Experiments in fluids, ISSN 1432-1114, 06/2008, Volume 45, Issue 3, pp. 371 - 422

The production of a liquid spray can be summarized as the succession of the following three steps; the liquid flow ejection, the primary breakup mechanism and...

Engineering | Engineering Fluid Dynamics | Fluids | Engineering Thermodynamics, Transport Phenomena | Mechanics | Technology | Engineering, Mechanical | Science & Technology | Liquids | Liquid sheets | Fluid dynamics | Sprays | Fluid flow | Breakup | Atomization | Atomizing | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Engineering | Engineering Fluid Dynamics | Fluids | Engineering Thermodynamics, Transport Phenomena | Mechanics | Technology | Engineering, Mechanical | Science & Technology | Liquids | Liquid sheets | Fluid dynamics | Sprays | Fluid flow | Breakup | Atomization | Atomizing | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Journal Article

Journal of fluid mechanics, ISSN 0022-1120, 12/2016, Volume 809, pp. 390 - 437

The heating of particles in a dilute suspension, for instance by radiation, chemical reactions or radioactivity, leads to local temperature fluctuations in the fluid due to the non-uniformity of the disperse phase...

Papers | turbulent convection | Key words particle/fluid flows | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fluids | Turbulence | Turbulent flow | Computational fluid dynamics | Fluid flow | Inertia | Spectra | Density | Mechanics of the fluids | Reactive fluid environment | Fluid Dynamics | Engineering Sciences

Papers | turbulent convection | Key words particle/fluid flows | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fluids | Turbulence | Turbulent flow | Computational fluid dynamics | Fluid flow | Inertia | Spectra | Density | Mechanics of the fluids | Reactive fluid environment | Fluid Dynamics | Engineering Sciences

Journal Article

Journal of fluid mechanics, ISSN 0022-1120, 11/2018, Volume 855, pp. 1074 - 1087

We compute the drag force on a sphere settling slowly in a quiescent, linearly stratified fluid...

JFM Papers | multiphase and particle-laden flows | multiphase flow | Perturbation theory | Direct numerical simulation | Computer simulation | Reynolds number | Fluid | Density stratification | Microorganisms | Numerical analysis | Drag | Settling | Kinematics | Disturbance | Mathematical models | Diffusion | Stratification | Physics - Fluid Dynamics | Engineering Sciences | Reactive fluid environment

JFM Papers | multiphase and particle-laden flows | multiphase flow | Perturbation theory | Direct numerical simulation | Computer simulation | Reynolds number | Fluid | Density stratification | Microorganisms | Numerical analysis | Drag | Settling | Kinematics | Disturbance | Mathematical models | Diffusion | Stratification | Physics - Fluid Dynamics | Engineering Sciences | Reactive fluid environment

Journal Article

International journal of hydrogen energy, ISSN 0360-3199, 04/2019, Volume 44, Issue 17, pp. 9031 - 9040

.... As a part of safety studies related to the use of hydrogen in a confined environment, it is extremely important to have a good knowledge of the dispersion mechanism...

Hydrogen | Small scale | Dispersion | Leak | Engineering Sciences | Reactive fluid environment

Hydrogen | Small scale | Dispersion | Leak | Engineering Sciences | Reactive fluid environment

Journal Article

AIChE journal, ISSN 1547-5905, 02/2019, Volume 65, Issue 5, pp. e16562 - n/a

...° placed near a wall in a uniform flow of Newtonian and yield stress fluid. The inertia of the fluid is considered negligible...

viscoplasticity | lift | yield stress fluid | drag | Newtonian fluid | inclined plate | Fluid flow | Elasticity | Aerodynamic coefficients | Soil mechanics | Newtonian fluids | Thinning | Drag | Plasticity | Yield strength | Plastic properties | Uniform flow | Mathematical models | Yield | Shear thinning (liquids) | Yield stress | Engineering Sciences | Reactive fluid environment

viscoplasticity | lift | yield stress fluid | drag | Newtonian fluid | inclined plate | Fluid flow | Elasticity | Aerodynamic coefficients | Soil mechanics | Newtonian fluids | Thinning | Drag | Plasticity | Yield strength | Plastic properties | Uniform flow | Mathematical models | Yield | Shear thinning (liquids) | Yield stress | Engineering Sciences | Reactive fluid environment

Journal Article

Journal of fluid mechanics, ISSN 0022-1120, 06/2014, Volume 749, pp. 542 - 576

... J. Fluid Mech. (2014), vol. 749, pp. 542576. c doi:10.1017/jfm.2014.245 http://orcid.org/0000-0003-1968-1611 Web End =Emmanuel Motheau 1,, Franck Nicoud2...

Papers | Reacting flows | Acoustics | Combustion | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fluid mechanics | Entropy | Mechanics of the fluids | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Papers | Reacting flows | Acoustics | Combustion | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fluid mechanics | Entropy | Mechanics of the fluids | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Journal Article

Journal of fluid mechanics, ISSN 0022-1120, 03/2016, Volume 791, pp. 464 - 494

The behaviour of a single droplet in an immiscible external fluid, submitted to shear flow is investigated using numerical simulations...

Papers | complex fluids | drops and bubbles | capsule/cell dynamics | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Viscosity | Fluid mechanics | Numerical analysis | Shear stresses | Shear | Boussinesq equations | Deformation | Shear flow | Fluid flow | Mathematical models | Droplets | Soft Condensed Matter | Biomechanics | Biological Physics | Computational Physics | Fluid Dynamics | Chemical and Process Engineering | Mechanics of the fluids | Reactive fluid environment | Condensed Matter | Engineering Sciences

Papers | complex fluids | drops and bubbles | capsule/cell dynamics | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Viscosity | Fluid mechanics | Numerical analysis | Shear stresses | Shear | Boussinesq equations | Deformation | Shear flow | Fluid flow | Mathematical models | Droplets | Soft Condensed Matter | Biomechanics | Biological Physics | Computational Physics | Fluid Dynamics | Chemical and Process Engineering | Mechanics of the fluids | Reactive fluid environment | Condensed Matter | Engineering Sciences

Journal Article

Journal of fluid mechanics, ISSN 0022-1120, 09/2012, Volume 707, pp. 53 - 73

.... It extends the previous work of Myers (J. Fluid Mech., vol. 226, 1991, 383–400) and so includes non-zero mean-flow quantities, large-amplitude disturbances, varying specific heats and chemical non-equilibrium...

Papers | combustion | gas dynamics | jet noise | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fluid mechanics | Gases | Entropy | Computational fluid dynamics | Mathematical analysis | Disturbances | Fluid flow | Flux | Acoustics | Sound | Combustion | Mechanics of the fluids | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Papers | combustion | gas dynamics | jet noise | Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Fluid mechanics | Gases | Entropy | Computational fluid dynamics | Mathematical analysis | Disturbances | Fluid flow | Flux | Acoustics | Sound | Combustion | Mechanics of the fluids | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Journal Article

Physics of Fluids, ISSN 1070-6631, 03/2016, Volume 28, Issue 3, p. 35113

.... We conduct a Lagrangian study using particles both heavier and lighter than the surrounding fluid, and whose diameters are comparable to the flow integral scale...

Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Turbulent flow | Computational fluid dynamics | Integrals | Correlation analysis | Stochastic processes | Fluid flow | Variations | Mathematical models | Acceleration | Velocity | Physics - Fluid Dynamics | Mechanics of the fluids | Reactive fluid environment | Fluid Dynamics | Engineering Sciences | FLUIDS | CORRELATION FUNCTIONS | TURBULENT FLOW | VELOCITY | STOCHASTIC PROCESSES | PARTICLES | CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS | CALCULATION METHODS | STATISTICS | CORRELATIONS | COMPARATIVE EVALUATIONS | LAGRANGIAN FUNCTION | ACCELERATION | DENSITY | INTEGRALS | FLUCTUATIONS | PARTICLE TRACKS | ENGINEERING

Mechanics | Physical Sciences | Physics, Fluids & Plasmas | Technology | Physics | Science & Technology | Turbulent flow | Computational fluid dynamics | Integrals | Correlation analysis | Stochastic processes | Fluid flow | Variations | Mathematical models | Acceleration | Velocity | Physics - Fluid Dynamics | Mechanics of the fluids | Reactive fluid environment | Fluid Dynamics | Engineering Sciences | FLUIDS | CORRELATION FUNCTIONS | TURBULENT FLOW | VELOCITY | STOCHASTIC PROCESSES | PARTICLES | CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS | CALCULATION METHODS | STATISTICS | CORRELATIONS | COMPARATIVE EVALUATIONS | LAGRANGIAN FUNCTION | ACCELERATION | DENSITY | INTEGRALS | FLUCTUATIONS | PARTICLE TRACKS | ENGINEERING

Journal Article

Experimental thermal and fluid science, ISSN 0894-1777, 05/2016, Volume 73, pp. 33 - 41

•Three lean air–fuel mixtures were selected, with same unstretched laminar flame speed.•Their stretch sensitivity, characterized by Markstein lengths, is...

Markstein length | Flame stretch | Premixed turbulent combustion | Combustion | Analysis | Lewis numbers | Turbulence | Turbulent flow | Computational fluid dynamics | Vessels | Fluid flow | Mathematical models | Flame propagation | Mechanics | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Markstein length | Flame stretch | Premixed turbulent combustion | Combustion | Analysis | Lewis numbers | Turbulence | Turbulent flow | Computational fluid dynamics | Vessels | Fluid flow | Mathematical models | Flame propagation | Mechanics | Reactive fluid environment | Fluids mechanics | Engineering Sciences

Journal Article