The fundamental understanding of droplet dynamics is the critical prerequisite to the prediction of natural processes and the optimization of technical systems. Many of these processes happen under extreme ambient conditions - e.g. high pressure or extreme temperatures - and can already be found in technical applications, despite the absence of fundamental knowledge. This is exactly where the new Collaborative Research Center focuses on. The goal is to gain a profound physical understanding of the essential processes. This understanding is the basis for new ways of analytical and numerical descriptions. Thereby, an improved prediction of large systems in nature or in technical applications shall be possible.
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1 to 10 of 18 Results
Subarea B6(Universität Stuttgart)
Nov 5, 2021
Droplets under gradients of temperature and velocity by atomistic simulation
Subarea B5(Universität Stuttgart)
May 10, 2021
Modeling and simulation of the flash evaporation of cryogenic liquids
Subarea B4(Universität Stuttgart)
May 10, 2021
Experimental investigation of transient injection phenomena in rocket combusters at vacuum with flash evaporation
Subarea B3(Universität Stuttgart)
May 10, 2021
Modeling and simulation of droplet evaporation in different gas environments under supercritical conditions
Subarea A - Associated(Universität Stuttgart)
May 10, 2021
Development and application of new thermodynamic models for interfaces based on classical density functional theory
Subarea A4(Universität Stuttgart)
May 10, 2021
Molecular dynamics simulations of droplet evaporation in the non-linear response regime
Subarea A2(Universität Stuttgart)
May 10, 2021
Development of numerical methods for the simulation of compressible droplet dynamic processes under extreme conditions
Subarea A1(Universität Stuttgart)
May 10, 2021
Interactive visualization of droplet dynamic processes
Subarea C1(Universität Stuttgart)
May 10, 2021
Numerical simulation of the transport processes during drop impingement onto heated walls with special consideration of the evaporating three-phase contact line
Subarea C2(Universität Stuttgart)
May 10, 2021
High resolution measurements of heat transfer during drop impingement onto a heated wall with particularly consideration of evaporation at the 3-phase contact line
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