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Intelligent Energy Storage

Intelligent Microgrid Solutions

Comprehensive energy storage systems tailored for mining, industrial parks, data centers and off-grid scenarios — enabling low-carbon, reliable and cost-effective power management.

50+Projects Delivered
200%Peak IRR
5+Application Scenarios
CEEC Energy Storage System Field

Application Scenarios of Intelligent Microgrid

Commercial Complex

Commercial Complexes / Industrial Parks

Low-carbon and efficient energy management, enabling peak-valley arbitrage, emergency power backup, and renewable energy consumption while ensuring load power supply reliability through on-grid and off-grid switching.

EV Charging Station

PV-Storage-Charging Integrated Stations

Eliminates grid dependency, reduces operational costs, and achieves zero-carbon charging operations.

Mining Operations

Mining Area Power Supply

Enables mining electrification by replacing diesel generators and grid extension costs. Increases land utilization, reduces carbon emissions, and enhances mining revenue.

Remote Island

Plateau Regions / Islands / Non-Cumulative Zones

Provides power for plateau regions, islands, border areas, unmanned zones and other grid-less scenarios — with up to 12 hours of backup power in emergencies.

Construction Site

Construction Sites

Liberates construction sites from grid/diesel generator reliance. Reducing energy costs and enables zero-carbon construction sites.

Industry Application Cases

Green Mine

Mining Electrification
Solution Value
  • Green power capacity: battery-swapping heavy trucks, fast and convenient, enhancing user experience
  • Promoting energy transition: integration and discharge of renewable energy, reducing carbon emissions and supporting environmental protection
  • Backup power assurance: emergency backup power supply, reliable and safe
200% Average Internal Rate
of Return (IRR)
1–3 yrs Payback
Period
  • Peak-valley arbitrage: peak shaving and valley filling to reduce electricity costs
  • Optimizing microgrid energy complementarity: ensuring stable operation of the microgrid
Guangxi Mine Oil-to-Electricity Replacement Project

Based on the market demand for replacing fuel-powered engineering machinery with electric engineering machinery, this project is equipped with multiple 836kWh mobile energy storage vehicles to provide energy supply for equipment such as electric excavators and electric lifting drills.

System Architecture

Green Mine Microgrid System Architecture

Zero-carbon Industrial Park

Guangdong Project
Solar industrial park
Solution Value
  • Continuously optimize the park's energy consumption structure, reduce carbon emissions, and build a new type of zero-carbon industrial park featuring efficient energy utilization, minimized carbon emissions, and circular resource use
  • Ultimately achieving low-carbon and zero-carbon operational goals
25% Average Internal Rate
of Return (IRR)
4–5 yrs Payback
Period
Zhanjiang Zero-carbon Industrial Park Project in Guangdong

The project plans to construct a 12.5MW wind power project and a 13MW photovoltaic power generation project, along with a 5MWh energy storage system, through a wind-solar-storage multi-energy complementary model.

BESS Energy Storage Field

Project Highlight

Wind-Solar-Storage
Multi-Energy Complementary

12.5MW Wind
13MW PV
5MWh Storage

Data Center

System Architecture · Hebei 90MWh Data Center Project

Data Center Energy Storage System Architecture
Solution Value
Renewable energy integration: rooftop photovoltaic systems connected at the stick side of IDC to increase green power utilization.
Peak-valley price arbitrage: the energy storage system charges during off-peak hours and discharges during peak hours to maximize profitability.
Partial replacement of diesel generators: reduces investment costs in diesel generators and lowers carbon emissions from generator usage.
11% Average Internal Rate
of Return (IRR)
6–8 yrs Payback
Period
Hebei 90MWh Data Center Project

At the operational strategy level, the project fully integrates local demand-based electricity pricing policies and the characteristics of peak and valley periods in electricity demand to formulate targeted charging and discharging plans. This achieves optimization of electricity costs and efficient allocation of power resources.

Key Capabilities
Planned backup power: provides 8 hours of peak shaving and valley filling + 4 hours of backup power, with the capability to extend up to 12 hours of backup power in emergency situations.
Grid peak regulation: participates in grid load-side response, coordinating with demand-side response dispatch to enable Virtual Power Plant (VPP) electricity sales.
90MWh
Project Capacity
8h
Peak Shaving
VPP
Grid Ready

One-stop Energy Storage System Solution

Full-Lifecycle Service Coverage

Planning Consultation

Planning Consultation & System Design

More Scientific

Full-chain deeds design consultation & solution implementation capability

  • Solution design
  • Feasibility study
  • Grid connection assessment
  • Delivery & implementation
System Integration

System Integration and Project Delivery

More Efficient

Multi-dimensional product portfolio and project delivery capability

  • System integration
  • Custom design
  • Multi-dimensional adaptation
  • Project delivery
Grid Connection Verification Lab

Commissioning, Grid Connection & Performance Verification

More Reliable

Global grid adaptation and experimental verification capabilities

  • Model calibration
  • Performance evaluation
  • Grid-forming verification
  • Performance acceptance
Energy Management Platform

Digitalized Operation & Efficiency Optimization

More Outstanding

Data-driven operation and efficiency optimization capability

  • Online monitoring
  • Predictive maintenance
  • Value assessment
  • Revenue optimization