STUDI OPTIMASI PROSES PRESIPITASI LOGAM NIKEL PADA AIR LIMBAH PEMBUATAN PLAT CETAK
Nickel is one of the heavy metal that can cause respiratory problems and cancer in human health. One of the developing technologies in this area is precipitation process which is widely known for its cost-effective, easy to manage, and high heavy metal removal efficiency. Based on that, this expe...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/34696 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Nickel is one of the heavy metal that can cause respiratory problems
and cancer in human health. One of the developing technologies in this area is
precipitation process which is widely known for its cost-effective, easy to
manage, and high heavy metal removal efficiency. Based on that, this experiment
was conducted with purpose for determining the type of precipitation processes
that could have the highest nickel removal efficiency in plate making wastewater
from printing industry. The external conditions such as pH and dosage that
influence the precipitation process were also investigated. This experiment used 3
types of precipitation process, which were hydroxide precipitation, carbonate
precipitation and hydroxide co-precipitation using Fe. This experiment was
performed on synthetic wastewater which has initial soluble nickel content of 500
ppm. The type that had highest nickel removal efficiency would be applied on
actual wastewater with initial nickel concentration up to 3317 ppm. Final nickel
content was measured after the Jar Test (rapid stirring: 100 rpm for 1 minute ;
slow stirring: 60 rpm for 10 minutes) and sedimentation in 2 hours preceded by
reagent addition and pH adjustment. AAS (Atomic Absorption
Spechtrofotomethry) was used for measuring nickel concentration. Based on the
results of the study, the type of precipitation that has the best nickel removal
efficiency was hydroxide co-precipitation using Fe at optimum pH 10 and
optimum ratio dosage Fe : Ni was 1 : 1. This precipitation process gave nickel
removal efficiency of 99.96% on synthetic wastewater and 99.93% on actual
wastewater |
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