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  • SME
    Reagent Concentration Gradient Control In Flotation Columns

    By M. R. Peterson

    The U.S. Bureau of Mines has investigated new methods for increasing the selectivity in flotation by creating and regulating reagent concentration gradients within flotation columns at steady-state op

    Jan 1, 1992

  • SME
    Reagent Conditioning For Improved Flotation Selectivity

    By C. E. Jordan

    The Bureau of Mines has investigated the fundamentals of fatty acid/fuel oil conditioning for improved flotation selectivity. Both conditioning time and intensity can provide optimum flotation selecti

    Jan 1, 1995

  • AIME
    Reagent Control in Flotation

    By C. H. G. Bushell, M. Malnarich

    Reagent control in flotation is more an art than a science. Operators vary the amount of re- agents used according to the metallurgy obtained. The amount of collector may be increased, for example, if

    Jul 1, 1956

  • SME
    Reagent Development in the 90's - A Perspective

    By M. J. Virnig, G. A. Kordosky

    Throughout time, the mining industry has been very successful in meeting the world's requirements for metals and materials while meeting the challenges of decreasing ore grades and increased emph

    Jan 1, 1994

  • SME
    Reagent in the Mining Industry: Commodities or Specialty Chemicals?

    By Deepak Malhotra

    Following a severe recession in the early 1980's, mining companies have taken significant steps to improve metallurgy and reduce operating costs. They do not view chemical reagents and the long-t

    Jan 1, 1994

  • SME
    Reagent Interactions

    By William F. Riggs

    In the fresh application of a frother, collector, or the change of any particular reagent, the interaction caused by this change is often overlooked since we attempt to solve a problem or improve a si

    Jan 1, 1994

  • SME
    Reagent Manufacture At Nevada Mines Division ? Introduction

    By J. J. Harrington

    Manufacture and mixing of flotation reagents at the mill site provides an economic and convenient method of maintaining a continuous and fresh supply of reagents for concentrator operations. Kennecott

    Jan 1, 1976

  • CIM
    Reagent Optimization for Improved Selectivity of Floating Copper Minerals against Pyrite

    By J. Ji, A. Shi, B. Grcic

    Floating copper minerals selectively against iron minerals such as pyrite has been challenging for most copper and copper/gold deposits, and many operations continuously strive to maximise copper reco

    Jan 1, 2019

  • SME
    Reagent Preparation, Distribution and Feeding Systems at the Tilden Mine

    By Charles U. Keranen

    The Tilden Mine is an iron ore mining, processing and pelletizing facility located on the Marquette Iron Range in Michigan's Upper Peninsula. It has a designed capacity to produce 8 million long

    Jan 1, 1986

  • CIM
    Reagent Selection at the Gibraltar Mine for Improved Process Performance

    By F. Chachula, A. Molinaro

    "Sulphide mineral flotation operations continuously strive for a balance between mineralogy, mineral liberation, circuit conditions and reagent solutions to maximize the production rate and recovery o

    Jan 1, 2018

  • SME
    Reagent Testing - Improving the Odds for Correct Decisions

    By J. M. Keating, R. L. Wiegel

    Those processing plants which depend on flotation for their mineral separations are always looking for reagents which are cheaper, more selective or in some other way may provide improved economic per

    Jan 1, 1986

  • SME
    Reagent Use in the U.S. Iron Ore Industry

    By Harold E. Goetzman, Blair R. Benner

    The U.S. iron ore industry is located primarily in Northern Minnesota and Michigan's Upper Peninsula with one additional small plant in Missouri. There are currently some 10 plants operating that

    Jan 1, 1994

  • IMPC
    Reagent-enhanced Destruction of Flotation Froths

    By M. P. Krasteva

    The froth flotation process for separation of mineral ores depends on the establishment of care-fully controlled froth. The formation of very stable froth in the flotation circuit is a problem that ma

    Jan 1, 2014

  • SME
    Reagents Design and Molecular Recognition at Mineral Surfaces

    By Pradip

    The development of highly selective mineral processing reagents, which are not merely metal-ion specific, but specific to the particular mineral surface structure, is essential for the exploitation of

    Jan 1, 1994

  • SME
    Reagents for the Flotation of Non-Sulfide Ores

    By F. F. Aplan

    Rather than reiterate what is well known about the flotation of the non-sulfide minerals, emphasis has been placed on those separations which are not so effective. These difficult separations are larg

    Jan 1, 1994

  • SME
    Reagents for the Minerals Industry

    By Richard R. Klimpel

    INTRODUCTION The purpose of this paper is to summarize the current status of reagents used in the mineral industry plus present some current challenges and possible new technologies of the future.

    Jan 1, 1989

  • CIM
    Reagents in Coal Preparation: Where Do They Go?

    By J. P. Morris, J. T. Novak, E. A. Sarver

    "A variety of reagents are utilized in coal preparation, but aside from performing their desired function relatively little is known about the behavior of these reagents within the processing circuits

    Jan 1, 2012

  • SME
    Reagents of Biological Origin in Metallurgy

    By Yelloji M. K. Rao, P. Somasundaran

    Reagents of biological origin are becoming more and more important in the field of metallurgy, especially in the areas of mineral processing and hydrometallurgy. The advantage of lower operating cost

    Jan 1, 1994

  • SME
    Reagents Used in Coal Preparation

    By B. J. Arnold, F. F. Aplan, S. Chander

    There is a broad range of chemical reagents of potential use to the coal preparation industry: flotation frothers, flotation collectors (for coal, ash minerals or pyrite) and collector-assisting (cond

    Jan 1, 1986

  • SME
    Reagglomeration Phenomena In Fine Dry Grinding Of Coal

    By R. Hogg, E. Kaya, H. Cho

    Investigations were performed on fine grinding of bituminous coal in a laboratory-scale pulverizer. The results indicated that the breakage behavior at relatively coarse sizes (i.e., greater than abou

    Jan 1, 1998