Hydrogen & Clean Energy Service
Application Specification

Globe Valves for Hydrogen & Clean Energy Service

Forged SS 316L ball valves, needle valves, globe valves, and safety relief valves for green hydrogen generation, compression, storage, and fuel cell supply - ASME B31.12, ISO 19880.

Which globe valves are used for hydrogen & clean energy service?

Green hydrogen production (from electrolysis), compressed hydrogen storage, hydrogen fuelling stations, and power-to-gas applications require valves engineered specifically to handle hydrogen's unique properties: extremely small molecular size (leading to high permeation and fugitive emission risk), hydrogen embrittlement susceptibility in certain steel grades, wide flammability range (4–75% in air), and in high-pressure applications, adiabatic heating on rapid depressurisation. ASME B31.12 Hydrogen Piping and Pipelines and ISO 19880 Gaseous Hydrogen Stations are the key standards.

Globe Valve (Throttling / Control)

Hydrogen flow control on electrolyser outlet, compressor bypass, and pipeline pressure regulation

MaterialsA182 F316L forged or A351 CF3M cast, PTFE packing, SS 316 trim
Pressure ClassClass 300 / 600 / 900
StandardsASME B31.12, ASME B16.34, API 623

Critical Requirements

  • Hydrogen embrittlement resistance - avoid susceptible materials: high-strength carbon steel (yield >620 MPa), plated or coated surfaces with hydrogen permeation risk
  • Fugitive emission control (ISO 15848-1 Class A) - hydrogen's small molecule size makes it the most likely gas to leak; zero tolerable leakage
  • PTFE or PEEK seats - avoid NBR (Buna-N) and fluorosilicone which may be damaged by hydrogen pressure cycling
  • ATEX certification for actuators and electrical components in hydrogen hazardous areas (Zone 1/2)
  • No copper, zinc, silver, or cadmium-plated components in contact with hydrogen - risk of stress corrosion in certain conditions
  • Fire-safe design (API 607) - hydrogen has extremely wide flammability range (4–75%) and burns with invisible flame

Service Challenges

  • Hydrogen embrittlement - atomic hydrogen dissolves into steel and causes loss of ductility; forged austenitic SS 316L and Inconel alloys are preferred
  • Hydrogen permeation - tiny H₂ molecule permeates through elastomers and polymers; PTFE and PEEK are the most resistant seat materials
  • Rapid gas decompression (RGD) - high-pressure hydrogen release can cause explosive decompression in seals; NORSOK M-710 / ISO 23936-1 RGD-tested elastomers required
  • Wide flammability range (4–75% in air) - any ignition source in hydrogen-rich atmosphere is hazardous; anti-static valve design mandatory
  • Cryogenic hydrogen (−253°C for liquid H₂) - requires stainless steel or aluminium alloys; special extended bonnet cryogenic design

Vajra Globe Valves

Precision globe valves for throttling, flow regulation, and frequent operation.

See the full Globe Valves range

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Reviewed by Product Engineering, Vajra Industrial SolutionsDiscipline: Valve Product EngineeringLast reviewed: 20 June 2026

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