Research Summarize about Controlling Technology of Ultrafine Powder

Chen Yu Cao; Zhen Li; Jian Xing Ren

doi:10.4028/www.scientific.net/AMR.807-809.2753

Paper Titles

Effect of Corrosion on Mechanical Properties of Rebar HRB400
p.2735

The Effect of Different Ions on Photodegradation Rhodamine B in TiO₂ Suspension Liquid
p.2739

Contrastive Analysis of Pores for the CFRP Laminates and Corner of L-Shape CFRP Components
p.2743

Study on Warpage of Strip in Continuous Annealing Line by Virtual Layer Method
p.2748

Research Summarize about Controlling Technology of Ultrafine Powder
p.2753

A Study on the Synthesis, Characterization and Properties of Polyaniline Nanofibers Using Ferric Chloride as both Oxidant and Dopant
p.2757

New Insights on Acid Etched Fracturing Conductivity
p.2762

Preparation of Superfine Activated Calcium Carbonate from Calcium Carbide Residue by the Liquid-State Method with Propionic Acid
p.2769

Transesterification of NDC with EG: Effects of Reaction Conditions on NDC Conversion
p.2774

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 807-809Research Summarize about Controlling Technology of...

Research Summarize about Controlling Technology of Ultrafine Powder

Abstract:

PM_2.5 has serious harm to human health and the environment, coal-fired power plant flue gas emission is one of the important sources of PM_2.5, however dust removal equipment for PM_2.5 and finer particulate collection efficiency is very low.Mixed dust removal technology have various problems such as cost increasing , complex operation, the material requirements and capture efficiency of fine particle is not obvious. Coagulation as an effective method of collecting sub-micron particles, has good prospects for development.Further study of the mechanism of coagulation and coagulation technology in practical application of industrial production became focus of future research.

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Periodical:

Advanced Materials Research (Volumes 807-809)

Pages:

2753-2756

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.807-809.2753

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Online since:

September 2013

Authors:

Chen Yu Cao, Zhen Li, Jian Xing Ren

Keywords:

Dust Removal Technology, Electrostatic Coagulation, PM_2.5

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