Unlock the Power of CFD

Innovative solutions for complex fluid dynamics challenges.

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Our Expertise in CFD

Fluid Surface Interaction

Fluid-Surface Interaction

Optimize designs by simulating interactions between fluids and solid surfaces for better performance and safety.

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Additional Details: Fluid-Surface Interaction studies help in predicting flow separation, wall shear stress, and pressure distribution, which are critical for optimizing designs of vehicles, pipelines, and other equipment in various industries. Advanced simulations can also model erosion and deposition rates on surfaces, ensuring better durability and reduced maintenance costs.

Conjugate Heat Transfer

Conjugate Heat Transfer

Simulate combined conduction and convection for accurate heat transfer modeling between solid surfaces and fluids.

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Additional Details: Conjugate Heat Transfer (CHT) allows engineers to analyze thermal behavior across fluid and solid domains. This is vital for applications like cooling systems in electronics, heat exchangers, and HVAC systems. Our simulations provide detailed insights into temperature gradients, thermal stress distribution, and optimize cooling strategies for enhanced energy efficiency.

Electromagnetics and Fluid Flow

Electromagnetics and Fluid Flow

Advanced simulations of electromagnetic devices interacting with fluid flow for innovative engineering solutions.

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Additional Details: Our simulations of electromagnetics and fluid flow focus on the effects of magnetic fields on conductive fluids, such as in magnetohydrodynamic (MHD) generators or electromagnetic pumps. Understanding these interactions is key for optimizing processes in nuclear fusion reactors, metal casting, and electromagnetic braking systems.

Combustion and Reacting Flows

Combustion and Reacting Flows

Optimize combustion systems and reacting flow processes for energy efficiency and reduced emissions.

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Additional Details: We provide comprehensive simulations for combustion processes, including chemical kinetics, turbulence-chemistry interactions, and pollutant formation. This allows for the optimization of burners, engines, and industrial furnaces, achieving higher efficiency and meeting environmental regulations for emissions.

Multiphase Flows

Multiphase Flows

Model complex multiphase flow systems including droplet dynamics, bubble flows, and thin liquid films.

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Additional Details: Our expertise in multiphase flows allows us to simulate interactions between different phases, such as liquid-liquid, liquid-gas, and solid-liquid flows. This is essential for applications in oil and gas, chemical processing, and pharmaceuticals, where phase separation and mixing efficiency are critical factors.

Fuel Cells

Fuel Cells

Improve fuel cell designs to meet energy demands with high efficiency and low carbon footprints.

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Additional Details: Our CFD simulations help optimize the design of fuel cells by accurately modeling fluid flow, temperature distribution, and chemical reactions within the cells. This ensures better performance, longer life, and lower costs for fuel cell systems used in automotive, stationary, and portable power applications.