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Catastrophe models will be needed in a world where the intensity and frequency (the variance) of hazardous events is ever growing, increasing population in dense areas, combined with vulnerable exposure. Insurance and Re-insurance companies must rely on advanced predictive models for a better and coordinated anticipation of the risks with accurate prediction of potential financial losses and impact. Traditional macro scale models can be combined...

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TransAT is now heavily employed in hydraulic engineering and water technology, with applications of relevance to water filtration and separation technology, dam failure induced floods, land- & rock-sliding, snow avalanches, water storage systems, coastal engineering, etc.  Various problems can be tackled, including:   Presentations Water and Environmental   [gallery link="none" size="full" ids="6820,6982,6805,6804,6806,6803"]        ...

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TransAT can be employed in the aerodynamics design of land-based and aerospace vehicles as well as the hydrodynamics design of ships and amphibian structures.  These particular flows require advanced turbulence models combined with smart meshing techniques and high-fidelity modelling approaches on scalable HPC systems. From the design of automotive exterior concepts with pre-design or detailed underbody, to HVAC systems, TransAT has shown a great flexibility....

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Thanks to its unique meshing capabilities, TransAT can be used in wind and environmental engineering applications, including urban pollution dispersion from cars, industry or even accidental gas releases. Advantages in using TransAT is two-folds: (i) rapid meshing of industrial wind engineering and pollution problems using the immersed surface technique with block mesh refinement, and (ii) advanced turbulence modelling and simulation.   Presentations Urban Physics Design   [gallery link="none" size="full" ids="6715,6711,6713,6714,6712,6717"]      ...

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TransAT can be applied to variety of waste-water types of plants: from traditional secondary clarifiers, to advanced Active Particles flocculation and ozonation systems. In traditional secondary-clarifiers systems, TransAT helps for basic dimensioning,  loading and crapping mechanism. It uses for the purpose RANS models describing turbulent non-Newtonian fluid flow pattern and sediment-induced density currents. In ozonation systems, TransAT enables a detailed analysis of the mass transfer...

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TransAT has recently been tested for various hydropower applications, and thanks to its predictive performance enhanced by its IST meshing, and its free surface module conjugated with its rigid body motion model, the results turned out to be more than just promising. Applications include the design of hydraulic machinery like water turbines, pumps, valves, and for studying the performance of paddle wheels and novel tide...

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TransAT can also tackle a series of cases in the broad energy segment, including gas and steam turbines, heat exchangers, combustion chambers, as well as to the renewable energy segmen. With the coupled heat conduction-convection-radiation module, various problems related to solar energy absorption can be solved, including solar natural convection towers. Potential applications include:   Presentations Nuclear Turbomachinery Reactive-flows   [gallery link="none" size="full" ids="6667,6668,6665,6669,6947,6948"]        ...

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TransAT is employed in chemical and process engineering, mainly for design-oriented activities. A tractable workflow modeling is offered, based on TransAT’s extended modelling capabilities for flows involving both single-phase and multiphase systems, with simple or complex rheology, involving chemical reactions. Potential practical examples in this sector include:   Presentations - Industry Process & Chemicals Pulp & Paper Flow Metering   Presentations - MicroTech Microfluidics Loop Heat Pipes   Presentations - Food...

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Our product TransAT can support operators, engineering companies and equipment suppliers in the Well & Petroleum Engineering discipline. TransAT built in multiphase-flow models (particle-laden flows, interfacial flows, mixed and dispersed flows) cover various segments in the petroleum engineering, including:   Presentations Flow Assurance Production Surface Processes Drilling & EOR Digital-Rock Subsea Plume Dispersion Risk-Management: Part 1 - Industrial Hazards Risk Management: Part 2 - Natural Catastrophes     [gallery link="none" size="full" ids="7235,7311,7312,7238,7239,7240"]        ...

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