Industrial applications of Multi-Phase Flows CFD Analysis Multi-Phase Flows CFD Analysis

The tools such as Ansys Fluent, Siemens Star-ccm+ and OpenFoam, can be used in combination with experienced engineers to provide a wide range of services to meet the industrial needs of various sectors that needs Multi-Phase Flows CFD Analysis.

Our multi-phase flows CFD services include:

• ▶ Fluid Spray Design and Optimization: CFD can be used to optimize the design of fluid sprays for various industrial applications, including combustion, cooling, and cleaning.
• ▶ CFD Simulation of Sand Erosion: CFD can be used to simulate sand erosion in pipes carrying multiphase mixtures of oil and gas, helping to optimize the design of piping and other components to minimize the risk of erosion damage.
• ▶ Particulate Tracking and Concentration: CFD can be used to simulate the behavior of particulate matter in fluids and optimize the design of equipment to minimize the concentration of particulate matter.
• ▶ Internal Combustion Engine Performance: CFD and FEA can be used to simulate and optimize the performance of internal combustion engines, including fuel economy and emissions performance.
• ▶ Reacting Flows and Fuel Injection System Optimization: CFD can be used to optimize the design of reacting flows and fuel injection systems for various industrial applications, including combustion engines and chemical reactors.
• ▶ Mixing Tank and Bioreactor Performance: CFD can be used to simulate the performance of mixing tanks and bioreactors, helping to optimize the design of these systems for various industrial applications, including chemical processing and biofuel production.
• ▶ Nonlinear Oceanic/Sea Waves Analysis: CFD and FEA can be used to simulate and analyze the behavior of moored and/or connected systems, complex offshore, naval and marine structures subject to nonlinear oceanic/sea waves, including free surface flows.
• ▶ Water-Landing Scenarios for UAVs: CFD and FEA can be used to simulate water-landing scenarios for unmanned aerial vehicles (UAVs), helping to analyze the probabilistic damage and real-world performance of these systems.
• ▶ Cavitation and Structural Integrity: CFD and FEA can be used to simulate cavitation and its transient effects on structural integrity and fatigue life, helping to optimize the design of equipment to minimize the risk of damage.