Optimal Flows
Understanding Flow
Fluid and gas flows drive many industrial processes. Poor flow leads to energy loss, pressure swings, wear and production losses. With simulation and analysis we make these dynamics visible and controllable.
Our Approach
Using CFD and hydraulic analysis we make flows visible and predictable. We reveal inefficiencies, highlight bottlenecks and test improvements digitally first.
- Unstable pressure distribution and turbulence in piping.
- Uneven flow distribution in tanks, reactors and pumps.
- Efficiency loss due to friction, cavitation or blockage.
Applications
Our work translates directly into better design, safety and efficiency. Typical use cases include:
Fluorine-free foam systems (FFF)
Design and optimization of piping for fluorine-free foam, focusing on distribution, mixing and pressure loss.
Turbine blade optimization
CFD refines blade geometry for stable flow, higher efficiency and reduced vibration.
Surge analysis
We model pressure waves and water hammer to identify weak points and define mitigation measures.
Wind screen placement
CFD determines optimal shape and placement of wind screens to reduce loads and improve operational stability.
The outcome: stable flows, lower energy losses and predictable operation with clear impact on safety, efficiency and sustainability.