Study of Enhanced Fine Coal De-sulphurization and De-ashing by Ultrasonic Flotation 被引量：11

Study of Enhanced Fine Coal De-sulphurization and De-ashing by Ultrasonic Flotation

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摘要 The feasibility of using ultrasound to enhance the performance of de-sulphurization and de-ashing during slime flotation was investigated. The Setararn C80 calorimeter, the contact angle gauge DCAT21 and an electrophoresis apparatus were used to study the surface nature of coal, pyrite and refuse before and after ultrasonic conditioning. The yield, ash and sulfur contents of equally sized coal slimes were also measured before and after ultrasonic conditioning. The results show that ultrasonic conditioning can drive the separation of pyrite and refuse from coal. After ultrasonic conditioning the hydrophobicity of coal and hydrophilicity of pyrite and refuse increase. The perfect index of flotation, the perfect index of de-sulphurization and the percentage of de-sulphurization increase by 22.51%, 25.36% and 2.49%, respectively. This study shows that ultrasonic conditioning can enhance the performance of de-sulphurization and de-ashing of coal flotation methods. The feasibility of using ultrasound to enhance the performance of de-sulphurization and de-ashing during slime flotation was investigated. The Setaram C80 calorimeter,the contact angle gauge DCAT21 and an electrophoresis apparatus were used to study the surface nature of coal,pyrite and refuse before and after ultrasonic conditioning. The yield,ash and sulfur contents of equally sized coal slimes were also measured before and after ultrasonic conditioning. The results show that ultrasonic conditioning can drive the separation of pyrite and refuse from coal. After ultrasonic conditioning the hydrophobicity of coal and hydrophilicity of pyrite and refuse increase. The perfect index of flotation,the perfect index of de-sulphurization and the percentage of de-sulphurization increase by 22.51%,25.36% and 2.49%,respectively. This study shows that ultrasonic conditioning can enhance the performance of de-sulphurization and de-ashing of coal flotation methods.

作者 KANG Wen-ze XUN Hai-xin CHEN Jun-tao

机构地区 School of Resource and Environment Heilongjiang Institute of Science and Technology Harbin Heilongjiang

出处《Journal of China University of Mining and Technology》 EI 2007年第3期358-362,共5页 中国矿业大学学报（英文版）

基金 Projects 50274036 supported by the National Natural Science Foundation of China 1055G039 by the Mainstay Teacher Originality Innovation Plan Foundation of the Education Department of Heilongjiang Province.

关键词 ULTRASONIC SEPARATING HYDROPHOBICITY de-sulphurization de-ashing 煤矿选煤浮选超声波分离疏水性

分类号 TD923.9 [矿业工程—选矿] TB559 [理学—声学]

作者简介 Corresponding author. Tel：＋86-451-88036448; E-mail address： kwz010@ 163.com

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2KANG Wen-ze,XUN Hai-xin,KONG Xiao-hong,LI Ming-ming.Effects from changes in pulp nature after ultrasonic conditioning on high-sulfur coal flotation[J].Mining Science and Technology,2009,19(4):498-502. 被引量：7
3康文泽,丁淑芳,胡军.超声波对煤泥浮选的影响[J].黑龙江科技学院学报,2010,20(3):183-188. 被引量：16
4FAN Maoming,TAO Danie,HONAKER Rick,LUO Zhenfu.Nanobubble generation and its applications in froth flotation(part IV):mechanical cells and specially designed column flotation of coal[J].Mining Science and Technology,2010,20(5):641-671. 被引量：18
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