Ensures comprehensive reservoir and well planning data capture, warehousing and management of the minimum required completion design parameters and allow systematic generation of high quality well completion architecture schematics for review and design integrity quality assurance.
Provides a shortlist of commercially available clear brine fluid systems for use as the primary completion fluid based on a set of conventional technical design criteria including density requirement, physical stability, compatibility with downhole materials and reservoir fluids.
This system offers high-performance tubing design and analysis which allows the determination of the stresses, movements, and design factors that occur due to the applied load conditions on tubular strings to ensure the completion string will operate within established integrity limits to prevent downhole mechanical failures; applications include thermal modelling of produced/injected fluids, Life-of-Well load modelling and Torque & Drag analysis.
Perform quantitative estimation of corrosion and erosional rates of carbon steel tubulars and the selection of corrosion resistant alloy and non-metallic material utilized in manufacture of downhole completion equipment with reference to defined wellbore and environmental parameters based on extensive industry field experience and the latest NACE MR0175/ISO 15156 prescribed limits.
Generate diverse scope of validated reports in various formats including standardized Well handover documents, End-of-Well reports, Statement of Requirements and highly visual completion schematics.
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