High-speed digital in-line holography for in-situ dust cloud characterization in a minimum ignition energy device-Reference-Cited by-同舟云学术

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High-speed digital in-line holography for in-situ dust cloud characterization in a minimum ignition energy device

Published:2020-10 Issue: Volume:376 Page:612-621
ISSN:0032-5910
Container-title:Powder Technology
language:en
Short-container-title:Powder Technology

Author:

Schweizer Christian,Prasad Shrey,Saini Ankit,Mashuga Chad V.,Kulatilaka Waruna D.

Funder

Eli Lilly and Company

Texas A and M University

Publisher

Elsevier BV

Subject

General Chemical Engineering

Reference41 articles.

1. Test Method for Minimum Ignition Energy of a Dust Cloud in Air;ASTM E2019−03(2019),2019

2. Test Method for Explosibility of Dust Clouds;ASTM E1226−12a,2012

3. Test Method for Minimum Autoignition Temperature of Dust Clouds;ASTM E1491-06(2019),2019

4. Test Method for Minimum Explosible Concentration of Combustible Dusts;ASTM E1515-14,2014

5. Test Method for Limiting Oxygen (Oxidant) Concentration of Combustible Dust Clouds;ASTM E2931-13(2019),2019

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1. Classification of dispersibility for combustible dust based on Hausner ratio;Journal of Loss Prevention in the Process Industries;2023-02

2. Three-Dimensional Characterization of Hypervelocity Shock-Droplet Interactions Using Digital In-Line Holography;AIAA SCITECH 2023 Forum;2023-01-19

3. A forward reconstruction, holographic method to overcome the lens effect during 3D detection of semi-transparent, non-spherical particles;Soft Matter;2023

4. CFD modeling of particle dispersion behavior in the MIKE 3 apparatus;Alexandria Engineering Journal;2022-12

5. Effect of hologram plane position on particle tracking using digital holographic microscopy;Applied Optics;2022-11-04

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