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What we do

CFD Simulations

We drive innovation and accelerate product development cycles with our cutting-edge simulation services, leveraging advanced techniques to explore new concepts and bring groundbreaking ideas to market faster.

Process Optimization

We optimize industrial processes with our simulation-driven approach, pinpointing inefficiencies and proposing targeted optimizations for enhanced productivity and cost reduction.

Model Development

We develop tailored simulation models to meet your specific needs, capturing the intricacies of your systems and facilitating informed decision-making with accurate insights.

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Particle-based CFD

Particle-based Computational Fluid Dynamics (CFD) represents a promising advancement in fluid flow simulations. Unlike traditional mesh-based methods, particle-based CFD represents fluid as individual particles, offering exceptional accuracy and versatility. With its ability to handle complex geometries, moving boundaries, and multiphysics phenomena, particle-based CFD is quickly becoming a preferred solution for engineers and scientists tackling challenging fluid dynamics problems.

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Advantages

Handling Complex Geometries

Particle-based CFD excels at simulating fluid flow in complex geometries and around moving boundaries without the need for mesh generation or remeshing. This makes it particularly suitable for modeling dynamic and transient flow phenomena.

Scalability and Parallelization

Particle-based CFD offers superior scalability and parallelization compared to mesh-based methods. By distributing particles and simulating them independently, it can leverage parallel computing architectures effectively, resulting in significant speedups for large-scale simulations.

Multiphysics Capabilities

Particle-based CFD seamlessly integrates with multiphysics simulations, allowing for the simultaneous modeling of fluid flow with other physical phenomena such as heat transfer, chemical reactions, and fluid-structure interaction. This makes it a versatile tool for studying complex engineering problems involving multiple physical processes.

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