dimension:3000*2438*2591(W*D*H)mm
MECC-1075-500

Battery capacity:1075kWh
PCS capacity:500kW
Dimension:6058*2438*2591(W*D*H)mm

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Specification

Model No.:

MECC-645-300

MECC-1075-500

MECC-2150-1000

Container Size

20ft

20ft

40HQ

Battery Parameter

Battery Type

LifePo4

Battery capacity

645.12kWh

1075.2kWh

2150.4kWh

Battery cabinet capacity

768V/280Ah,215.04kWh

Battery cabinet Qty

3pieces in parallel

5pieces in parallel

10pieces in parallel

Cycle life time

10000times

PCS Parameter

PCS power

300kW

500kW

1MW

Isolated Transformer

Included

Output Voltage

380V/400V 3L+N+PE

Others

Air conditioner

Yes

Fire fighting system

Yes

Certification

CE,UN38.3,EN50549,G99,VDE4105

 

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018 - 2

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014

022-1

012

 

 

FAQ 

 

 

Q: What communication protocols are used in a containerized energy storage system for remote monitoring?

A: Common communication protocols include Modbus, which is widely used for industrial equipment communication. Additionally, some systems may use TCP/IP based protocols for seamless integration with modern monitoring and control systems. Bluetooth and Wi Fi can also be used for local area monitoring and initial setup, while cellular or satellite communication may be employed for remote, long - distance monitoring.

 

 

Q: How much does a containerized energy storage system cost?

A: The cost depends on various factors such as capacity, power output, battery type, and additional features. A small scale, 1 MWh containerized energy storage system may cost around $500,000 - $1,000,000. Larger, utility scale systems with capacities of 10 MWh or more can cost several million dollars. However, as technology advances, costs are gradually decreasing.

 

 

Q: Can a containerized energy storage system operate in a high altitude environment?

A: Yes, but adjustments may be required. At high altitudes, the air density is lower, which can affect the cooling efficiency of the system. The ventilation and cooling systems may need to be optimized to ensure proper heat dissipation. Additionally, electrical components may need to be rated for the lower air pressure to prevent electrical breakdown.

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