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1MW / 2MWH C&I Energy Storage System

Key Features

Why Choose the 1MW / 2MWH System?

A fully integrated 1,000 kW / 2,007 kWh hybrid energy storage solution engineered for C&I peak shaving, self-consumption maximisation, and grid resilience.

Hybrid Solar + Storage Hybrid Integration
01

1,008 kWp Solar + 1MW Inverter Hybrid System

The system pairs 1,008 kWp of N-type bifacial PV modules with a 1,000 kW hybrid inverter, generating approximately 1,943 MWh of clean electricity per year. The built-in EMS automatically prioritises solar self-consumption, charges the battery during off-peak periods, and feeds surplus energy to the grid — cutting electricity costs by up to 60% for C&I users.

2MWH LFP Battery 2,007 kWh LFP Storage
02

2,007 kWh Grade-A LFP Battery Bank

Grade-A LFP prismatic cells deliver 2,007 kWh of usable energy — enough to support critical loads at 1,000 kW for 2 hours during grid outages. LFP chemistry provides superior thermal stability, non-combustibility, and over 6,000 deep-cycle charge-discharge cycles, extending calendar life beyond 20 years with ≥ 80% capacity retention at end of life.

Multiple Working Modes Flexible Dispatch
03

Three Intelligent Working Modes

Operators select from Peak Shift, Self-Consume, or Battery Priority modes to match their tariff structure and load profile. Peak Shift charges during low-tariff periods and discharges at peak times to maximise arbitrage savings. Self-Consume prioritises solar for on-site loads before exporting. Battery Priority ensures critical loads are always backed up regardless of grid availability.

Smart EMS Monitoring Smart EMS
04

Cloud EMS & Real-Time Remote Monitoring

The integrated monitoring system supports a local web server for easy configuration and remote data logging via Modbus RS485. Operators gain full visibility over PV generation, battery state of charge, load consumption, and grid export through a web dashboard and mobile app. Automated strategies include peak shaving, frequency regulation, demand response, and VPP aggregation.

Mechanical Parameters

System Configuration & Specifications

Complete technical data for the AUREA-BESS-1MW2MWH. Compare with other models in the C&I ESS series or request a custom configuration.

AUREA C&I ESS Series Configuration

Parameter 500KW / 1MWH 1MW / 2MWH ★ 2MW / 4MWH 3MW / 6MWH
ModelAUREA-500K-1MAUREA-1MW-2MAUREA-2MW-4MAUREA-3MW-6M
Rated Energy1,075 kWh2,007 kWh4,085 kWh6,130 kWh
Rated Power500 kW1,000 kW2,000 kW3,000 kW
PV Input1,008 kWp (1,400 × 720W)
LiFePO4 Battery314Ah × 240S × 4P200.7 kWh × 10 Racks314Ah × 240S × 16P314Ah × 240S × 24P
Container20ft Standard20ft High-Cube40ft High-Cube40ft HC × 2
Inverter500 kW × 1500 kW × 21,000 kW × 21,000 kW × 3
AC Voltage220V / 380V220V / 380V / 400V400 / 480 / 690V400 / 480 / 690V
Cycle Life≥ 6,000 cycles≥ 6,000 cycles≥ 6,000 cycles≥ 6,000 cycles
Design Life20 Years20 Years20 Years20 Years
★ Currently viewing: 1MW / 2MWH model  |  AUREA ENERGY — Better & Brighter Future

Detailed Technical Specifications — 1MW / 2MWH

ParameterSpecification
Battery System
Battery ChemistryLFP — Lithium Iron Phosphate
Cell SpecificationGrade-A Prismatic, ≥ 130 Wh/kg
Total Usable Energy2,007 kWh (10 × 200.7 kWh racks)
Cycle Life @ 80% DoD≥ 6,000 Cycles (25°C)
State of Health (EoL)≥ 80% Capacity Retention
Inverter / PCS
Rated AC Power1,000 kW (2 × 500 kW parallel)
Max PV Input1,008 kWp / 12 MPPT × 24 strings
AC Output Voltage3/N/PE, 220V / 380V / 400V
AC Frequency50 Hz / 60 Hz
Peak Efficiency≥ 98.5%
Black-StartSupported
System Performance
Annual Generation≈ 1,943 MWh / year
Daily Generation≈ 5,400 kWh / day
Backup Duration2 hours @ 1,000 kW
Payback Period< 4 years (typical)
Safety & Physical
Enclosure20ft High-Cube ISO container
IP RatingIP55
Fire SuppressionAutomatic FM200 / Aerosol
Operating Temperature−20°C ~ +55°C
CertificationsCE / CGC / TUV / IEC 62619 / UN38.3
Commissioning Time≤ 3 Working Days
Products Details

Core Subsystem Overview

Each subsystem is factory-assembled, individually tested, and pre-commissioned before delivery — ensuring rapid site deployment and long-term reliability.

LFP Battery Pack
LFP Battery Pack & BMS
Hybrid Inverter
1MW Hybrid Inverter

LFP Battery Pack

  • Grade-A LFP prismatic cells — tier-1 manufacturer
  • 10 × 200.7 kWh rack design with independent fault isolation
  • Automated cell balancing at cell and pack level
  • ≥ 80% capacity retention at end of 6,000th cycle
  • Self-discharge ≤ 3% per month

1MW Hybrid Inverter

  • 2 × 500 kW modular design for easy maintenance
  • Peak conversion efficiency ≥ 98.5%
  • 12 MPPT inputs for flexible PV configuration
  • 100% unbalanced load support
  • Black-start capability for critical load restoration
Cooling System
Air Conditioning System
EMS Cloud
Cloud EMS & Monitoring

Thermal Management System

  • Air conditioning + forced air cooling
  • Power-off and restart memory function
  • Remote fault identification via RS485
  • Operates across ambient range −20°C to +55°C
  • Fault-free continuous operation > 2,500 hours

Cloud EMS & Monitoring

  • Local web server for easy configuration
  • Real-time data logging via Modbus RS485
  • Export control with meters support
  • Remote access via web dashboard and mobile app
  • Supports peak shaving, arbitrage, frequency regulation
System Commissioning

System Commissioning & Debugging

Every AUREA ESS undergoes rigorous factory acceptance testing before shipment, and a structured on-site commissioning procedure ensures full system readiness within 3 working days.

1
Power-On & Initialization TestSystem boot-up verification, LED indicators, HMI display responsiveness, and communication link checks between BMS, PCS, and EMS.
2
Inverter Functionality & Grid SynchronisationVerification of grid-tie and off-grid modes, voltage/frequency output stability, and anti-islanding protection.
3
Battery Integration & BMS ValidationFull charge-discharge cycle test, BMS communication validation, SOC calibration, and fire-detection system check.
4
EMS Strategy & Remote Access HandoverDispatch strategy configuration, cloud dashboard setup, mobile app activation, and operator training with commissioning report delivery.
Aurea Technical Support

Why Choose Aurea Energy?

  • Industry-Leading Efficiency — Inverter efficiency ≥ 98.5% with advanced MPPT solar integration, delivering the lowest levelised cost of storage in its class.
  • Reliable 24/7 Power — Seamless transition between grid-tied, off-grid, and backup modes ensures zero-interruption power supply for critical industrial loads.
  • Low Maintenance & Durable — Grade-A LFP cells with a 20-year design life and ≥ 6,000 cycle rating minimise replacement costs and maximise project IRR.
  • Smart Energy Management — Real-time cloud monitoring, adaptive performance optimisation, and open API integration reduce operational overhead.
  • Fast ROI — Typical payback period under 4 years with peak shaving, self-consumption, and demand response strategies.
  • Global Service Network — Dedicated field engineers and regional spare parts depots ensure next-business-day support response worldwide.
Contact Technical Team
Aurea ESS Project
Need Technical Assistance?

Our engineering team is available Mon – Fri 8:00am – 6:00pm CST. Emergency support 24/7.

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