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Velocity measurements in particle-laden high-enthalpy flow using non-intrusive techniques
This research aims at analysing the particle-laden flow of the hypersonic high-enthalpy wind tunnel L2K, situated in Köln at the German Aerospace...
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Particle tracking velocimetry and trajectory curvature statistics for particle-laden liquid metal flow in the wake of a cylindrical obstacle
This paper presents the analysis of particle-laden liquid metal flow around a cylindrical obstacle at different obstacle Reynolds numbers. Particles...
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Numerical study of the near-wall vortical structures in particle-laden turbulent flow by a new vortex identification method-Liutex
This study investigates turbulent particle-laden channel flows using direct numerical simulations employing the Eulerian-Lagrangian method. A two-way...
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Flow Field Characteristics of Particle-Laden Swirling Jets
Particle-laden turbulent jets have various engineering applications such as effluent discharge, wastewater disposal, and marine bed cap**. The flow... -
Interphase heat transfer in radiatively heated particle-laden turbulent channel flows
We investigated the interphase heat transfer characteristics in vertical turbulent channel flows laden with radiatively heated inertial particles...
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Investigation of particle laden gravity currents using the light attenuation technique
An extensional use of the light attenuation technique is described to study the dynamics of particle laden flows. The method is validated against an...
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Nanoparticle-Laden Flow for Solar Absorption
Nanoparticle-laden fluid (or more popularly “nanofluid”) could be engineered to efficiently absorb as well as transport solar energy. This flow... -
Leveraging optical activity in visualizing particle-laden flows
In this research, visualization of particles is achieved by leveraging optical activity that is inherent in the helical and crystalline structure of...
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Experimental investigation of heating augmentation by particle kinetic energy conversion in dust-laden supersonic flows
The presence of particles in supersonic flows can cause significant increases in stagnation point heat fluxes (Dunbar et al. in AIAA J 13:908–912,...
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Particle mass flow determination in dust-laden supersonic flows by means of simultaneous application of optical measurement techniques
Particle mass flow rate and particle mass concentration are key parameters for describing two-phase flows, especially for particle-induced heating...
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Ultrasound imaging velocimetry in particle-laden flows: counteracting attenuation with correlation averaging
AbstractUltrasound imaging velocimetry (UIV) refers to the technique wherein ultrasound images are analysed with 2D cross-correlation techniques...
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Effect of Stokes number on energy modulation of the fluid in turbulent particle-laden channel flows
The effect of Stokes number on the kinetic energy (KE) budget in particle-laden turbulent channel flows is examined by conducting two-way coupled...
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Numerical analysis of vortex formation and particle dispersion in a supersonic compressible particle-laden mixing layer
In the study, the quasi 2D-direct numerical simulations (DNS) approach of a supersonic mixing layer of hydrogen–nitrogen flow (upper high-speed) and...
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Simultaneous determination of particle size, velocity, and mass flow in dust-laden supersonic flows
The particle mass concentration and -mass flow rate are fundamental parameters for describing two-phase flows and are products of particle number,...
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Effects of interphase coupling in one-dimensional particle-laden flow
In Euler–Euler particle-laden flow models, the interphase coupling terms might include, in addition to the drag force, the effects of fluid pressure...
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Effect of Shear-Induced Lift on Particle Motion and Turbulence Modulation in Fully Developed Compressible Turbulent Channel Flow
Particle-laden flows exist widely in natural phenomena and engineering applications. Particle-laden turbulent channel flow is essential for... -
CFD Simulation of Particle-Laden Flow in a 3D Differentially Heated Cavity Using Coarse Large Eddy Simulation
Particulate flow in closed space is involved in many engineering applications. In this paper, the prediction of particle removal is investigated in a...
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A general two-phase mixture model for sediment-laden flow in open channel
This work extends the sediment-laden mixture model with consideration of the turbulence dam** and particle wake effects under the framework of...
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Thermal flow of dust particulates-laden fluid in a slanted channel subject to magnetic force, radiant heat flux, and slip and periodic thermal conditions
In aerospace and automotive industries, the control of thermal flows and particulate matter is crucial for the efficient operation of engine cooling...
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Direct Numerical Simulation of Bi-Disperse Particle-Laden Gravity Currents on Lock-Exchange Configuration with Different Schmidt Number
We performed direct numerical simulations (DNS) of bi-disperse particle-laden gravity currents on a lock-exchange configuration with different values...