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  • NIOSH
    In-Mine Treatment Of Acidic Drainage Using Anaerobic Bioreactors - Objective

    To develop an in-mine water treatment system in which bacterial sulfate reduction and limestone dissolution continuously remove metals and acidity from contaminated drainage. Approach A section

    Jan 1, 1994

  • CIM
    In-mould electromagnetic stirring-cast billet and bar product quality

    By G. C. Weatherly, L Beitelman, M Gray, M. W. Bates, R Hadden

    "A program of evaluation of in-mould electromagnetic stirring on the product of a straight-mould, billet continuous casting machine has been carried out. The effects on macrostructure, surface and int

    Jan 1, 1982

  • AUSIMM
    In-pit backfilling as part of integrated life-of-mine waste scheduling, closure planning and AMD risk management – Martabe Mine as a case study

    By K Grohs, A Satriawan, S R. Pearce

    Martabe gold and silver mine is operated by PT Agincourt Resources (PTAR) and is situated in northern Sumatra and comprises several deposits in steep terrain, and in a tropical climate, that are requi

    Aug 2, 2023

  • SAIMM
    In-Pit Crusher Location as a Dynamic Location Problem

    By M. Paricheh, M. Rahmanpour

    "The cost efficiency and high reliability of semi-mobile or combined in-pit crushing-conveying (IPCC) and truck systems, compared to conventional truck-shovel systems alone, make them more attractive

    Jan 1, 2017

  • AUSIMM
    In-Pit Crushing and Conveying

    By I Lourel

    In evaluating the installation of an in-pit crushing and conveying (IPCC) system for any mine, a number of options are available for each of the dig side, transport and dump side operations. Some of t

    Jan 1, 2009

  • AUSIMM
    In-Pit Crushing and Conveying (IPCC) - A Tried and Tested Alternative to Trucks

    By A Cooper

    The current financial climate has given rise to fears that falling mineral prices and tight credit will force mining companies to cut back on production and new project development in a bid to cut cos

    Jan 1, 2009

  • AUSIMM
    In-Pit Crushing and Conveying (IPCC) - An Economic Alternative to Trucks that Delivers on Safety and the Environment

    If the industry keeps doing what it has always done, it will continue to get what it has always got - rising operating costs. Why is this so? Generally grades being chased are becoming lower, strippin

    Jun 1, 2010

  • SME
    In-Pit Crushing And Conveying At Highland Valley Copper

    By D. M. Richards, A. D. MacPhail

    Highland Valley Copper currently mines two low-grade ore bodies, Lornex and Valley. The partnership was formed in 1986. As a cost reduction measure, it was decided to use an in-pit crushing and convey

    Jan 1, 1995

  • SME
    In-Pit Crushing And Conveying At Highland Valley Copper (ed32fdb4-81a8-44a9-9ceb-c2871da4e7e5)

    By A. D. MacPhail

    The Highland Valley Copper partnership was formed in July 1986 and was the logical result of a mine with a large ore reserve but no adequate mill, and a mine with a large, modem mill but dwindling ore

    Jan 1, 1993

  • CIM
    In-pit crushing and conveying reduces haulage costs

    By R. D. Clark, Heinz Althoff

    "The advantages and disadvantages of a mobile crushing plant with a belt conveyor system compared to a stationary crushing plant with haulage by heavy trucks are described. The capital expenditure and

    Jan 1, 1986

  • AUSIMM
    In-Pit Crushing and Conveying System and Dexin Pit Copper Haulage Optimisation for Ore Transport

    The output of Dexin Pit Copper is up to 33 million tonnes a year and the final depth is more than 500 m. As a cost reduction measure, the in-pit crushing and conveying system has was introduced to del

    Jan 1, 2003

  • SME
    In-Pit Crushing And Conveying Systems

    By J. Korak

    Belt conveyor systems, long the standard transportation technique in soft-rock open-pit applications, are encountering growing interest in the hard-rock open-pit sector as economic factors force compa

    Jan 1, 1985

  • CIM
    In-Pit Crushing and Conveying: Fitting a Square Peg in a Round Open Pit

    By Robert J. McCarthy

    Many technologies have been adopted over the last half century for the haulage of material from open pit mining operations. Some of the technologies utilized include rail, off-highway trucks, conveyor

    May 1, 2011

  • AUSIMM
    In-pit In Situ Recovery – a New Approach That May Allow for Increased Value Extraction before Pit Closure

    By D J. Robinson, L L. Kuhar

    "Regardless of orebody value, at some stage, the pit will reach a depth where the reward for mining wider and/or deeper is not justified by the anticipated returns. ‘Last-blast’ strategies may help to

    Nov 15, 2016

  • AUSIMM
    In-pit Tailings Disposal at Langer Heinrich – Tailings Storage Facilities in a Unique Hydrogeological Setting

    By D Luppnow, C Hore

    In-pit tailings storage can provide many advantages when compared to typical above-ground tailings storage facilities (TSFs). As regulations become more restrictive and existing mines expand into new

    Jul 27, 2015

  • AUSIMM
    In-Pit Tailings – World’s Best Practice for Long-Term Management of Tailings

    By G M. Mudd

    Mine tailings represent one of the two largest sources of mine waste from the minerals industries (the other being waste rock). Given the problems of declining ore grades and growing production, taili

    Aug 8, 2011

  • SME
    In-Place Leaching -Miami Mine -Miami, Arizona

    By James B. Fletcher

    The Miami mine is located near the town of Miami, Gila County, Arizona. The Miami mine started mining in 1910 and finished in July, 1959. The orebody was divided and mined as follows: Tons High Grade

    Jan 1, 1971

  • AIME
    In-Place Leaching at Miami Mine, Miami, Arizona

    By James B. Fletcher

    Leaching of the block caved mine from 1941 through 1970 is described, and the improvements made are listed. Detailed is the increased knowledge of leaching gained through this operation, including met

    Jan 1, 1972

  • AIME
    In-Place Leaching Of Primary Sulfide Ores: Laboratory Leaching Data And Kinetics Model

    By M. E. Wadsworth, A. E. Lewis, R. L. Braun

    Experimental results obtained in laboratory leaching studies of primary copper sulfide ore in sulfuric acid systems pressurized with oxygen are interpreted by a computerized geometric model involving

    Jan 1, 1974

  • SME
    In-Plant Evaluation of Reagents for Flotation Of Sulfide Ores

    By G. Granger, D. Malhotra

    The paper briefly reviews the criteria employed in the selection of chemical reagents for testing and discusses the steps involved in laboratory and plant evaluation of these reagents. An example of s

    Jan 1, 1986