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Fingerprint Dive into the research topics where Marcus Herrmann is active. These topic labels come from the works of this person. Together they form a unique fingerprint.

Engineering & Materials Science

Atomization
Liquids
Phase interfaces
Surface tension
Large eddy simulation
Computer simulation
Direct numerical simulation
Combustors
Fluids
Drop breakup
Numerical models
Fluxes
Geometry
Porous materials
Air
Two phase flow
Propane
Advection
Flow of fluids
Reynolds number
Physics
Atomizers
Gases
Liquid fuels
Engines
Methane
Vortex flow
Navier Stokes equations
Numerical methods
Petroleum pipelines
Hemodynamics
Phase transitions
Gas turbines
Geologic models
Ligaments
Computational fluid dynamics
Flow simulation
Finite volume method
Swirling flow
Momentum
Stratigraphy
Jet engines
Stents
Compressible flow
Pipe flow
Waxes
Single crystals
Microchannels
Turbulence
Liquid metals

Physics & Astronomy

Engineering

atomizing
air jets
modules

General

simulation
fluids
grids
bubbles
turbulent flames
spikes
two phase flow
fluid flow
sprayers
multiphase flow
reversed flow
combustion chambers
flames
vortex sheets
compressible fluids
diffusion flames
microchannels
turbulent combustion
curvature
single crystals
scalars
large eddy simulation
swirling

Chemistry and Materials

interfacial tension
liquids
liquid metals
propane
air
methane

Physics

momentum
oscillations
flame propagation

Mathematical and Computer Sciences

Reynolds number
finite volume method
perturbation theory

Aeronautics

laminar flow

Aerospace Sciences

supernovae

Chemical Compounds

Atomization
Phase interfaces
Liquids
Surface tension
Gases
Numerical models
Computer simulation
Reynolds number
Propane
Fluxes
Stents
Methane
Hemodynamics
Single crystals
Air
Microchannels
Liquid metals
Laminar flow
Oxides
Large eddy simulation
Energy efficiency
Porous materials
Structural properties
Turbulence
Brain
Numerical methods
Magnetic properties
Skin
Engines
Laplace equation
Visualization