Research progress on fluid catalyst attrition

Ming Yang Gong; Xiao Gang Li; Wei Du; Jun Sheng Wu; Chao Fang Dong

Research progress on fluid catalyst attrition

Ming Yang Gong^*
, Xiao Gang Li
, Wei Du
, Jun Sheng Wu
, Chao Fang Dong

^*Corresponding author for this work

University of Science and Technology Beijing

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Recent progress of the study on fluidic catalyst attrition mechanism and attrition test methodology was reviewed. Nanoindentation and PSD test were used to examine influences of various mechanical and hydrodynamical parameters upon attrition modes of catalyst particles dominated by fragmentation and abrasion. Prevailing lab-scale attrition assessment methods were introduced, and fluidized-bed jet attrition tests were found to be effective and straightforward to predict catalyst attrition. For further exploration of attrition mechanisms of fluidic catalyst and improvement of attrition test, in-depth study work will be needed on aspects such as hydrodynamic models, computing simulation and microscopic mechanic test in the future.

Original language	English
Pages (from-to)	91-96
Number of pages	6
Journal	Tribology
Volume	27
Issue number	1
State	Published - Jan 2007
Externally published	Yes

Keywords

Attrition assessment test
Attrition mechanism
Catalyst attrition
Fluidized attrition

Cite this

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title = "Research progress on fluid catalyst attrition",

abstract = "Recent progress of the study on fluidic catalyst attrition mechanism and attrition test methodology was reviewed. Nanoindentation and PSD test were used to examine influences of various mechanical and hydrodynamical parameters upon attrition modes of catalyst particles dominated by fragmentation and abrasion. Prevailing lab-scale attrition assessment methods were introduced, and fluidized-bed jet attrition tests were found to be effective and straightforward to predict catalyst attrition. For further exploration of attrition mechanisms of fluidic catalyst and improvement of attrition test, in-depth study work will be needed on aspects such as hydrodynamic models, computing simulation and microscopic mechanic test in the future.",

keywords = "Attrition assessment test, Attrition mechanism, Catalyst attrition, Fluidized attrition",

author = "Gong, \{Ming Yang\} and Li, \{Xiao Gang\} and Wei Du and Wu, \{Jun Sheng\} and Dong, \{Chao Fang\}",

year = "2007",

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language = "英语",

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AU - Gong, Ming Yang

AU - Li, Xiao Gang

AU - Du, Wei

AU - Wu, Jun Sheng

AU - Dong, Chao Fang

PY - 2007/1

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N2 - Recent progress of the study on fluidic catalyst attrition mechanism and attrition test methodology was reviewed. Nanoindentation and PSD test were used to examine influences of various mechanical and hydrodynamical parameters upon attrition modes of catalyst particles dominated by fragmentation and abrasion. Prevailing lab-scale attrition assessment methods were introduced, and fluidized-bed jet attrition tests were found to be effective and straightforward to predict catalyst attrition. For further exploration of attrition mechanisms of fluidic catalyst and improvement of attrition test, in-depth study work will be needed on aspects such as hydrodynamic models, computing simulation and microscopic mechanic test in the future.

AB - Recent progress of the study on fluidic catalyst attrition mechanism and attrition test methodology was reviewed. Nanoindentation and PSD test were used to examine influences of various mechanical and hydrodynamical parameters upon attrition modes of catalyst particles dominated by fragmentation and abrasion. Prevailing lab-scale attrition assessment methods were introduced, and fluidized-bed jet attrition tests were found to be effective and straightforward to predict catalyst attrition. For further exploration of attrition mechanisms of fluidic catalyst and improvement of attrition test, in-depth study work will be needed on aspects such as hydrodynamic models, computing simulation and microscopic mechanic test in the future.

KW - Attrition assessment test

KW - Attrition mechanism

KW - Catalyst attrition

KW - Fluidized attrition

UR - https://www.scopus.com/pages/publications/34047222204

M3 - 文章

AN - SCOPUS:34047222204

SN - 1004-0595

VL - 27

SP - 91

EP - 96

JO - Tribology

JF - Tribology

IS - 1

ER -

Research progress on fluid catalyst attrition

Abstract

Keywords

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