STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)

STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)

</b>Abstract:<p align=\"justify\"> <br /> Since the column flotation cell was discovered, it has attracted much attention for its in separation of valuable mineral, especially fine coal particles which represent good result compared to convention flotation cell.<p ali...

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Main Author: Harminuke Eko Handayani, Rr.
Format: Theses
Language:Indonesia
Subjects:
Pertambangan dan operasi berkaitan
Online Access:https://digilib.itb.ac.id/gdl/view/4984
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:4984
spelling id-itb.:49842006-05-31T10:43:30ZSTUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL) Harminuke Eko Handayani, Rr. Pertambangan dan operasi berkaitan Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/4984 </b>Abstract:<p align=\"justify\"> <br /> Since the column flotation cell was discovered, it has attracted much attention for its in separation of valuable mineral, especially fine coal particles which represent good result compared to convention flotation cell.<p align=\"justify\"> <br /> This experiment will perceive how column flotation cell can separate clean coal from its mineral matter with considering the kinetics. <br /> To know quantitatively the floating of particles in a dimension of fraction, therefore we should know the constant of its flotation rate using <br /> the equation of kinetics flotation. This statement can be formulated in recovery form as general equation, that is {dR} = k1(1-R), so from the above general equation, the multi components experiment data in plot using the equation 1n (1 - R - Rx) = 1n (1 - Rx) - k1t , and for the experiment of double component, there is a component which floating in rate and also a component which floating slowly. The equation is 1n(1-Rs) = - kst and 1n (1 -Rf) = - kft, so it is known the constant of flotation rate for each dimension of fraction. From this experiment it would be found out the influence of weight composition of dimension fraction to its constant of flotation rate. <br /> The result of the experiments represent that coal with separated multi components experiment has the higher rate compared to simultaneous flotation. <br /> For double component experiment, the fraction size -100+200 mesh is the faster float component compared to -65+100 mesh fraction if the increases of flotation rate constant occurred at the same time with the decreases of fraction size composition of -65+100 mesh in feed.<p align=\"justify\"> text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Pertambangan dan operasi berkaitan
spellingShingle Pertambangan dan operasi berkaitan
Harminuke Eko Handayani, Rr.
STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)
description </b>Abstract:<p align=\"justify\"> <br /> Since the column flotation cell was discovered, it has attracted much attention for its in separation of valuable mineral, especially fine coal particles which represent good result compared to convention flotation cell.<p align=\"justify\"> <br /> This experiment will perceive how column flotation cell can separate clean coal from its mineral matter with considering the kinetics. <br /> To know quantitatively the floating of particles in a dimension of fraction, therefore we should know the constant of its flotation rate using <br /> the equation of kinetics flotation. This statement can be formulated in recovery form as general equation, that is {dR} = k1(1-R), so from the above general equation, the multi components experiment data in plot using the equation 1n (1 - R - Rx) = 1n (1 - Rx) - k1t , and for the experiment of double component, there is a component which floating in rate and also a component which floating slowly. The equation is 1n(1-Rs) = - kst and 1n (1 -Rf) = - kft, so it is known the constant of flotation rate for each dimension of fraction. From this experiment it would be found out the influence of weight composition of dimension fraction to its constant of flotation rate. <br /> The result of the experiments represent that coal with separated multi components experiment has the higher rate compared to simultaneous flotation. <br /> For double component experiment, the fraction size -100+200 mesh is the faster float component compared to -65+100 mesh fraction if the increases of flotation rate constant occurred at the same time with the decreases of fraction size composition of -65+100 mesh in feed.<p align=\"justify\">
format Theses
author Harminuke Eko Handayani, Rr.
author_facet Harminuke Eko Handayani, Rr.
author_sort Harminuke Eko Handayani, Rr.
title STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)
title_short STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)
title_full STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)
title_fullStr STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)
title_full_unstemmed STUDI KINETIKA FLOTASI BATUBARA DI DALAM SEL FLOTASI KOLOM (COLUMN FLOTATION CELL)
title_sort studi kinetika flotasi batubara di dalam sel flotasi kolom (column flotation cell)
url https://digilib.itb.ac.id/gdl/view/4984
_version_ 1820663552972685312

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