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Experimental study of a dense stream of particles impacting on an inclined surface

Journal Article · · Powder Technology
; ; ; ; ; ; ; ;
Not Available
Research Organization:
Univ. of Illinois at Urbana-Champaign, IL (United States)
Sponsoring Organization:
USDOE; USDOE Office of Science (SC)
Grant/Contract Number:
SC0015655
OSTI ID:
2324726
Alternate ID(s):
OSTI ID: 2577062
Journal Information:
Powder Technology, Journal Name: Powder Technology Journal Issue: C Vol. 438; ISSN 0032-5910
Publisher:
ElsevierCopyright Statement
Country of Publication:
Netherlands
Language:
English

References (29)

On predicting particle-laden turbulent flows journal June 1994
Experimental Study of Dry Granular Flow and Impact Behavior Against a Rigid Retaining Wall journal August 2012
Physical processes within a 2D granular layer during an impact journal June 2008
The measurement of particle rebound characteristics journal October 2000
Experimental analysis and modelling of particle-wall collisions journal September 1999
Numerical simulation of pulverized coal combustion and NO formation journal December 2003
Impact experiments of char and ash particles relevant to entrained-flow coal gasifiers journal August 2017
Experimental characterization of particle-wall interaction relevant to entrained-flow gasification of biomass journal December 2017
Multiphase flow patterns in entrained-flow slagging gasifiers: Physical modelling of particle–wall impact at near-ambient conditions journal January 2016
Experimental and numerical study of ball size effect on restitution coefficient in low velocity impacts journal October 2010
Oxy-fuel combustion of pulverized coal: Characterization, fundamentals, stabilization and CFD modeling journal April 2012
Investigation of highly laden particle jet dispersion by the use of a high-speed camera and parameter-independent image analysis journal January 2013
The dominant underlying parameters controlling the dispersion of falling particle curtains journal April 2022
Review of high-temperature central receiver designs for concentrating solar power journal January 2014
Structure of a particle-laden round jet journal March 1992
Influence of Stokes number on the velocity and concentration distributions in particle-laden jets journal September 2014
The effect of Stokes number on particle velocity and concentration distributions in a well-characterised, turbulent, co-flowing two-phase jet journal November 2016
Resolving the three-dimensional structure of particles that are aerodynamically clustered by a turbulent flow journal July 2019
Scaling laws in granular flows down rough inclined planes journal March 1999
Measurements of Kinetic Energy Loss for Particles Impacting Surfaces journal January 1990
Surface-Contact Mechanics During Oblique Impact of Microspheres with Planar Surfaces journal January 1996
Experimental Investigations on the Coefficient of Restitution of Single Particles journal July 2013
PIV uncertainty quantification by image matching journal March 2013
Granular and particle-laden flows: from laboratory experiments to field observations journal January 2017
Characterization of Particle Flow in a Free-Falling Solar Particle Receiver journal December 2016
Size- and Temperature-Dependent Collision and Deposition Model for Micron-Sized Sand Particles journal January 2019
Corrections to facilitate planar imaging of particle concentration in particle-laden flows using Mie scattering, Part 1: Collimated laser sheets journal August 2007
Particle velocity measurement within a free-falling particle curtain using microscopic shadow velocimetry journal January 2021
Experimental investigation of dry granular flow impact via both normal and tangential force measurements journal January 2015

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