Paper Titles
Research on Anti-Coxsackievirus B Activity of Konjac Oligo-Glucomannan Sulfate in Hela Cell Line
p.417
Effect of Rare Earth Metals on Microstructure and Impact Property of Duplex Stainless Steel
p.424
Experiment of Different Admixtures on Antifreeze of Vegetation-Growing
p.428
Influences of Emulsion on Water Resistance of Vitrified Micro Bubbles Thermal Insulation Material
p.433
Preparating Arsenic Trioxide with Sulfuric Acid Wet Oxidation
p.437
Thermodynamic Analysis and Observation of Inclusions in Ferritic Stainless Steel with Rare Earth
p.441
Treating the Eutrophic Water by Ultrasonic – Flocculation Sedimentation
p.445
Application of Taguchi Methods and ANOVA in Optimization of Process Parameters for Surface Roughness of Fused Silica in the Magnetorheological Finishing Processes
p.449
Highly Transparent and Low Resistivity Al-Doped ZnO Thin Films Grown by Pulsed Laser Deposition under Different Oxygen Flow Rates
p.453

Preparating Arsenic Trioxide with Sulfuric Acid Wet Oxidation

Article Preview

Abstract:

The technology of the acidification is adopted to prepare arsenic trioxide (As2O3). With a concentration of 98% of concentrated sulfuric acid and Orpiment made into a certain ratio of the slurry suspension. Arsenic trioxide’s content is 99.94%, extraction yield can reach to 98.92%. The optimal conditions is reaction temperature at 120°Cand the reaction time in 2.5 h; the slurry ratio is less than 1/6 and particle size is less than 0.080 mm.

You might also be interested in these eBooks
Nanotechnology and Precision Engineering View Preview

Info:

Periodical:

Advanced Materials Research (Volume 662)

Pages:

437-440

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.662.437

Citation:

Cite this paper

Online since:

February 2013

Authors:

Lin Zhuan Ma, Jun Ming Guo, Qiong Fang Cui, Man Hong Liu, Ying Jie Zhang

Keywords:

Arsenic Trioxide, Ore Orpiment, Sulfuric Acid, Wet Oxidation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

References

[1] WEN J, SHI M H, LI Q, et al. The Present Situation of Treatment Technology for Wet Process Producting Diarsenic Trioxide by Arsenic Sulfide Sludge [J]. Guizhou Chemical Industry, 2008, 10. 33(5): 26-28.

Google Scholar

[2] KOU J J, ZHU CH L. A New Technology of Aqueous Oxidation for Rational Utilization of Arsenic Sulfide Ore [J]. Multipurpose Utilization of Mineral Resources, 2001, 6(3): 26-29.

Google Scholar

[3] DONG S L. Study on Treating Arsenic Sulfide residues by wet process [J]. Sulfide Industry, 1994(5): 3-8.

Google Scholar

[4] MAO Q R. Rational Utilization of low grade Realgar ore [J]. Chemical Mining Technology, 1995: 56.

Google Scholar

[5] LIU S L, LI J H, MENG W J, et al. Current situation of resource recovery treatment technology of arsenic sulfide residues [J], Phosphate & Compound Fertilizer, 2009, 7. 24(4): 60-63.

Google Scholar

[6] ZHENG Y J, LIU W Y, BAI M, et al. Preparation of arsenic trioxide from arsenic sulfide slag [J]. J. Cent. SouthUniv(Science and Technology). 2008, 12. 39(6): 1157-1163.

Google Scholar

[7] QIAO Y, DING Y X, DONG X CH, et al. Determination of Heavy Mental in Ganoderma by Atom Absorption Spectroscopy and Atomic Fluorescence Spectrometry[J]. Journal of Yunnan Nationalities University (Natural Sciences Edition), 2006, 10. 15(4): 315-317.

Google Scholar

[8] HUANG Y, FAN Y, MENG ZH Y, et al. Determination of Arsenic and Mercury in Tobacco by Atomic Fluorescence Spectrometry[J], Journal of Yunnan Nationalities University(Natural Sciences Edition), 2007, 4. 16(2): 172-174.

Google Scholar

[9] LIU X F, LIU M H, ZHANG X M, et al. Activated caron of Macadamia nutshell to Cr(IV) adsorptive property 2012, 21(3): 178~81.

Google Scholar

[10] CHEN W P, LI ZH Y, PENG Y B, et al. CN, CHINA. Patent: 1120018A[P], 1996, 4, 10.

Google Scholar