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Inertial Effects and Anisotropy for the Flow in a Domain of Close Packed Spheres with a Bounding Wall

Journal Article · · Nuclear Technology
 [1];  [2];  [3]
  1. Kairos Power LLC, 707 W Tower, Alameda, California 94501
  2. Pennsylvania State University, Department of Nuclear Engineering, 205 Hallowell Building, University Park, Pennsylvania 16802
  3. Texas A& M University, Nuclear Engineering Department, AI Engineering Building 3133, College Station, Texas 77843
+ Show Author Affiliations

Not provided.

Research Organization:
Argonne National Lab. (ANL), Argonne, IL (United States). Argonne Leadership Computing Facility (ALCF)
Sponsoring Organization:
USDOE
DOE Contract Number:
AC02-06CH11357
OSTI ID:
1982410
Journal Information:
Nuclear Technology, Vol. 208, Issue 3; ISSN 0029-5450
Publisher:
Taylor & Francis
Country of Publication:
United States
Language:
English

References (28)

Numerical investigation of transitional and weak turbulent flow past a sphere August 2000
Direct numerical simulation of the flow over a sphere at Re = 3700 May 2011
Computation of the Flow Over a Sphere at Re = 3700: A Comparison of Uniform and Turbulent Inflow Conditions October 2014
Investigation of the Dynamics of Incompressible Flow in Domains of Multiple Close-Packed Spheres
  • No authors listed
  • ASME 2017 Fluids Engineering Division Summer Meeting, Volume 1B, Symposia: Fluid Measurement and Instrumentation; Fluid Dynamics of Wind Energy; Renewable and Sustainable Energy Conversion; Energy and Process Engineering; Microfluidics and Nanofluidics; Development and Applications in Computational Fluid Dynamics; DNS/LES and Hybrid RANS/LES Methods https://doi.org/10.1115/FEDSM2017-69340
October 2017
LES and DES Investigations of Turbulent Flow over a Sphere at Re = 10,000 January 2003
Vortex dynamics of a sphere wake in proximity to a wall March 2016
Distribution of local pressure and skin friction around a circular cylinder in cross-flow up to Re = 5 × 10 6 December 1968
Experiments on the flow past spheres at very high Reynolds numbers August 1972
Vortex shedding from spheres January 1974
Visual observations of the flow past a sphere at Reynolds numbers between 10 4 and 10 6 March 1978
Observations of the frequencies in a sphere wake and of drag increase by acoustic excitation January 1988
Investigation of flow characteristics around a sphere placed in a boundary layer over a flat plate January 2013
Flow Visualization of Pebble Bed HTGR July 2009
Flow visualization in a pebble bed reactor experiment using PIV and refractive index matching techniques November 2008
Numerical treatment of pebble contact in the flow and heat transfer analysis of a pebble bed reactor core November 2007
Numerical simulations of a pebble bed configuration using hybrid (RANS–LES) methods August 2013
Large eddy simulation in pebble bed gas cooled core reactors March 2008
Improved delayed detached eddy simulation of a randomly stacked nuclear pebble bed November 2015
Optimization of a pebble bed configuration for quasi-direct numerical simulation January 2012
Quasi-direct numerical simulation of a pebble bed configuration. Part I: Flow (velocity) field analysis October 2013
Direct Numerical Simulation of the Flow Through a Randomly Packed Pebble Bed January 2020
A Conservative Isoparametric Spectral Element Method for Forced Convection; Application to Fully Developed flow in Periodic Geometries March 1986
A spectral element method for fluid dynamics: Laminar flow in a channel expansion June 1984
Towards a Direct Numerical Simulation of a Simplified Pressurized Thermal Shock March 2018
Accelerating the High-Fidelity Simulation of Turbulence: Ensemble Averaging
  • No authors listed
  • Volume 1B, Symposia: Fluid Mechanics (Fundamental Issues and Perspectives; Industrial and Environmental Applications); Multiphase Flow and Systems (Multiscale Methods; Noninvasive Measurements; Numerical Methods; Heat Transfer; Performance); Transport Phenomena (Clean Energy; Mixing; Manufacturing and Materials Processing); Turbulent Flows — Issues and Perspectives; Algorithms and Applications for High Performance CFD Computation; Fluid Power; Fluid Dynamics of Wind Energy; Marine Hydrodynamics https://doi.org/10.1115/FEDSM2016-7853
July 2016
Calculation of Turbulent Kinetic Energy Budgets for Flow Through a Pebble Bed Using DNS June 2016
Direct Numerical Simulation of Turbulent Pipe Flow at Moderately High Reynolds Numbers July 2013
The return to isotropy of homogeneous turbulence August 1977

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Related Subjects

Nuclear Science & Technology