STUDY OF THE EFFECT OF FLOCCULANT TYPE, FLOCCULANT DOSAGE AND SLURRY SOLIDS PERCENTAGE ON DEWATERING PROCESS OF GOLD PROCESSING TAILINGS
Gold is one of the most valuable metals due to its limited availability and special properties. Gold in nature can be found as a mineral or impurity contained in sulfides. Gold found today is generally in complex ores where the concentration of gold is lower and as fine-sized inclusions. Processi...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/74847 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Gold is one of the most valuable metals due to its limited availability and special
properties. Gold in nature can be found as a mineral or impurity contained in
sulfides. Gold found today is generally in complex ores where the concentration of
gold is lower and as fine-sized inclusions. Processing complex ores requires
grinding to an ultra-fine size so that the gold particles can be physically freed from
other particles so that they can then be extracted. Fine particle sizes will be
effectively treated by wet methods resulting in slurry tailings. This tailings
condition is unsafe and carries the risk of possible particle segregation making the
tailings storage facility (TSF) unstable. Fine particles are stable in a suspended
state and require an exceptionally long time to separate from water naturally.
Dewatering can shorten the separation time, reducing the risk and improving the
stability of the TSF. Increased social awareness as well as stringent government
regulations make tailings management planning even more important. Therefore,
this research, which explores and discusses the dewatering process of tailings
slurries with several types of flocculants, is important in order to serve as a
reference in the planning stage of tailings management.
A series of experiments were conducted to study the dewatering process of gold
processing tailings slurry from PT Agincourt Resources using various flocculants
as reagents obtained from PT SNF Florindo. Samples were prepared for
characterization and testing. Flocculant selection was carried out to obtain
flocculants that could provide the best flocculation performance from conventional
flocculant, terpolymer flocculant and acrylamide tertiary-butyl sulfonic acid
flocculant. All selected flocculants were then used in all tests conducted consisting
of pouring test, drainage test, slump test and settling test. Pouring tests were
conducted to study flocculation while drainage tests and slump tests studied the
application of flocculation to the filtration process and settling tests studied the
application of flocculation to the sedimentation process of the tailings slurry.
Flocculant selection provides flocculants that are able to form large flocs using low
doses for conditions of 50% solids, namely Dryfloc 34 E of conventional flocculant
type at 220 grams/ton, Dryfloc 5220 E of terpolymer flocculant type at 140
grams/ton and Dryfloc SU 25 E of acrylamide tertiary-butyl sulfonic acid flocculant
type at 120 grams/ton. The best flocculation process was obtained using Dryfloc
SU 25 E under conditions of percent solids of the tailings slurry sample of 40% and
a dose of flocculant of 120 grams/ton. The use of Dryfloc 34 E with a dose of 240
grams/ton at 50% percent solids of the tailings slurry sample provides the fastest
filtration process. While the shortest sedimentation period was achieved when
adding Dryfloc with a dose of 160 grams/ton 5220 E under conditions of percent
solids of the tailings slurry sample of 20%. Higher flocculant doses can provide
better dewatering results because there are more locations to bind and charge for
destabilization, but excessive doses can cause restabilization of solid particles in
suspension. Increasing the percent solids of the tailings slurry can result in a better
dewatering process because flocculant interactions are easier to occur, but too high
a percent solid can have the opposite result due to a shift in the mechanism towards
hindered settling. |
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