Laboratory Hydrogen Booster System

For university laboratories, hydrogen energy research institutes, scientific research labs, reactor testing systems, and laboratory hydrogen pressurization applications.

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Laboratory Hydrogen Booster System

introduction du produit

The Hydrogen Booster System is designed for laboratory hydrogen pressurization applications where low-pressure hydrogen needs to be boosted to the required pressure before entering a reactor. It uses a pneumatic booster pump to pressurize hydrogen, helping laboratories achieve stable pressure supply with lower energy consumption than electric boosting methods.

Model MGS-OMD40-P is suitable for scientific research laboratories, university laboratories, and hydrogen energy research institutes that require precise hydrogen pressure control for experimental systems.

Compared with electric boosting equipment, this laboratory hydrogen gas booster system helps reduce energy consumption, lower operating noise, and avoid secondary contamination of the gas medium during the boosting process.

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Description du produit

The Laboratory Hydrogen Booster System is used to increase hydrogen pressure through a pneumatic gas booster pump and deliver the pressurized hydrogen into a reactor. It is developed for laboratory projects where energy efficiency, clean gas handling, and stable output pressure are important.

For hydrogen research environments, electric boosting systems may consume more energy and may create concerns about medium contamination. This pneumatic hydrogen booster system provides an alternative solution with lower energy use, accurate output pressure control, lower noise, and no secondary contamination to the gas medium.

The system can be selected according to inlet pressure, required outlet pressure, reactor pressure demand, installation space, and laboratory operating conditions. For project quotation, buyers should provide the hydrogen source pressure, target pressure, reactor connection requirements, and any control or safety requirements.

Technical Point Provided Specification / Feature Buyer Benefit
Type de produit Laboratory Hydrogen Booster System Designed for hydrogen pressurization before reactor use
Modèle MGS-OMD40-P Provides a clear reference model for inquiry and selection
Boosting Method Pneumatic Booster Pump Helps reduce energy consumption compared with electric boosting
Gas Medium Hydrogen Suitable for hydrogen-related laboratory and research applications
Minimum Gas Inlet Pressure 15 bar Supports laboratory hydrogen boosting from the provided inlet pressure condition
Maximum Gas Inlet Pressure 320 bar Allows selection based on high-pressure hydrogen source conditions
Maximum Allowable Gas Outlet Pressure 320 bar Supports high-pressure hydrogen supply for reactor-related experiments
Main Applications Research laboratories, university laboratories Matches scientific research and hydrogen energy testing environments

Functions And Characteristics

  • Supports Hydrogen Pressurization For Laboratory Reactor Feeding Applications
  • Uses A Pneumatic Gas Booster Pump To Boost Low-Pressure Hydrogen To The Required Pressure
  • Model MGS-OMD40-P Designed For Scientific Research And University Laboratory Use
  • Minimum Gas Inlet Pressure Is 15 Bar According To Provided Product Data
  • Maximum Gas Inlet Pressure And Maximum Allowable Gas Outlet Pressure Are Both 320 Bar
  • Helps Reduce Energy Consumption Compared With Electric Hydrogen Boosting Methods
  • Provides Precise Output Pressure Control For Experimental Hydrogen Supply
  • Low-Noise Operation Supports A More Suitable Laboratory Working Environment
  • Oil-Free Gas Boosting Process Helps Avoid Secondary Contamination Of The Hydrogen Medium
  • Suitable For Hydrogen Energy Research Institutes And Laboratory Gas Pressure Systems

 

Avantages du produit

1. Pneumatic Boosting With Lower Energy Consumption

The system uses a pneumatic booster pump to pressurize hydrogen, helping reduce energy consumption compared with electric boosting methods in laboratory applications.

2. Precise Output Pressure Control

The hydrogen booster system is designed to support accurate output pressure control, which is important for reactor feeding and controlled laboratory experiments.

3. No Secondary Contamination To The Gas Medium

The boosting process helps avoid secondary contamination of the hydrogen medium, making it suitable for research environments where gas cleanliness is important.

4. Suitable For Laboratory Reactor Applications

The system is designed to boost hydrogen to the required pressure before entering a reactor, matching the needs of scientific research laboratories and university laboratories.

5. Lower Noise For Laboratory Environments

Compared with heavy electric boosting equipment, the system is positioned for lower-noise operation, helping create a more suitable working environment for laboratory users.

6. High-Pressure Capability Up To 320 Bar

According to the provided product data, the maximum allowable gas outlet pressure is 320 bar, supporting high-pressure hydrogen supply requirements in qualified laboratory systems.

 

Les avantages de notre entreprise

Highlight se concentre sur la conception et la fabrication d'équipements d'essai de pression et de systèmes d'essai de contrôle des fluides, en prenant en charge à la fois les modèles standard et la personnalisation en fonction des projets.

  • Plus de 16 ans d'expérience dans le domaine des équipements d'essai de pression et des systèmes de surpression pneumatique
  • Capacité de production annuelle : plus de 1000 équipements
  • Plus de 8000 clients servis
  • Mise en œuvre d'une gestion de la qualité basée sur la norme ISO9001 et contrôle stable de la fabrication
  • Une solide équipe d'ingénieurs pour la configuration des bancs d'essai, l'adaptation des montages et l'assistance technique.
  • Expérience de l'exportation dans l'assistance aux acheteurs internationaux en matière de communication et de documentation techniques

 

Customization Options

For customized laboratory hydrogen pressurization projects, the following details should be confirmed:

  • Hydrogen inlet pressure
  • Required outlet pressure
  • Reactor connection requirements
  • Gas flow requirement
  • Operating frequency and working cycle
  • Pneumatic drive source condition
  • Pressure control and monitoring requirements
  • Installation space and system layout
  • Required valves, gauges, fittings, and safety components
  • Documentation or project-specific requirements
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