Microscopic Molecular Assembly and Catalytic Mechanism of Rare Earth-Alumina Nanocomposite Devoted to Reducing PM2.5

Ting Feng Zhao; Qi Hui Zeng; Bao Hong Hao; Ding Zeng

doi:10.4028/www.scientific.net/KEM.837.161

Paper Titles

Preparation and Mechanical Performance of Supplementary Cementing Materials Cementitious by Electroplating Sludge
p.133

Microstructure, Mechanical Properties, Sintering and Fracture Behavior of Ti(C, N) Based Cermets Granules/Ti(C, N) Based Cermets Composite
p.139

Two Equivalent Reduction Methods of Dielectric Constant Tensor for Hexagonal Crystal System Materials
p.146

Structural and Morphological Analysis of Solid State Synthesized Pure Lead Titanate and Calcium Doped Lead Titanate Ceramics for Ferroelectric and Piezoelectric Energy Storage Applications
p.153

Microscopic Molecular Assembly and Catalytic Mechanism of Rare Earth-Alumina Nanocomposite Devoted to Reducing PM2.5
p.161

Primary Study on the Improvement and Application of Formulation Optimization of 2116# Rosin Modified Phenolic Resin
p.168

Morphology and Properties of Poly(Lactic Acid)/Ethylene-Octene Copolymer Blends with Different Organoclay Types
p.174

Development of an Ultra-Precision Annular Polishing Machine Tool with Full Gas Static Pressure
p.183

Experimental Study on Thermal Aging Performance of an RDX Based Booster
p.191

HomeKey Engineering MaterialsKey Engineering Materials Vol. 837Microscopic Molecular Assembly and Catalytic...

Microscopic Molecular Assembly and Catalytic Mechanism of Rare Earth-Alumina Nanocomposite Devoted to Reducing PM2.5

Abstract:

Automobile exhaust is one of the sources of PM2.5, which can merely be catalytically decomposed by a "post-treatment" three-way catalytic device at present. Afront-treatment device based on rare earth-alumina nanocomposite in gasoline was innovatively introduced. nanoalumina and rare earth elements are function as the backbone and carrier, respectively. Microscopic molecular assembly and catalytic mechanism were studied to synthesize metastable ordered mesoporous with high degree of aggregation. Mesh filter of rare earth-alumina nanocatalytic composite with self-sustained release function is formed by sintering, which can be solidified in an automotive air intake system. Results show that rare earth-aluminum nanocomposite contributes to catalytic combustion and makes combustion more complete. Moreover, it has a better effect of reducing PM2.5 than a "post-treatment" device in terms of catalytic effect.

You might also be interested in these eBooks

Material Science and Engineering: Properties and Technologies

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 837)

Pages:

161-167

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.837.161

Citation:

Cite this paper

Online since:

April 2020

Authors:

Ting Feng Zhao*, Qi Hui Zeng, Bao Hong Hao, Ding Zeng

Keywords:

Front-Treatment Device, Microstructure Design, PM2.5, Rare Earth Elements, Rare Earth-Alumina Nanocomposite

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] Weiwei Liu. Automobile exhaust emission problem and method of energy saving and emission reduction, Shandong Industrial Technology, Issue1,(2016)268.

Google Scholar

[2] Hao Baohong, He Qi, Duan Qiutong, et al. Research on Innovative of Cutting Down PM2.5 by New Rare Earth Aluminum Alloy Ordered Mesoporous Composite Materials. New Technology & New Process, Volume 307, Issue 7,(2013) 91-93.

Google Scholar

[3] Hao Baohong, DuanQiutong, He Qi, et al.,Development of Nanometer Rare Earth-aluminum Catalyst and Its Application Prospect in the Exhaust Gas Purification. Contemporary Chemical Industry, Volume 42, Issue 6,(2013) 810-812.

Google Scholar

[4] Hao Baohong, Jiang Mengfan, Duan Qiutong et al. Activity Evaluation of Nano-Al2O3 in Diesel Exhaust Gas Purification. Journal of Beijing Institute of Petro-chemical Technology, Volume 21, Issue 1, (2013)8-11.

Google Scholar

[5] Jin B, Wei Y, Zhao Z, et al. Effects of Au–Ce strong interactions on catalytic activity of Au/CeO2/3DOM Al2O3 catalyst for soot combustion under loose contact conditions, catalyst for soot combustion under loose contact conditions, Chinese Journal of Catalysis, Volume 7, Issue 6,(2016)923-933.

DOI: 10.1016/s1872-2067(15)61094-4

Google Scholar

[6] Geer Yi. Preparation and Property of Ordered Mesoporous Materials with Functional Materials Assembled, Inner Mongolian University, (2012).

Google Scholar

[7] Feng Du. Application of deep desulfurization technology of fuel oil in petrochemical industry, Liaoning Petrocchemical Vocational and Technology, Volume 24, Issue 4, (2017)244-244.

Google Scholar

[8] Yi Shi, Liu Rong-Li. Research and Application of Rare-earth Catalyst in Environmental Protection Field China Environmental Protection Industry, Volume 10, Issue 2, (2014) 30-33.

Google Scholar