Hydrogen for Oil Refining & Steel Production

BLOOH Solution delivers on-site green hydrogen for heavy industry, integrating hydrogen into refining, metal processing and chemical conversion while coupling it with carbon capture, utilization and storage (CCUS). The result: lower emissions, higher efficiency, and a practical path to cleaner operations in oil refining and steelmaking.

On-Site Hydrogen Production

Modular, scalable PEM electrolysis systems produce green hydrogen where it’s used—reducing logistics, enabling continuous supply, and supporting process heat and hydrogen-ready unit ops in refineries and mills.

Hydrogen Generator — Technical Specifications

• • Electrolysis: Proton Exchange Membrane (PEM)
• • Max H₂ production capacity: up to 2000 Nm³/h
• • Operating pressure: up to 40 bar
• • Efficiency: >85 %
• • Hydrogen purity: >99.999 %
• • Power consumption: <3.5 kWh/Nm³ H₂
• • Water consumption: ~4–5 L per Nm³ H₂
• • Operating temperature: 5–45 °C
• • Maintenance: <0.5 h/day
• • Lifetime: >20 years; low lifetime cost
• • Control system: advanced control with remote monitoring
• • Safety: automatic shutdown, H₂ sensors, pressure-relief valves
• • Install: clean/dry space; water, electricity, compressed air
• • Certifications: CE, CSA, UL

CCUS System — Technical Specifications

• • Carbon capture efficiency: >90 %
• • Carbon utilization efficiency: >80 %
• • CO₂ purity: >95 %
• • Pressure: up to 40 bar
• • Operating temperature: 50–150 °C
• • Storage capacity: 1–10 million t CO₂/yr
• • Energy penalty: low; designed for reliability with minimal downtime
• • Lifetime: >20 years

Hydrogen Storage — Technical Specifications

• • Capacity: up to 5000 Nm³
• • Pressure: up to 1000 bar
• • Efficiency: >95 %
• • Operating temperature: −40 to 80 °C
• • Lifetime: >20 years
• • Materials: advanced options (e.g., metal hydrides, carbon nanotubes)
• • Integration: designed to pair with generator & CCUS; compact footprint; minimal maintenance

BLOOH Solution’s integrated stack—PEM generation, CCUS and hydrogen storage—gives refineries and steel plants a direct route to emission cuts while improving process flexibility and long-term energy resilience.