STUDY OF THE EFFECT OF ULTRAFINE PARTICLE SIZE AND FROTHER TYPE VARIATIONS ON RECOVERY AND COPPER GRADE IN THE ROUGHER-SCAVENGER FLOTATION CIRCUIT AT PT AMMAN MINERAL NUSA TENGGARA
PT Amman Mineral Nusa Tenggara (PT AMNT) is one of the companies that conducts copper ore mining and processing activities. Copper processing is carried out by flotation process with the final product in the form of copper concentrate. Based on company data, it was found that the majority of tail...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/86395 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | PT Amman Mineral Nusa Tenggara (PT AMNT) is one of the companies that
conducts copper ore mining and processing activities. Copper processing is carried
out by flotation process with the final product in the form of copper concentrate.
Based on company data, it was found that the majority of tailings discharged were
ultrafine (< 9 ?m) and there was a significant decrease in flotation recovery at
ultrafine size. Frother can increase the flotation recovery of ultrafine ore particles.
This research was conducted to study the effect of ultrafine particle size and frother
type variation on copper content and recovery in rougher-scavenger flotation
circuit.
The research was divided into two experiments. The first experiment begins with
taking samples from the cyclone overflow, rougher concentrate, scavenger
concentrate, and final tail. The samples were then prepared and used for head
content analysis, specific gravity analysis, and Particle Size Distribution (PSD)
analysis. The second experiment began with sampling the final tail stream. The
samples were then prepared and used for head analysis and flotation experiments.
The head analysis consisted of head content analysis, specific gravity analysis, and
PSD analysis. Flotation experiments were carried out with a variety of frother types,
namely without the addition of frother, the addition of weak frother, and the addition
of strong frother, with each variation carried out twice. PSD analysis was conducted
on the flotation tailings. Copper content testing using Atomic Absorption
Spectroscopy was carried out on head samples, flotation concentrate, and PSD
analysis results.
From the experiment, the highest percent distribution of ultrafine-sized ore particles
was obtained in the scavenger concentrate stream of 18.27%. The highest copper
content of ultrafine ore particles was obtained in the rougher concentrate stream at
14.76% Cu. Ultrafine particles cause a decrease in copper recovery in the rougherscavenger
flotation circuit. Copper recovery at ultrafine size in the rougherscavenger
flotation circuit was 67.06%. From the flotation experiment, the highest
average recovery was obtained with the addition of weak frother at 39.95%, then
without the addition of frother at 37.60%, and the lowest with the addition of strong
frother at 37.24%. The highest copper content in the ultrafine-sized concentrate
with the addition of weak frother was 9.87% Cu, then without the addition of frother
was 9.78% Cu, and the lowest with the addition of strong frother was 8.05% Cu.
The addition of frother does not provide a significant increase in recovery and
copper concentrate content at ultrafine size when compared to flotation without the
addition of frother. |
|---|