FLOTATION CONCENTRATION STUDY OF PRINTED CIRCUIT BOARD FROM ELECTRONIC WASTE USING DIESEL OIL AND OLEIC ACID COLLECTORS
Printed Circuit Board (PCB) is a board for placing electronic components on conductive paths that are connected to each other. The amount of PCB waste increases along with the increase in electronic waste. Total electronic waste production in 2019 in the world was 53.6 million metric tons (Mt) an...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/78460 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Printed Circuit Board (PCB) is a board for placing electronic components on
conductive paths that are connected to each other. The amount of PCB waste
increases along with the increase in electronic waste. Total electronic waste
production in 2019 in the world was 53.6 million metric tons (Mt) and Asia was in
the first place with 24.9 Mt. PCBs contribute 7% of the total weight of electronic
waste with a PCB composition consist of 40% metal, 30% plastic, and 30% ceramic.
Conventional disposal of PCB waste produces heavy metals which are dangerous
for organism and the environment. Therefore, PCB waste recycling is carried out
because there are several metals which content is higher than ore. This research uses
mixed C type PCBs with a flotation method using a Philips mixer for conditioning
and a Denver flotation cell for aeration.
A series of two-stage flotation experiments using diesel oil and oleic acid collectors
was operated to study the effect of pH and collector dosage on the density of the
flotation product. High density indicates a large amount of metal. The influence of
feed size fraction on metal content and recovery was also studied. The pH variations
ran at 5, 7, and 9 with dosages of 400, 780, and 1200 gpt in size fractions -210 +149,
-149 +105, -105 +74, and -74 +38 ?m. Flotations were undertaken at a pulp
condition of 15% solids with a mixer stick speed of 1020 rpm and a flotation cell
impeller of 1200 rpm. Flotations were held for 10 minutes for conditioning and 5
minutes for aeration. Density testing was carried out on the flotation product of
variations in pH and collector dosage, and then X-Ray Fluorescence (XRF) analysis
was carried out on the concentrate resulting from flotation variations in size
fractions.
The initial metal content in the PCB sample was 47.61%. Experiments using diesel
oil and oleic acid collectors showed a decreasing trend in metal content and
recovery as the finer feed size fraction. The highest metal content and recovery is
78.66% and 52.17%, were obtained from experiments using a diesel oil collector
with an amount of 780 gpt at pH 7 for the -210 +149 ?m size fraction. The best
experiment for the oleic acid collector was obtained with an amount of 400 gpt at
pH 9 and a size fraction of -210 +149 ?m which resulted in metal content and
recovery is 57.18% and 23.28%. |
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