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Design of a 100 ton asbestos concentratorGammeter, Walter. January 1923 (has links) (PDF)
Thesis (Professional Degree)--University of Missouri, School of Mines and Metallurgy, 1923. / The entire thesis text is included in file. Typescript. Title from title screen of thesis/dissertation PDF file (viewed May 21, 2010) Includes bibliographical references (p. 34-35).
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Some accomplishments through simplification of concentrator flow-schemeConrads, Ralph Augustus. January 1923 (has links) (PDF)
Thesis (Professional Degree)--University of Missouri, School of Mines and Metallurgy, 1923. / The entire thesis text is included in file. Typescript. Illustrated by author. Title from title screen of thesis/dissertation PDF file (viewed June 10, 2009) Includes bibliographical references (p. 16).
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Simulation of packed column jiggingDai, Qiang January 1999 (has links)
Thesis (M.S.)--West Virginia University, 1999. / Title from document title page. Document formatted into pages; contains xiii, 131 p. : ill. (some col.). Vita. Includes abstract. Includes bibliographical references (p. 61-64).
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Removal of trace elements from coal using a multiple-property processing circuit /Hill, David T., January 1994 (has links)
Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1994. / Vita. Abstract. Includes bibliographical references (leaves 75-77). Also available via the Internet.
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An investigation of the hydrodynamics of the teetered bed separator for fine coal recovery.January 2005 (has links)
The South African coal industry produces a
large quantity of coal per annum. The rejects
from various unit operations, such as spirals,
consist of fine coal that joins the plants
tailings dam waste. As existing high quality
resources become depleted, the need to improve
recovery of this fine coal grows. This project
investigates the use of a teetered bed
separator (TBS); a hindered settling gravity
concentration device for fine coal recovery.
This device has proven successful in the
United Kingdom and in Australian collieries
for fine coal separation in the size range
between 2mm and 0.3mm. It has also been used
for decades as a classifying device for silica
sand and tin. The TBS operates in the size
range of water-only cyclones and spiral
concentrators, and could potentially be used
to separate a broader size range of coal fines
so as to offer a lower footprint device for
the fines recovery section of a plant. Spiral
concentrators cannot always be operated
efficiently at a separating specific gravity
of lower than 1.6; a TBS may also extend the
density range for separation and thus improve
recovery. The objective of this project was to
gain a full understanding of the TBS from
fundamental particle interaction and develop a
lab scale unit, which is capable of separation
to about 0.1mm at optimum conditions. This
involved the development of design parameters
based on the various distributor plates and
flow pattern modelling. The hydrodynamics of
the separator were investigated using the
Eulerian-Eulerian modelling approach of
commercial CFD package, Fluent 6.1. Seven
distributor plates of varying aperture size
and geometric arrangement were considered.
Coal and shale particles, sized between 2mm
and 0.038mm with a specific gravity (SG) range
of 1.2 to 2.0, were separated using the
laboratory scale unit. The results of both the
simulations and the laboratory tests were then
compared. The simulations revealed that Plate
3 was the best option for implementation. It
had an even upward velocity profile compared
to the other plates, with minimum wall effects
and disturbances. The upward water flow rate
(teeter water) was varied experimentally and
the composition of the teeter bed, underflow
and overflow were analysed using 1.5, 2 and
Smm cubic density tracers with an SG range of
1.2-2.0. Analysis of the partition curves of
the distributor plates revealed that Plate 3
had the lowest Ecart Probable (Ep) and cut-
point densities. The comparison of simulated
results and experimental results show that the
simulator could predict the distributor plate
design with the lowest Ep in practical tests.
The simulator could be beneficial when
optimising an industrial scale unit, by
allowing prediction of improved segregation
patterns and thus separation efficiency. / Thesis (M.Sc.)-University of KwaZulu-Natal, Durban, 2005.
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Characterizing the gravity recoverable platinum group mineralsXiao, Zhixian, 1970- January 2008 (has links)
Modeling gravity recovery of platinum group minerals (PGMs) in the grinding circuit is based on three components: Ore characterization of gravity recoverable platinum group minerals (GRPGM), their behavior in grinding mills and hydrocyclones, and the performance of the gravity recovery units. This thesis focuses on the first two components. / A laboratory methodology to characterize gravity-recoverable platinum group minerals (GRPGMs) in an ore with four incremental liberation and recovery stages was developed. It was applied to quantify GRPGM content of four ore samples from Canada. To measure the behavior of GRPGMs in the grinding circuit, a methodology to characterize the already liberated (or available) GRPGMs in the circuit streams was developed. The availability of GRPGM in streams, such as ball mill discharge, was used to model the behavior of the GRPGMs in the ball mills and hydrocyclones. Combining with the potential GRPGM in an ore, they can be used for design and/or optimization of platinum group mineral recovery circuit. / The GRPGM content measured by this methodology varied from 5 to 81% depending on the ore. The GRPGM size distribution varied from fine (most GRPGM below 37mum) to coarse (significant content above 212 mum). The stage size-by-size recovery and the total GRPGM content indicate that the methodology can quantify the GRPGM content of ores. / Based on the measurement of the availability of GRPGM in process streams, the behavior of PGMs in ball mills and hydrocyclones is characterized in terms of the less common cumulative selection functions and conventional classification efficiency curves. Mineralogical analysis indicates that sperrylite (PtAs 2) is the dominant platinum mineral at the Clarabelle mill. Its classification efficiency is similar to that of gold, despite its lower density, while grinding rate is significantly higher than gold. The cumulative selection function of platinum and palladium is 1.3 times higher than the ore for size classes above 212 mum and 50 to 70% of the ore below 212 mum. / As a result, sperrylite accumulates in finer sizes than native gold in the grinding circuit. The cumulative selection function of the platinum group minerals was calculated for the Clarabelle grinding circuit based on the survey data and the GRPGM contents in the ball mill discharge, cyclone underflow, and overflow. / The methodology of characterizing the content of GRPGMs in an ore also offers a way to concentrate the minerals for mineralogical study. The use of secondary electron microscopy (SEM), variable pressure SEM and QEM*SEM for qualitative analysis of platinum group mineral mineralogy is presented and discussed. Most of the GRPGMs recovered are well liberated. Qualitative mineralogical analysis of the GRPGM and its associations in ore samples are also discussed.
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Characterizing the gravity recoverable platinum group mineralsXiao, Zhixian, 1970- January 2008 (has links)
No description available.
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Removal of trace elements from coal using a multiple-property processing circuitHill, David T. 24 January 2009 (has links)
The U.S. Environmental Protection Agency is conducting a three-year study of toxic air emissions specific to coal fired utilities to assess the potential health risks of trace elements released during coal combustion. Several trace elements in coal associate with the mineral matter while others associate with pyrite. Researchers at the Virginia Center for Coal and Minerals Processing have developed a multiple-property processing circuit capable of providing high rejections of ash-forming mineral matter and pyritic sulfur. Reductions were expected for trace elements associated with the mineral matter and pyritic sulfur in proportion to ash and pyrite reductions. Trace elements associated with the organic fractions of coal that may be more difficult to remove by physical cleaning are ideal candidates for removal by chelating agents. The purpose of this study was to determine whether trace elements can be effectively separated from coal using the circuit followed by chelating agents. Thirteen of the sixteen trace elements examined in this study were reduced (27-93%) in concentration by the circuit. EDTA further reduced (2-17%) the concentrations of several trace elements in the circuit product coals. EDTA was found to be effective at low concentration and without pH adjustment I providing a practical means for further reducing the concentrations of several trace elements beyond circuit processing. / Master of Science
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