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Haynesville Basin
Completions optimization in the Haynesville Shale — deep, high-pressure dry gas wells across East Texas and Northwest Louisiana.
Completions optimization in the Haynesville Shale — deep, high-pressure dry gas wells across East Texas and Northwest Louisiana.
Market Context
Reservoir pressures exceeding 10,000 psi at depths of 10,500-13,500 ft TVD. Elevated treating pressures push equipment limits and make real-time friction diagnostics essential.
Operators routinely drill 10,000-15,000+ ft laterals with 40-60+ stages. Managing cluster efficiency across these deep, long wellbores requires direct acoustic measurement — surface pressure alone is insufficient.
High bottomhole pressures and deep completions mask cluster-level flow distribution. Without direct measurement, operators cannot distinguish between uniform and dominant-cluster flow regimes.
Proximity to Gulf Coast LNG terminals drives sustained drilling activity. Maximizing per-well recovery through optimized completions directly impacts project economics in this high-cost play.
Technology
Deep laterals with high treating pressures make flow distribution invisible from surface data alone. SAFA provides direct acoustic measurement of perforation friction and cluster flow — giving operators stage-level diagnostics across high-pressure Haynesville completions.
Learn about SAFA →High treating pressures and deep wellbores leave little margin for error. CLF measures, analyzes, and prescribes corrective interventions intra-stage — managing friction in real time and maintaining flow uniformity across extended Haynesville laterals.
Learn about CLF →Dense pad development in the Haynesville creates frac-hit and inter-well communication risk. Wellbore Integrity quantifies near-field connectivity index across offset wells — enabling proactive interference management on multi-well pads.
Learn about Wellbore Integrity →See how Seismos delivers completions optimization in the Haynesville Shale.
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