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Products
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Hydrogen Compressor
Hydrogen Booster Compressor
Sunrise Union Hydrogen Compressor Industry Application Scenarios
Hydrogen production: In water electrolysis, low-pressure hydrogen (0.1-0.5 MPa) is compressed to 1-3 MPa for subsequent purification and storage. In industrial by-product hydrogen recovery, low-purity hydrogen is compressed to high pressure to provide a stable gas source for the purification process.
Hydrogen storage and transportation: Hydrogen is compressed to 20-50 MPa for storage in high-pressure hydrogen storage tanks or tube bundle trucks to meet gaseous transportation needs. Before liquid hydrogen production, hydrogen is compressed to high pressure (typically ≥3 MPa) to provide preconditions for the liquefaction process.
Hydrogen refueling station operations: As a core piece of equipment, it compresses low-pressure hydrogen (10-30 MPa) in hydrogen storage tanks to 35 MPa (passenger car standard) or 70 MPa (commercial vehicle standard) for rapid refueling of fuel cell vehicles via hydrogen refueling stations.
Industrial Hydrogen Applications: Providing high-pressure hydrogen for chemical, metallurgical, and other fields. For example, in ammonia synthesis, hydrogen is compressed to 15-30 MPa to ensure efficient reactions. In hydrogen power generation systems, hydrogen is compressed to a specific pressure to meet the operating requirements of fuel cells.
Why Choose Sunrise Union Hydrogen Compressor?
1, Low-leakage design ensures high-purity hydrogen: Utilizing oil-free lubrication technology (such as dry gas seals and ceramic pistons), hydrogen leakage rates are ≤ 0.001%, eliminating oil and gas contamination and ensuring output hydrogen purity of ≥ 99.999%, meeting fuel cell-grade hydrogen requirements.
2, High-pressure, stable output adapts to all scenarios: Covering a pressure range of 1-90 MPa and customizable flow rates (0.1-1000 Nm³/h), it meets both 70 MPa high-pressure filling at hydrogen refueling stations and medium- and low-pressure processes in the industrial sector. With pressure fluctuations of ≤ ±0.5%, it offers industry-leading operational stability.
3, Explosion-proof safety system to mitigate hydrogen embrittlement risks: Core components are constructed of hydrogen-embrittlement-resistant materials (such as 316L stainless steel and Monel alloy), equipped with hydrogen concentration monitoring, overpressure interlock, and emergency shut-off systems. ATEX and IECEx certified, these systems are suitable for the flammable and explosive nature of hydrogen.
4, Energy-efficient, reducing operating costs: Multi-stage compression and intercooling technology achieves an isothermal efficiency of ≥85%, saving 15%-20% compared to traditional models. A variable frequency control system dynamically adjusts energy consumption based on actual demand, making it particularly suitable for peak and off-peak load fluctuations at hydrogen refueling stations.
5, Intelligent operations and maintenance improve management efficiency: An integrated IoT platform monitors compression cylinder temperature, vibration, pressure, and other parameters in real time, enabling remote diagnostics and predictive maintenance. The modular design reduces maintenance time by 40%, minimizing the impact of downtime on production.
United for Uncompromised Performance!
