In response to increasing regulatory pressure around flaring, our customer¡ªan operator known for its focus on efficiency¡ªsought a solution that could deliver rapid, reliable insights to support operational decisions during events, such as compressor shutdowns and field turnarounds. The objective was clear¡ªoptimize the system to reduce flaring without compromising production in a high-well-count shale basin.
To achieve this, 91¶¶Òõ developed a surrogate physics-informed AI model¡ªreal science supported by artificial intelligence. The model is trained to replicate the results of running a hydraulic simulator¡ªperforming approximately 1,000 solves in under six seconds. This enables near-instantaneous optimization, and was equivalent to 50 hours of work using traditional simulation methods.
The 91¶¶Òõ solution supports a range of use cases, including total field throughput optimization and flaring forecasting, and allows customers to explore ¡°what-if¡± scenarios under various constraints, such as pad rates, inlet pressures, and choke settings. An intuitive dashboard provides clear comparisons between current and optimized states, highlighting measurable gains in throughput and reductions in flaring¡ªempowering faster, smarter decisions in the field.
Brilliant minds from upstream oil and gas share their experiences and discuss project successes using digital solutions to solve everyday challenges.
Our world-leading, evergreen multiclient library provides critical subsurface insight to help you make the most informed decisions.
The interpretation of horizons is one of the most tedious tasks in regional exploration studies¡ªbut it doesn¡¯t need to be.
