An experimental investigation on the settling velocity and drag coefficient of micrometer-sized natural, IG-110, NG-CT-10 and A3-3 graphite particles
Published 2021 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
An experimental investigation on the settling velocity and drag coefficient of micrometer-sized natural, IG-110, NG-CT-10 and A3-3 graphite particles
Authors
Keywords
High-temperature gas-cooled reactor, Graphite dust, Terminal settling velocity, Drag coefficient, Stokes law
Journal
JOURNAL OF AEROSOL SCIENCE
Volume 155, Issue -, Pages 105774
Publisher
Elsevier BV
Online
2021-02-19
DOI
10.1016/j.jaerosci.2021.105774
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Numerical and experimental investigation on the performance of a ventilated chamber for low-cost PM sensor calibration
- (2020) Huang Zhang et al. JOURNAL OF AEROSOL SCIENCE
- Solar steam generation in fine dispersions of graphite particles
- (2020) D.M. Kuzmenkov et al. RENEWABLE ENERGY
- Laboratory study of aerosol settling velocities using Laser Doppler velocimetry
- (2019) Andreas Boes Jakobsen et al. JOURNAL OF AEROSOL SCIENCE
- Investigation of latent heat storage system using graphite micro-particle enhancement
- (2019) M. Dhandayuthabani et al. JOURNAL OF THERMAL ANALYSIS AND CALORIMETRY
- Evaluation of Dynamic Image Analysis for Characterizing Granular Soils
- (2019) Linzhu Li et al. GEOTECHNICAL TESTING JOURNAL
- Experimental study on the oxidation behavior and microstructural evolution of NG-CT-10 and NG-CT-20 nuclear graphite
- (2019) Wei Lu et al. Nuclear Science and Techniques
- Minimizing carbon particle size to improve lithium deposition on natural graphite
- (2019) Gaojing Yang et al. CARBON
- A review of HTGR graphite dust transport research
- (2019) Qi Sun et al. NUCLEAR ENGINEERING AND DESIGN
- Graphite dust deposition on HTGR steam generator: Effects of particle-wall and particle-vortex interactions
- (2018) Mingzhe Wei et al. NUCLEAR ENGINEERING AND DESIGN
- New simple correlation formula for the drag coefficient of calcareous sand particles of highly irregular shape
- (2018) Yin Wang et al. POWDER TECHNOLOGY
- On rotational dynamics of a finite-sized ellipsoidal particle in shear flows
- (2018) Ru-Yang Li et al. ACTA MECHANICA
- Graphite aerosol release to the containment in a water ingress accident of high temperature gas-cooled reactor (HTGR)
- (2018) Mingzhe Wei et al. NUCLEAR ENGINEERING AND DESIGN
- A large eddy simulation of turbulent particle-laden flow inside a cubical differentially heated cavity
- (2017) A. Dehbi et al. JOURNAL OF AEROSOL SCIENCE
- Experimental research on the radioactive dust in the primary loop of HTR-10
- (2017) Feng Xie et al. NUCLEAR ENGINEERING AND DESIGN
- Comparison of 2-D and 3-D shape analysis of concrete aggregate fines from VSI crushing
- (2017) Rolands Cepuritis et al. POWDER TECHNOLOGY
- A new model for predicting drag coefficient and settling velocity of spherical and non-spherical particle in Newtonian fluid
- (2017) Xianzhi Song et al. POWDER TECHNOLOGY
- Formation of few-layer graphene flake structures from graphite particles during thin film coating using dry spray deposition method
- (2017) Mohammad Nur E Alam Al Nasim et al. THIN SOLID FILMS
- Characterization of graphite dust produced by pneumatic lift
- (2016) Ke Shen et al. NUCLEAR ENGINEERING AND DESIGN
- On the drag of freely falling non-spherical particles
- (2016) Gholamhossein Bagheri et al. POWDER TECHNOLOGY
- Exploring the relationship between critical state and particle shape for granular materials
- (2015) J. Yang et al. JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS
- RANS modeling for particle transport and deposition in turbulent duct flows: Near wall model uncertainties
- (2015) S.T. Jayaraju et al. NUCLEAR ENGINEERING AND DESIGN
- Particle Production by Rotational Abrasion between Graphite Spheres
- (2015) Raymond S. Troy et al. NUCLEAR TECHNOLOGY
- A new shape dependent drag correlation formula for non-spherical rough particles. Experiments and results
- (2015) Fabio Dioguardi et al. POWDER TECHNOLOGY
- Dust in the diffuse interstellar medium
- (2013) R. Siebenmorgen et al. ASTRONOMY & ASTROPHYSICS
- Experimental investigation of multilayer particle deposition and resuspension between periodic steps in turbulent flows
- (2013) T. Barth et al. JOURNAL OF AEROSOL SCIENCE
- Simple settling velocity formula for calcareous sand
- (2013) Juan Carlos Alcerreca et al. JOURNAL OF HYDRAULIC RESEARCH
- Preparation of spherical fuel elements for HTR-PM in INET
- (2013) Zhou Xiangwen et al. NUCLEAR ENGINEERING AND DESIGN
- Computational and experimental prediction of dust production in pebble bed reactors, Part II
- (2013) Mie Hiruta et al. NUCLEAR ENGINEERING AND DESIGN
- Particle resuspension in turbulent boundary layers and the influence of non-Gaussian removal forces
- (2012) F. Zhang et al. JOURNAL OF AEROSOL SCIENCE
- Study on the Drag of a Cylinder-Shaped Particle in Steady Upward Gas Flow
- (2011) Bing Ren et al. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH
- Dust in HTRs: Its nature and improving prediction of its resuspension
- (2011) M.P. Kissane et al. NUCLEAR ENGINEERING AND DESIGN
- A review of radionuclide behaviour in the primary system of a very-high-temperature reactor
- (2009) M.P. Kissane NUCLEAR ENGINEERING AND DESIGN
- Non-destructive evaluation methods for degradation of IG-110 and IG-430 graphite
- (2008) Taiju Shibata et al. JOURNAL OF NUCLEAR MATERIALS
- Fission Product Transport and Source Terms in HTRs: Experience from AVR Pebble Bed Reactor
- (2008) Rainer Moormann Science and Technology of Nuclear Installations
- New simple correlation formula for the drag coefficient of non-spherical particles
- (2007) Andreas Hölzer et al. POWDER TECHNOLOGY
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationPublish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn More