Market - Hydrogen Mining Sites Safety

SOUR GASES: Safety for EXPLORATION & PRODUCTION

Anticipate Sour Gases Bazards Before They Threaten Your Workforce and Your Production

Predict sour gases formation in exploration and simulate its propagation in production. Protect your workforce, your assets, and your production capacity by turning one of the industry's most dangerous and costly hazards into a modeled, manageable risk.

Needs

Predictive H₂S & CO₂ modeling: Anticipate where sour gases form, migrate, and accumulate before drilling, rather than discovering it once a well is already producing.
Operational safety: Protect workers, equipment, and surface facilities from one of the industry's most toxic and corrosive hazards.
Production scenario planning: Simulate how field operations - such as water injection on one well - could trigger H₂S generation in neighboring wells, before committing to a decision.
Asset and CAPEX protection: Reduce the risk of sour gas surprises that force costly metallurgy upgrades, well abandonment, or unplanned facility redesigns.
Integrated subsurface intelligence: Combine geological, geochemical, and operational data into a single coherent framework supporting safe exploration and production decisions.

current situation

Reactive detection only: Existing workflows rely on detecting H₂S once it is encountered at the wellhead: no commercial platform predicts where it forms in the subsurface during exploration phase.
Static risk assessment: Operators rely on offset well analogs and post-mortem analysis rather than dynamic, scenario-based modeling, leaving them exposed in frontier and unconventional plays.
Siloed production decisions: Reservoir engineers optimize individual wells without the ability to model how their interventions (water injection, pressure changes, EOR) may generate or mobilize H₂S in neighboring wells.

Our solution

IORIGIN is the only solution that predicts H₂S formation in the subsurface before drilling, and the only one that simulates how field operations - water injection, pressure changes, or enhanced recovery - could trigger sour gas generation in neighboring wells during production.
Where existing workflows rely on reactive detection and single-well analysis, IORIGIN delivers an integrated view across the full exploration-to-production lifecycle, turning hydrogen sulfide from an unpredictable hazard into a modeled, manageable risk that protects workforce, assets, and long-term production economics.