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  • Comprehensive Safety Protection
    Comprehensive Safety Protection
    Vision ensures system reliability with high-safety materials, multi-layer module protection, and stable control systems.
  • All-Temperature Monitoring
    All-Temperature Monitoring
    Real-time thermal monitoring with early warnings and preventive actions to avoid safety incidents.
  • Full Lifecycle Monitoring
    Full Lifecycle Monitoring
    Battery Management System (BMS) continuously tracks and reports battery status, enhancing overall system safety.
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  • Integrated Power
    Integrated Power
    Compact structure, smaller footprint, easy installation to meet fast deployment needs.
  • Modular Design
    Modular Design
    Flexible expansion and maintenance, reducing system failure risks and improving O&M efficiency.
  • High Integration
    High Integration
    Combines power supply, monitoring, and cooling functions, simplifying system setup and enhancing overall reliability.
  • Intelligent
    Intelligent
    Supports remote monitoring and smart alerts for full lifecycle power system management.
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  • Smart Management Module with Real-Time Monitoring
    Smart Management Module with Real-Time Monitoring
    Built-in BMS enables real-time battery status tracking and early fault prevention.
  • High Safety & Wide Temperature Adaptability
    High Safety & Wide Temperature Adaptability
    Stable performance under extreme conditions ensures equipment safety.
  • Reusable & Pollution-Free
    Reusable & Pollution-Free
    Eco-friendly design supports sustainability with recyclable materials.
  • Long Cycle Life
    Long Cycle Life
    Durable and reliable for frequent, long-term use, reducing replacement costs.
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  • Safe & Reliable
    Safe & Reliable
    Long battery lifespan design with full-lifecycle diagnostics ensures stable operation
  • Smart & Efficient
    Smart & Efficient
    Real-time precise thermal control minimizes cell temperature differences, enhancing lifespan
  • Highly Integrated
    Highly Integrated
    Modular design adaptable to various scenarios
  • Easy Maintenance
    Easy Maintenance
    OTA updates, mobile app management, and cloud-edge collaboration
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Hydrogen Full CellFuel Cell StackW1.5T Metal Fuel Cell Stack
W1.5T Metal Fuel Cell Stack
W1.5T Metal Fuel Cell Stack
W1.5T Metal Fuel Cell Stack
W1.5T Metal Fuel Cell Stack

W1.5T Metal Fuel Cell Stack

  • Overview:
    The W1.5T metal fuel cell stack uses titanium material for its metal bipolar plates, offering an ultra-long service life. The stack power ranges from 120 to 170 kW and is widely applicable to passenger vehicles and commercial vehicles. Additionally, by connecting multiple stacks in series and parallel, it can be extended for marine applications.
    The key distinguishing feature of this stack compared to competitors is its detachable, integrated single-cell design.

  • Application Scenarios:
    Transportation: passenger vehicles, aircraft (eVTOL), ships, etc.
    Industrial: energy storage
    Building: distributed power generation, combined heat and power (CHP) systems

Battery Quick Facts

  • Current Range
    Current Range
    0~810A
  • Voltage Range
    Voltage Range
    204~333.2V
  • Rated Power
    Rated Power
    164kW
  • Design Life
    Design Life
    ≥20000h
  • Cold Start Temperature
    Cold Start Temperature
    -40℃
  • Power Density (by Volume)
    Power Density (by Volume)
    7.0kW/L

Key Features

  • High Power Density
    Peak volumetric power density of 7.0 kW/L and gravimetric power density of 7.4 kW/kg, ranking among the global leading tier. Offers rapid response capability, enhancing the driving experience.
  • Lightweight Construction
    Titanium has only 56% of the density of stainless steel, reducing system weight and energy consumption, which is especially beneficial for applications with stringent weight requirements.
  • Long Lifespan
    The fuel cell stack has a lifespan of ≥20,000 hours, featuring low metal ion dissolution. Ti⁴⁺ ions are less harmful to the membrane electrode assembly than Fe²⁺ ions. The titanium material of the metal plates offers excellent coolant resistance, reducing stack failure rates and better meeting users’ demands for long-lasting performance.
  • Integrated Single-Cell Design
    Facilitates diagnosis and isolation of failed individual cells. The stacked design achieves high efficiency and enables recycling of plates and membrane electrodes, lowering after-sales maintenance costs. Compared to metal bipolar plates, it eliminates corrosion issues at welding points.
  • -40°C Start Without Auxiliary Heating
    Excellent low-temperature performance simplifies the system by reducing the need for PTC heaters, thereby lowering overall system costs.
  • Cathode Self-Humidification


    Simplifies the system by reducing the need for humidifiers, further decreasing costs.

Industry Applications

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