DOMESTIC WASTEWATER TREATMENT WITH MODIFIED ADDITION OF PUMICE AND PALM FIBERS-GRAVEL FILTER IN THREE CONCENTRIC SEPTIC PIPES (TRIPIKON-S) FOR APPLICATION IN SPECIFIC AREAS
One of the problems faced by slums is the low access to good sanitation. This is a challenge in improving and increasing access to sanitation by paying attention to the selection of appropriate, affordable, sustainable technology, and in accordance with the environment. One technology that can be...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/87047 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | One of the problems faced by slums is the low access to good sanitation. This is a
challenge in improving and increasing access to sanitation by paying attention to
the selection of appropriate, affordable, sustainable technology, and in accordance
with the environment. One technology that can be applied to slums is Tripikon-S
which consists of three (tri) concentric (pi) pipes (kon) septic (S), as one of the
domestic wastewater treatment solutions for specific areas. Various modifications
have been made to achieve the best efficiency. In this study, laboratory-scale testing
was carried out on the Tripikon-S modification with the addition of pumice stones
in the large pipe (third pipe) and a fiberglass-gravel filtration system in the
Tripikon-S outlet pipe. Pumice stones are placed on the outermost 8-inch pipe as
many as 45 pieces. The fiberglass-gravel filter is located at the outlet end of the
reactor with a thickness of 10 cm each for fiberglass and 10 cm for gravel. Testing
of this modified reactor is divided into batch and continuous processes. In the batch
process, the waste variation used is black water waste with a COD load of 500
mg/L, 750 mg/L, and 1,000 mg/L which is run for 3 days. Then continued testing
the performance of the reactor under continuous conditions with variations of black
water waste (COD 750 mg/L) and mixed wastewater waste (300 mg/L) run with
HRT 48 hours (2 days). Analysis of COD removal kinetics using first-order kinetics
and bacterial growth was analyzed using Monod kinetics. To identify the microbial
community on pumice, the 16 r-RNA sequencing method was used, and the
Scanning Electron Microscope method was used to look at the morphology of the
attached media, namely pumice. The removal in the batch process resulted in ?max
0.0168/hour, Ks 421.023 mg/L COD/hour, and yield 1.829. The substrate
degradation rate (k) at concentrations of 500, 750, and 1,000 mg/L was found to
be 0.0612/hr, 0.0518/hr, and 0.0489/hr, respectively. The black water effluent
removal showed that the modified reactor was better than the control reactor. The
addition of fiber-gravel filters in the continuous process did not provide an increase
in efficiency in the COD parameter of 17.75% and TSS of 24.86%. The test results
(p = 0.223) show that there is no significant difference in the modified Tripikon-S
in the treatment of black water waste compared to mixed water waste. |
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