Hydrogen Cooling | Parker
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Efficient thermal management is crucial for hydrogen systems, ensuring optimal performance and safety. Advanced cooling solutions maintain precise temperature control, enhance efficiency, and extend equipment lifespan, facilitating reliable operations in various applications. Explore innovative thermal management technologies designed specifically for hydrogen production and utilisation. See thermal management solution in action.

Hydrogen Container Air Blast Cooler

Parker's new QDC080 fuel cell cooler offers up to 150 kW cooling capacity, designed for efficient cooling and ventilation of hydrogen containers. Easy to commission, it reduces complexity and enhances overall efficiency. Watch the animation video to discover more about this innovative Hydrogen Container Air Blast Cooler solution!

Unique Cooling Solution

Technology Meets Application Challenges

  • 30-40 % lower space claim
  • Increased efficiency
  • Reduced complexity
  • Fan drive reversible for easy cleaning
  • Option for inside container installation
  • Simplified commissioning
  • Container remains stackable
  • Reduces the temperature inside the container
  • Can be used for ventilation 
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High-performance Air Blast Cooler QDC080

  • Highly efficient cooling on demand up to 150 kW cooling capacity
  • Modular design
  • Air flow reversible with up to 50 % flow rate to clean the matrix
  • Heat exchanger optimized for W/G flushed to 5 µS/cm
  • High static air pressure up to 800 Pa from the fan
  • Air flow controllable from 1 m³/s up to 10 m³/s
  • Swing open the fan system to clean the heat exchanger
  • Harmonized with coolant filter and Ion exchange filter
  • Air fins with highly efficient waves design
  • Parker optimized turbulator in the head exchanger
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Digital Twins

Optimise H2 Stack Cooling with Digital Twins

In hydrogen stack cooling, Digital Twins provide an invaluable virtual representation of cooling systems, allowing for precise monitoring and optimization of performance. By analyzing real-time data, you can enhance cooling efficiency, minimize energy consumption, and prevent costly downtime. Leveraging this technology ensures that hydrogen stacks operate at peak efficiency, contributing to overall system reliability and sustainability.

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Applications

The Hydrogen Electrolyser Cooling

To minimize energy consumption in cooling processes, reduce cooler footprint, and lower costs, the High Power QDC080 is the ideal solution. Featuring a water-glycol mix, a speed-controlled fan, and a reverse-spinning option, it delivers efficient cooling tailored to these needs. Explore our Hydrogen Visual Selector to find solutions for optimizing your electrolysers.

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The Hydrogen Fuel Cell Container Solution

If your goal is to enhance energy efficiency in cooling processes, decrease the space required for coolers, and ultimately reduce costs for fuel cell container solutions, the High Power QDC080 is an excellent choice.

Challenge:
- Precise temperature control
- Low conductivity in the coolant circle
- Substitute, Ventilation, Container Cooling and Subsystem Cooling

Our technology
- High Power QDC080 for water glycole mix, speed-controlled fan with reverse  spinning option
- Matrix with low conductivity level after flushing with test report 
- Air Filter from Parker to make the ventilation clean and safe

Value
- Cooling on Demand reduce Power Consumption
- On Stop Shop Parker reduce complexity, engineering resources and time to market

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