Flow assurance discipline involves designing and analysing the thermohydraulic behaviour of hydrocarbon fluids in pipelines and process equipment to ensure uninterrupted production and revenue flow. Whether you are dealing with crude oil transportation, wet gas transportation or gas transmission pipelines in the onshore or offshore environment, the need to assure that the fluid arrives at its destination safely and efficiently without halting production is critical to the profitability of the assets. The participant would be learning how to carry out flow assurance study and analysis for typical field development and hydrocarbon pipeline system. The training would start with the theoretical basis of flow assurance to give the participant a firm grasp of the fundamental principle upon which design and analysis in flow assurance study are rooted in. The participants would then be exposed to applying the fundamental concepts in actual flow assurance study using case studies and calculations exercises.
The training would be delivered by a team of experts with a sound understanding of oil and gas fluid flow behaviour—multiphase flow and production chemistry with the experience of applying the fundamental understanding in delivering flow assurance studies using spreadsheet calculations and commercial modelling software.
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Module |
Title |
Description |
Duration |
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FA101 |
Introduction |
Understanding flow assurance risk through case studies—to motivate participants. Flow assurance scope through project lifecycle: Concept, FEED, Detailed design, operations, and optimisation. Flow assurance interface with other technical disciplines |
One day Day—1 |
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FA102 |
Fluid physical properties and PVT analysis |
Fluid sampling, phase behaviour of hydrocarbon fluids, equation of states, introduction to fluid characterisation. PVT analysis of hydrocarbon fluid. Application in flow assurance analysis. Case study exercise
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FA103 |
Production chemistry |
Analysis, prediction models. remediation, prevention of the following production chemistry challenges: hydrates, waxes and asphaltenes, scales, corrosion, and emulsions. Case study exercise
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FA104 |
Hydraulic analysis
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Single-phase flow, multiphase flow—Flow regime, flow regime prediction and flow regime maps. Flowline sizing— (Single-phase flow and multiphase flow). Multiphase flow correlations and pressure drop predictions, surge analysis/water hammer effects and understanding the effect of emulsion on crude oil viscosity and pumping requirement. Case study exercise
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One day Day—2 |
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FA105 |
Thermal analysis |
Heat transfer, prediction of the temperature profile along the flowline and thermal management strategy—Case study exercise |
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FA106 |
Flow assurance deliverability and operability
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Transient scenarios: start-up, ramp-up, shutdown, cooldown, chemical injection, slug flow mitigation and control, pigging operations, sand control, and depressurisation Case study 1—FA considerations in the design of: Crude oil export pipeline and Wet gas pipeline Case study 2— Developing operational guidelines
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One day Day—3 |
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FA107 |
Flow measurements impact on flow assurance |
Measurement of fluid flow, measurement of chemical injection rate, and gas lift rates. Case study exercise
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FA108 |
Flow assurance commercial modelling tools
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Understanding the capability of the tools, application, and limitations
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