In the oil and gas industry, industrial separators are essential for removing organic building blocks of hydrocarbons and other components from the process stream. The separator vessel is the first equipment through which the material is processed. The primary purpose of a separator is to separate the different fluid phases, such as solid, oil, water, and gas, in a turbulent flow stream. Based on their functions, separators can be categorized as two-phase separators and three-phase separators. They are critical components in upstream production, especially in the oil and gas industry, for fluid protection, reliability, and ensuring high oil/water separation, etc.
Computational Fluid Dynamics (CFD) is capable of analyzing modern separator design and optimization. Components engineering with clear data-driven logic improve separator performance for long periods. Built by simulating a wide range of operational conditions and using significant parameters like flow rate, pressure, temperature, and fluid properties, CFD uncovers the key factors that actually impact performance.
Key Takeaways:
- A detailed modeling approach for upstream water separation processes (two-phase and three-phase).
- Understanding key operating parameters and flow pattern impacts on distribution.
- Proven methodology for design optimization of separator internals.
Who Should Attend:
Featured Presenters
Mr. Sarang Borude
Project Lead
Tridiagonal Solutions