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large-scale 50KW battery Industrial storage systems

large-scale 50KW battery Industrial storage systems

Industrial Battery Backup Systems

Choose PXU-C energy storage system! With its fully integrated design, the system saves valuable space and ensures fast, plug and play deployment.

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Is the energy bill increasing? Unstable power supply? Every unexpected downtime or peak hour surcharge will quietly erode your profit margin.

Choose PXU-C energy storage system! With its fully integrated design, the system saves valuable space and ensures fast, plug and play deployment. And it supports multiple power sources: diesel generators, photovoltaics, smart grid scheduling photovoltaics, diesel engines and power grids, achieving optimal economic operation.

 

Brand & Competitive Advantages

Easy O&M via Cloud

Remote monitoring and smart diagnostics minimize site visits and labor costs for dispersed assets.

 

Hybrid System ROI

Maximizes the use of cheap solar / DG power, optimizing fuel / utility costs.

 

Peak Shaving & Valley Filling

Smart scheduling maximizes savings on Time-of-Use tariffs and avoids demand charges.

 

IP67 Natural Cooling Battery

Unique thermal design eliminates fans and noise, resulting in zero maintenance for the battery module.

 

Technical Specifications

Technical Parameter PXU-C
Rated Power / Capacity 50 kW / 109 kWh
Battery Type CATL LiFePO₄ (306Ah)
System Architecture All-in-One: Hybrid Inverter + MPPT + Battery
Max. PV Input Power 96 kW
Cycle Life ≥10,000 Cycles
On/Off-Grid Transfer Time ≤20ms (Seamless)
Battery Cooling Natural Cooling (IP67 Module)
System Protection IP54 (System), IP67 (Battery Module)
Corrosion Protection C4 Standard (C5 Optional)
Dimensions (L×W×H) 1270×1340×2094mm
Weight ≈ 1.8T
Certifications EN 50549-1, EN 50549-10, VDE-AR-N 4105, NRS 097-2-1, IEC 61000, IEC 62477, IEC 62619, IEC62109, UN 38.3

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Frequently
Asked Questions

  • What is an Energy Storage System (ESS)?

    An Energy Storage System (ESS) is a technology or set of technologies designed to capture, store, and release electrical energy (or energy in other forms that can be converted to electricity) on demand. Its core purpose is to address the temporal and spatial mismatches between energy supply and demand—for example, storing excess energy generated during low-demand periods (e.g., midday solar production) and releasing it during high-demand periods (e.g., evening peak usage) or when supply is limited (e.g., nighttime wind lulls).

  • What are the core functions of ESS?

    ESS solves critical challenges in modern energy systems by performing five key roles:
    Peak Shaving: Reduces reliance on expensive "peak power plants" (which only operate during high-demand hours) by releasing stored energy during peak periods. This lowers electricity costs for users and grid stress. 
    Load Leveling: Smooths out fluctuations in energy supply (e.g., variable output from solar/wind) by absorbing excess energy when production is high and discharging when production drops. 
    Backup Power: Provides emergency electricity during grid outages (e.g., residential battery systems for blackouts, hospital backup ESS). 
    Grid Stabilization: Maintains grid reliability by regulating frequency (frequency response) and voltage—critical for integrating high shares of renewable energy, which can cause sudden supply swings. 
    Renewable Integration: Enables more solar and wind power to be used (instead of wasted, or "curtailed") by storing surplus energy that would otherwise exceed immediate demand.

  • What’s the Core Components of ESS?

    Battery Cells and Modules: The main energy storage units, typically based on lithium-ion chemistries such as LFP for safety and longevity.
    Battery Management System (BMS): Ensures balanced voltage and temperature across cells for optimal safety. 
    Power Conversion System (PCS/Inverter): Converts energy between DC and AC for smooth integration with loads or grids. 
    Energy Management System (EMS): Acts as the “brain” — optimizing operation, predicting consumption, and maximizing ROI. 
    Thermal & Fire-Safety Systems: Maintain safe temperature levels and comply with UL/IEC standards.

  • How Energy Storage Systems Work?

    Charging: Energy source (grid/photovoltaic/wind power) → AC → PCS (rectification) → DC → energy storage medium (storage)
    Control: EMS (decision-making)+BMS (protection) → full process linkage PCS/energy storage medium
    Discharge: energy storage medium (release) → DC → PCS (inverter) → AC → energy destination (grid/load/emergency)
    Guarantee: Auxiliary system (cooling/fire protection) → Full process safety guarantee
    Core closed-loop: AC ↔ PCS ↔ Energy storage medium ↔ PCS ↔ AC (EMS/BMS+auxiliary system escort)

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