Main research areas
The Institute of Thermal Turbomachines conducts research in a wide variety of areas. Below you will find an overview of the current and past research focuses since 2020.
| Research focus | Contact | Research group | |
|---|---|---|---|
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Adaptive sealing systems | Air and Oil System |
|
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Film cooling in gas turbines and aircraft engines | Heat transfer and cooling methods. |
|
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Coupling of SPH and FV | Combustion and two phase flow |
|
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Cooling of turbine platforms | Heat transfer and cooling methods. |
|
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Cooling of turbine rotor blades | Heat transfer and cooling methods. |
|
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Lean combustion chamber for aircraft engines | Combustion and two phase flow |
|
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Modeling Reactive Transport Phenomena in Gas-Liquid Contact Reactors with Smoothed Particle Hydrodynamics | Machine intelligence in energy systems |
|
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Multiscale numerical modeling and optimization of the effect of the cooling lubricant during gear skiving | Air and Oil System |
|
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Optimization of the oil supply in engine storage chambers | Air and Oil System |
|
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Spatial adaptivity in SPH | Combustion and two phase flow |
|
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Atomization | Combustion and two phase flow |
| Research focus | Research group | |
|---|---|---|
 |
Brush seals | Air and Oil system |
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Film cooling of blade sidewalls | Heat transfer and cooling methods. |
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Urea injection for NOx emission control | Combustion and two phase flow |
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AI-supported investigation of the turbulence-granulate interaction | Machine intelligence in energy systems |
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Labyrinth seals | Air and Oil system |
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Low-cycle fatigue phenomena on engine components | Heat transfer and cooling methods. |
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Oil jet-gear interaction / injection cooling | Air and Oil System |
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Wall shear stress measurement using liquid crystal technology | Heat transfer and cooling methods. |
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Vortex and gas-liquid interface dynamics in multiphase flows | Combustion and two phase flow |
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Increased efficiency for centrifugal fans | Hydraulic turbomachinery |