Engineering_Village_citation_9-24-2015_02718407(7)

2012: Innovative Processing for Sustainable Growth - Conference Proceedings, p 6202-6209, 2012, 26th InternationalMineral Processing Congress, IMPC 2012: Innovative Processing for Sustainable Growth - Conference ProceedingsDatabase: Compendex

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109. Classification and Recognition for Copper Froth Flotation Process Based on

Multivariate Image Analysis

Xu De-gang (Coll. of Inf. Sci. & Eng., Central South Univ., Changsha, China); Zhao Pan-lei; Chen Xiao; Xie Yong-fang;Yang Chun-hua Source: Journal of Beijing University of Technology, v 40, n 7, p 967-73, 10 July 2014 Language:Chinese

Database: Inspec

Copyright 2015, The Institution of Engineering and Technology

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110. Froth zone modelling of an industrial flotation column

Yianatos, J.B. (Santa Maria Univ, Valparaiso, Chile); Bergh, L.G.; Cortes, G.A. Source: Minerals Engineering, v 11, n5, p 423-435, May 1998

Database: Compendex

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111. Column flotation circuit design

Castillo, D. (Univ of Toronto, Canada); Dobby, G.S.; Kosick, G.A. Source: Preprint - Society of Mining Engineers ofAIME, 8p 101, 1990

Database: Compendex

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112. CERTAIN PROPERTIES OF THREE-PHASE FLOTATION FROTHS FORMED DURINGTHE COAL FLOTATION PROCESS.

Sablik, J. (Central Mining Inst, Katowice, Pol, Central Mining Inst, Katowice, Pol); Pawlik, J. Source: Powder

Technology, v 45, n 2, p 105-111, Jan 1986

Database: Compendex

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113. Non ferrous ore flotation control using image analysis and expert system

Machado, Frederico Queiroz (1CEMI Process Technology and Engineering, Belo Horizonte, MG 30112000, Brazil);Gontijo, Hugo Montalvao; S Martins, Marco Aurélio; Alves De Aguiar, Barbara Burgarelli Source: IFAC ProceedingsVolumes (IFAC-PapersOnline), v 15, n PART 1, p 172-175, 2013, 16th IFAC Symposium on Automation in Mining,Minerals and Metal Processing, MMM 2013 - Proceedings

Database: Compendex

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114. Quantum-chemical method for selection of a collecting agent to recover zinc andcopper(II) cations in flotation of mine waste waters

Medyanik, N.L. (Magnitogorsk State Tech. Univ. named after G.I. Nosov, Magnitogorsk, Russia); Chanturia, V.A.;Shadrunova, I.V. Source: Journal of Mining Science, v 48, n 1, p 167-76, Jan. 2012

Database: Inspec

Copyright 2013, The Institution of Engineering and Technology

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115. Measurement of particle loading on bubbles in the flotation process

Moys, M.H. (School of Process and Materials Engineering, University of the Witwatersrand, PO Wits 2050, SouthAfrica); Yianatos, J.; Larenas, J. Source: Minerals Engineering, v 23, n 2, p 131-136, January 2010

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116. Study on silicon carbide flotation mechanism by kerosene from the cutting waste slurryof silicon wafer

Hou, Si-Yi (Institute of Non-Metallic Materials, Qinghai University, Xining 810016, China); Tie, Sheng-Nian Source:Rengong Jingti Xuebao/Journal of Synthetic Crystals, v 43, n 5, p 1302-1305, May 2014 Language: Chinese

Database: Compendex

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117. Improved Extraction Algorithm of Outside Dividing Lines in Watershed SegmentationBased on PSO Algorithm for Froth Image of Coal Flotation

Mu-ling Tian (Inst. of Mechatron. Eng., Taiyuan Univ. of Technol., Taiyuan, China); Jie-ming Yang Source: Journal ofMultimedia, v 9, n 2, p 325-32, Feb. 2014

Database: Inspec

Copyright 2014, The Institution of Engineering and Technology

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118. Flotation research of a fluorite ore

Peng, Wei Jun (School of Resources and Environmental Engineering, Wuhan University of Technology, Wuhan, Hubei,China); Zhang, Ling Yan; Bai, Li Li; Qiu, Yang Shuai Source: Applied Mechanics and Materials, v 539, p 781-784,2014, Advanced Engineering Solutions

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119. Quantum-chemical method for selection of a collecting agent to recover zinc andcopper(II) cations in flotation of mine waste waters

Medyanik, N.L. (Magnitogorsk State Technical University Named after G.I. Nosov, ul. Lenina 38, Magnitogorsk,

455000, Russia); Chanturia, V.A.; Shadrunova, I.V. Source: Journal of Mining Science, v 48, n 1, p 167-176, January2012

Database: Compendex

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120. Evaluation of a chemical dissolved air flotation system for the treatment of restaurantdishwasher effluent

Chung, Wayne (Environmental Systems Engineering, University of Regina, 3737 Wascana Parkway, Regina, SK S4S0A2, Canada); Young, Stephanie Source: Canadian Journal of Civil Engineering, v 40, n 12, p 1164-1172, December2013

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121. Machine vision based flotation froth mobility analysis

Mu, Xue-Min (School of Information Science and Engineering, Central South University, Changsha 410083, China);Liu, Jin-Ping; Gui, Wei-Hua; Tang, Zhao-Hui; Yang, Chun-Hua; Li, Jian-Qi Source: Proceedings of the 29th ChineseControl Conference, CCC'10, p 3012-3017, 2010, Proceedings of the 29th Chinese Control Conference, CCC'10Database: Compendex

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122. EFFECT OF COLLECTOR EMULSIFICATION USING NON-IONIC SURFACTANTS ONTHE FLOTATION OF COARSE COAL PARTICLES.

Moxon, N.T. (BHP, Wallsend, Aust, BHP, Wallsend, Aust); Keast-Jones, R. Source: International Journal of MineralProcessing, v 18, n 1-2, p 21-32, Sep 1986

Database: Compendex

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123. Machine vision based flotation froth mobility analysis

Mu Xue-Min (Sch. of Inf. Sci. & Eng., Central South Univ., Changsha, China); Liu Jin-Ping; Gui Wei-Hua; Tang Zhao-Hui; Yang Chun-Hua; Li Jian-Qi Source: 2010 29th Chinese Control Conference (CCC 2010), p 3012-17, 2010Database: Inspec

Copyright 2010, The Institution of Engineering and Technology

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124. Dynamic modeling and control of mineral processing operations based on the FORTHlanguage

Inoue, T. (Dept. of Miner. Dev. Eng., Tokyo Univ., Tokyo, Japan); Okaya, K.; Alford, R.A. Source: Automation inMining, Mineral and Metal Processing 1986. Selected Papers from the 5th IFAC symposium, p 411-16, 1987

Database: Inspec

Copyright 1988, IEE

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125. An intelligent optimal setting approach based on froth features for level of flotationcells

Zhao, Hong-Wei (School of Information Science and Engineering, Central South University, Changsha 410083, China);Xie, Yong-Fang; Jiang, Zhao-Hui; Xu, De-Gang; Yang, Chun-Hua; Gui, Wei-Hua Source: Zidonghua Xuebao/ActaAutomatica Sinica, v 40, n 6, p 1086-1097, June 2014 Language: Chinese

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