Turn Flared Gas into
Digital Gold
Deploy modular data centers directly at the wellhead. Zero routine flaring, 99.9% combustion efficiency, and monetized energy.
Digital Flare Mitigation (DFM)
A three-step engineered process to convert stranded gas liabilities into high-performance computing assets.
1. Capture & Treatment
Separators collect associated gas at the wellhead. For sour gas (H₂S), we utilize chemical scavengers (Triazine) or amine systems (FLEXSORB™) to dehydrate and sweeten the gas, preventing engine corrosion.
2. Power Generation
Treated gas fuels modular reciprocating engines. Achieving 99.9% combustion efficiency compared to ~91% for open flares, drastically reducing methane slip and VOC emissions.
3. Compute Consumption
Electricity is routed directly to on-site mobile data centers (Hash Huts/Smartboxes). The load is consistent and flexible, providing immediate monetization without grid interconnection.
Superior Economics
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Ultra-Low LCOE Generate power at $0.02 - $0.04/kWh using free waste gas, ensuring mining profitability even post-halving.
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Modular Scaling Scale from 500kW to 10MW+ rapidly. Assets are mobile and can move to new wells as depletion occurs.
Environmental Compliance
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Zero Routine Flaring Align with World Bank 2030 initiatives. Eliminate visible flames and smoke, improving community relations.
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Emission Reduction Reduce CO2e by up to 63% by converting methane (CH4) to CO2 efficiently through controlled combustion.
Success Stories
YPF & GDA
State oil giant YPF piloted 1MW gas-to-compute project. Exported gas constraints were solved by onsite mining, reducing 30% of flare volumes in the pilot block.
Read Case StudyCrusoe Energy
The pioneer of DFM deployed hundreds of modular data centers across the Bakken shale, capturing millions of cubic feet of gas daily and powering high-performance cloud computing.
Read Case Study