STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW
Iron is a metal that is widely used in human life. In general, iron is produced from its primary source, namely iron ore by the pyrometallurgical route. However, the presence of impurity minerals in iron ore can disrupt the process and reduce the quality of the iron produced. Therefore a benefici...
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id-itb.:542532021-03-15T15:10:13ZSTUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW Fairuz Kalahari, Helmi Metalurgi Indonesia Final Project Iron ore, magnetic concentration, yield, grade INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/54253 Iron is a metal that is widely used in human life. In general, iron is produced from its primary source, namely iron ore by the pyrometallurgical route. However, the presence of impurity minerals in iron ore can disrupt the process and reduce the quality of the iron produced. Therefore a beneficiation process is needed to increase iron content and reduce impurity mineral content in iron ore. One of the methods commonly used in the iron ore beneficiation process is magnetic concentration, because of the magnetic properties of iron ore and this method can be done wet or dry. Wet magnetic concentration is generally carried out using a wet high intensity magnetic separator or WHIMS and a wet low intensity magnetic separator or WLIMS. Meanwhile, dry magnetic concentration is generally carried out using a dry high intensity magnetic separator or DHIMS. However, each magnetic concentration method has its own limitations which affect the process of separating valuable minerals from impurities. This study aims to examine the process variables that exist in the beneficiation of iron ore by the magnetic concentration method and their effects on iron yield and iron content in the concentrate. This research begins with the collection of literature in the form of journals, articles, or books related to iron mineralogy, the theory of magnetism, and iron ore beneficiation by magnetic concentration. The literature that has been obtained is selected so that its content is in accordance with the research topic, then the process variable data from the literature is critically analyzed and conclusions are drawn. The process variables analyzed on the WHIMS tool were feed size, magnetic field intensity, wash water rate, and rotor rate. The process variables analyzed on the DHIMS device were the feed size, magnetic field intensity, feed rate, and rotor rate. Meanwhile, the process variables analyzed on the WLIMS tool were feed size, magnetic field intensity, rotor rate, and solids content. Furthermore, each conclusion is elaborated and compared with the theory from the literature review, so that new conclusions can be obtained that can answer the research objectives. The results showed that the increase in the size fraction of the feed will cause a decrease in the yield and concentration of concentrate, also there is a minimum feed size so that separation between minerals can occur properly. Iron gain will increase with increasing magnetic field intensity and decreasing rotor speed in both WHIMS, DHIMS, and WLIMS tools. In WHIMS, iron gain will increase with increasing wash water rate. In DHIMS, iron recovery will decrease as the feeding rate increases. At WLIMS, iron recovery decreases with increasing solids content. text |
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Metalurgi Fairuz Kalahari, Helmi STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW |
| description |
Iron is a metal that is widely used in human life. In general, iron is produced from
its primary source, namely iron ore by the pyrometallurgical route. However, the
presence of impurity minerals in iron ore can disrupt the process and reduce the
quality of the iron produced. Therefore a beneficiation process is needed to increase
iron content and reduce impurity mineral content in iron ore. One of the methods
commonly used in the iron ore beneficiation process is magnetic concentration,
because of the magnetic properties of iron ore and this method can be done wet or
dry. Wet magnetic concentration is generally carried out using a wet high intensity
magnetic separator or WHIMS and a wet low intensity magnetic separator or
WLIMS. Meanwhile, dry magnetic concentration is generally carried out using a
dry high intensity magnetic separator or DHIMS. However, each magnetic
concentration method has its own limitations which affect the process of separating
valuable minerals from impurities. This study aims to examine the process variables
that exist in the beneficiation of iron ore by the magnetic concentration method and
their effects on iron yield and iron content in the concentrate.
This research begins with the collection of literature in the form of journals, articles,
or books related to iron mineralogy, the theory of magnetism, and iron ore
beneficiation by magnetic concentration. The literature that has been obtained is
selected so that its content is in accordance with the research topic, then the process
variable data from the literature is critically analyzed and conclusions are drawn.
The process variables analyzed on the WHIMS tool were feed size, magnetic field
intensity, wash water rate, and rotor rate. The process variables analyzed on the
DHIMS device were the feed size, magnetic field intensity, feed rate, and rotor rate.
Meanwhile, the process variables analyzed on the WLIMS tool were feed size,
magnetic field intensity, rotor rate, and solids content. Furthermore, each
conclusion is elaborated and compared with the theory from the literature review,
so that new conclusions can be obtained that can answer the research objectives.
The results showed that the increase in the size fraction of the feed will cause a
decrease in the yield and concentration of concentrate, also there is a minimum feed
size so that separation between minerals can occur properly. Iron gain will increase
with increasing magnetic field intensity and decreasing rotor speed in both
WHIMS, DHIMS, and WLIMS tools. In WHIMS, iron gain will increase with
increasing wash water rate. In DHIMS, iron recovery will decrease as the feeding
rate increases. At WLIMS, iron recovery decreases with increasing solids content. |
| format |
Final Project |
| author |
Fairuz Kalahari, Helmi |
| author_facet |
Fairuz Kalahari, Helmi |
| author_sort |
Fairuz Kalahari, Helmi |
| title |
STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW |
| title_short |
STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW |
| title_full |
STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW |
| title_fullStr |
STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW |
| title_full_unstemmed |
STUDY THE EFFECT OF PROCESS VARIABLE ON THE BENEFICIATION OF IRON ORE USING THE MAGNETIC CONCENTRATION METHOD: REVIEW |
| title_sort |
study the effect of process variable on the beneficiation of iron ore using the magnetic concentration method: review |
| url |
https://digilib.itb.ac.id/gdl/view/54253 |
| _version_ |
1822273833360424960 |