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High Capacity 200kW Battery Energy Storage System
Advanced Commercial BESS for Solar Storage, Peak Shaving, and Smart Energy Control
The High-Capacity 200kW Battery Energy Storage System is designed for businesses, EPC contractors, solar developers, and industrial energy users that need powerful, reliable, and intelligent energy storage. Built around LFP battery technology and a high-voltage system architecture, this commercial battery energy storage solution helps users store electricity, manage demand peaks, improve solar utilization, and strengthen power stability.
It is a practical system. Strong. Scalable. Ready for real commercial and industrial energy projects.
With 241.152kWh rated energy and 105kW rated power, this battery storage system supports a wide range of applications, including peak shaving, solar energy storage, off-grid power support, virtual power plant participation, load shifting, backup energy, and electricity cost optimization. For facilities dealing with unstable grid power or rising electricity prices, this system offers a smarter way to control energy use.
This high-capacity battery energy storage system combines LFP battery modules, intelligent EMS management, BMS monitoring, air-cooled thermal control, PCS power conversion, DC/DC integration, and multi-layer safety protection in one professional energy storage platform.
It is suitable for commercial solar storage projects, industrial parks, manufacturing plants, warehouses, hotels, farms, EV charging stations, telecom sites, microgrids, and renewable energy applications.
The system is engineered to support photovoltaic integration, grid interaction, load-side power management, and off-grid operation. It can store excess solar power during the day, discharge during peak electricity periods, stabilize power quality, and provide energy resilience when grid conditions become uncertain.
Key System Configuration
DC SIDE
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|
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Battery Type |
LFP |
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Configuration |
1P240S |
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Rated Capacity |
314Ah |
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Rated Energy |
241.152kWh |
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Rated Voltage |
768V |
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Rated Power |
105kW |
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Voltage Range |
672V-864V |
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Cooling Mode |
Air Cooling |
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Battery Cycle |
8000@25℃, 80%DOD 0.5P |
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Fire Protection |
Aerosol Extinguishing*13, Water |
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Sensor |
CO, smoke, temperature, water leak |
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Rated Charge / Discharge Rate |
0.5P |
AC SIDE |
|
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Rated Output power |
105kW |
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Rated Voltage |
380V / 400V (-15%~+15%) |
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Frequency |
50Hz/60Hz±2.5Hz |
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Max. Output Current |
167A |
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Power Factor |
0.99/-1~1 |
System Parameter
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|
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Operating Temperature |
-20℃~55℃(>45 ℃ derating) |
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Noise |
≤75dB |
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Size(W*D*H) |
1180*1230*2250 |
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Weight |
About 2.4t |
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Protection |
IP54 |
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Humidity |
0-95%(no condensation) |
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Altitude |
≤4000m(degraded above 2000m) |
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Communication Interface |
CAN,Ethernet ModbusTCP,MQTT |
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Application |
Peak shaving, VPP, Solar regulate, Off-grid |
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Certification |
IEC62619, EN62477, IEC 63056, IEC 61000, UN38.3 |
PCS
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|
AC SIDE |
|
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Rated voltage |
230 V / 400 V |
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Voltage range |
±15% |
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Rated frequency |
50 / 60 Hz |
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Wiring method |
Three-phase Three-wire / Three-phase Four-wire |
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Rated power |
105 kW |
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Max. power |
115.5 kW |
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Max. current |
167 A |
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Power factor |
0.99 / -1~ 1 |
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Current distortion rate |
<3% (rated power) |
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DC component |
<0.5% |
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Overload capacity |
110% long term |
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Max. efficency |
98.5% |
DC SIDE
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|
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Operating voltage range |
615 V~950 V /650 V~950 V |
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Maximum current |
170 A |
General Parameters
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|
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Dimension (W × H × D) |
440 × 255 × 620 mm |
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Weight |
50 kg |
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Altitude |
4000 m (derate above 2000 m) |
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Operating temperature |
-30 ℃~55 ℃ |
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Humidity |
0% RH~95% RH,non-condensing |
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Cooling method |
Intelligent air cooling |
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IP rating |
IP20 |
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Communication |
CAN / RS485 / Ethernet |
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Storage temperature |
-45 ℃~70 ℃ |
BATTERY PACK
|
|
|
LFP 314Ah |
|
|
Battery capacity |
20.096 kWh |
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Battery configuration |
1P20S |
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Rated battery voltage |
64 V |
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Battery voltage range |
56~72 V |
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Weight |
135 kg |
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Dimensions (W*H*D) |
490*896*230 mm |
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Rated charge |
157 A[12] |
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Relative humidity |
0~85%RH (non-condensing) |
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Max. Operation altitude |
3000 m |
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Ingress protection |
IP20 |
|
Certifications |
IEC 62619, EN/IEC 61000, UN38.3[3] |
High-Capacity Energy Storage for Commercial Power Demands
Modern businesses need more than simple backup power. They need controllable energy. They need storage that can reduce electricity costs, protect operations, and support renewable power integration.
This commercial BESS is built for that purpose.
The 241kWh-class energy capacity allows the system to store a substantial amount of electricity for daily operation. The 105kW power output supports meaningful load coverage for commercial and industrial applications. Together, these specifications make the system suitable for medium-scale energy storage projects that require performance, flexibility, and long-term dependability.
Short power fluctuations can be costly. Peak electricity demand can be expensive. Solar waste can reduce ROI. This system helps address all three.
LFP Battery Technology for Safer Long-Term Operation
The system uses lithium iron phosphate battery chemistry, commonly known as LFP. This battery type is widely used in commercial and industrial energy storage because it offers excellent thermal stability, long cycle life, and reliable charge-discharge behavior.
LFP batteries are also known for their durable electrochemical structure. They are less prone to thermal instability compared with many other lithium battery chemistries, making them a strong choice for energy storage systems installed in demanding environments.
For commercial BESS projects, battery safety is not optional. It is foundational. This system supports stable long-term operation with hierarchical battery management, real-time monitoring, and integrated safety protection.
Intelligent EMS for Energy Optimization
The built-in Energy Management System helps coordinate energy flow between the battery, photovoltaic system, grid, and load. This allows the system to support different operating strategies depending on site requirements.
The EMS can help manage solar self-consumption, peak shaving, time-of-use optimization, load shifting, backup reserve, and grid support. It also improves energy dispatch by determining when the battery should charge, discharge, standby, or protect reserved capacity.
For businesses, this means greater control. For EPC companies, it means easier project integration. For energy investors, it means better operational intelligence.
Smart storage revenue begins with smart dispatch.
Real-Time BMS Monitoring and Safety Supervision
The Battery Management System monitors battery performance across multiple levels. It tracks key data such as voltage, current, temperature, state of charge, state of health, and operating status.
Real-time monitoring helps protect the system from abnormal operating conditions. It also supports better battery utilization and longer service life.
The system includes smoke, temperature, CO, and water leak sensing. These safety layers help create a vigilant protection environment around the battery cabinet. Fire protection is also integrated with aerosol extinguishing and water-related protection support.
This is not just energy storage. It is a monitored power ecosystem.
Air-Cooled Design for Practical Deployment
The system uses air cooling to manage operating temperature. Air-cooled energy storage systems are often preferred in commercial and industrial settings where simplicity, maintenance convenience, and stable thermal regulation are important.
The operating temperature range supports installation in varied environmental conditions. When temperatures exceed higher limits, derating helps protect system performance and long-term reliability.
Air cooling also helps reduce system complexity compared with more elaborate cooling architectures, making it practical for many C&I energy storage projects.
PCS Performance and Grid Connection
The system includes a PCS power conversion platform designed for three-phase commercial power applications. It supports 230V / 400V rated AC voltage, 50Hz / 60Hz frequency, and flexible wiring methods for different site configurations.
With 105kW rated PCS power and up to 115.5kW maximum power, the system can support stable energy conversion between the battery and AC-side loads or grid connection points.
High PCS efficiency helps reduce energy loss during operation. Low current distortion supports cleaner power quality, which is important for commercial facilities, industrial users, and grid-connected storage projects.
Solar Integration and Renewable Energy Storage
This high-capacity BESS supports photovoltaic integration through internal DC/DC functions and coordinated energy management. For solar power systems, it helps capture energy that might otherwise be wasted or exported at low value.
During periods of strong solar generation, the battery can charge from surplus PV energy. Later, it can discharge when demand increases, electricity prices rise, or solar output declines.
This makes the system valuable for solar farms, commercial rooftop PV systems, industrial solar projects, and hybrid renewable energy installations. It turns intermittent solar power into a more dispatchable energy resource.
Peak Shaving and Load Shifting
Peak demand charges can place a heavy burden on commercial and industrial electricity bills. The system can discharge during high-demand periods to reduce the amount of power drawn from the grid.
This is called peak shaving.
The system can also shift energy use from expensive periods to lower-cost periods. It charges when electricity is cheaper and discharges when electricity rates are higher. This is known as load shifting or electricity arbitrage.
For businesses with time-of-use tariffs, this strategy can improve cost control and support better energy budgeting.
Virtual Power Plant and Grid Support
The system can support VPP applications when connected through suitable energy management and communication platforms. In a virtual power plant, distributed batteries and energy assets are coordinated to provide grid services, flexibility, and dispatchable power.
This creates new possibilities for commercial battery storage. Instead of functioning only as backup equipment, the BESS can become a grid-interactive asset.
It can help with demand response, renewable balancing, power quality support, and market-based energy dispatch, depending on local grid rules and project configuration.
Off-Grid and Microgrid Applications
The system can also support off-grid and microgrid applications. In remote sites, farms, mining operations, telecom stations, construction bases, or isolated facilities, battery storage can work with solar power and other generation sources to provide more stable electricity.
For microgrids, the battery can support load balancing, renewable smoothing, backup power, and energy continuity. It helps reduce dependence on diesel generators and improves the reliability of hybrid power systems.
This is especially useful in areas where grid power is weak, costly, or unavailable.
Main Benefits
High Energy Capacity
With 241.152kWh rated energy, the system provides meaningful storage capacity for commercial, industrial, and renewable energy projects.
Long Cycle Life
The LFP battery design supports up to 8000 cycles under specified conditions, helping improve long-term project value.
Smart Energy Management
EMS control enables flexible operation for solar storage, peak shaving, load shifting, backup power, and grid interaction.
Multi-Layer Safety Design
The system includes BMS monitoring, fire protection, environmental sensors, temperature supervision, and intelligent safety architecture.
Solar-Ready Integration
Internal DC/DC design supports photovoltaic-side voltage transformation and solar energy coordination.
Commercial-Grade Protection
The IP54 system protection level supports practical outdoor and industrial energy storage applications.
Flexible Communication
CAN, Ethernet, Modbus TCP, and MQTT communication support project monitoring, system integration, and energy management platforms.
Application Scenarios
Commercial Solar Energy Storage
Store excess solar power and use it during evening loads, peak tariff periods, or low-generation hours.
Industrial Peak Shaving
Reduce demand spikes in factories, workshops, processing plants, and manufacturing facilities.
Microgrid Energy Storage
Support isolated or hybrid power systems with solar, grid, generator, and battery coordination.
VPP and Demand Response
Enable flexible grid participation when connected to suitable aggregation and dispatch platforms.
Backup Power Support
Provide energy reserve for selected loads during grid instability or planned power interruptions.
Renewable Energy Regulation
Smooth solar output, reduce curtailment, and improve renewable energy dispatchability.
Why Choose This 200kW-Class Battery Energy Storage System?
This system is built for businesses that want more than stored electricity. It delivers intelligent energy control, renewable integration, peak-load reduction, and grid-interactive capability.
The high-voltage battery architecture supports efficient operation. The LFP chemistry supports long service life and safer performance. The EMS and BMS create a coordinated control layer. The PCS enables stable energy conversion for commercial AC systems.
For EPC companies, it offers a structured and scalable solution. For business owners, it supports cost reduction and energy resilience. For renewable energy developers, it improves solar power utilization and dispatch value.
It is a robust energy storage platform for modern power systems.