Our work in action
A comprehensive overview of our solutions, projects, and services, highlighting the positive impact they have had on our clients.
Injectivity Decline Simulation
Modelled species transport and momentum in porous media to solve PWRI challenges using advanced PDEs.
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Computational Thermodynamic Library
Developed for accurate reservoir fluid analysis and PVT reporting.
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Well Deviation Solution
Improves tool trajectory accuracy, reducing misalignment risk and optimising field planning.
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Drilling and Intervention Planner Solution (SEPAL DIAP)
Collaborative planning platform that improves scheduling, intervention, and drilling project execution.
Read moreInjectivity Decline Simulation
Modelled species transport and momentum in porous media to solve PWRI challenges using advanced PDEs.
Background
In oil and gas operations, maintaining optimal injectivity in wells is critical for reservoir pressure management and oil recovery. Traditionally, injectivity decline analysis relied on siloed data sources, manual reporting, and limited access to real-time well performance metrics. This often led to delayed diagnostics and suboptimal mitigation strategies
Challenge
A major operator faced recurring loss of injectivity during produced water reinjection (PWRI). They equally faced the challenge of inadequate data in planning PWRI.
Solution
We developed a software to simulate injectivity decline and calculate the half-life of the injectivity process. The model solved and implemented consisted of:
- A set of partial differential equations for species (particles) transport.
- Momentum transport.
- Particle capture kinetics in porous media.
