Article Per Year (5 Year)
p-Index From 2019 - 2024
0.23
P-Index
This Author published in this journals
All Journal Jurnal Kimia (Journal of Chemistry)
J. B. Butler
Unknown Affiliation
Chemistry

Published : 1 Documents Claim Missing Document
Claim Missing Document
Check
Articles

Found 1 Documents
Search

 1 
PENURUNAN COD, BOD, TSS, AMONIA DAN KOLIFORM AIR LIMBAH RUMAH POTONG HEWAN DENGAN BIOFILTER AEROBIC FIXED-BED REACTOR DAN KLORINASI J. B. Butler; I. W. Budiarsa Suyasa; I. M. S. Negara
Jurnal Kimia (Journal of Chemistry) Vol. 16, No.2, Juli 2022
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/JCHEM.2022.v16.i02.p07

Abstract

Rumah potong hewan (RPH) menghasilkan limbah cair yang mengandung konsentrasi bahan organik yang tinggi yang dapat memberikan efek mencemari badan air dan lingkungan sekitar. Proses pengolahan limbah RPH dapat dilakukan secara biologis yaitu biofiltrasi dengan memanfaatkan mikroorganisme untuk meremediasi lingkungan serta pengolahan secara klorinasi. Upaya dalam pengolahan limbah cair terus dikembangkan. Penelitian ini bertujuan untuk menentukan efektivitas teknik pengolahan biofiltrasi pada Aerobic Fixed-Bed Reactor (AFBR) berbahan media batu apung dan kemudian dikombinasikan dengan klorinasi terhadap penurunan kadar COD, BOD, TSS, amonia, dan bakteri koliform. Metode yang digunakan adalah menggunakan biofilm hasil pembibitan pada batu apung dengan variasi penambahan suspensi aktif dan tanpa suspensi aktif, perlakuan sistem aerasi dengan variasi waktu pengolahan, serta penambahan kaporit dengan variasi dosis klor aktif. Hasil penelitian menunjukkan bahwa penambahan suspensi aktif pada proses pembibitan menghasilkan biofilm yang terbaik, serta efektif dalam menurunkan kadar COD, BOD, TSS, dan amonia. Penurunan kadar COD terbaik pada jam ke-36 yaitu 81,60 mg/L dengan efisiensi 57,45%, BOD pada jam ke-36 yaitu 24,67 mg/L dengan efisiensi 65,74%, TSS pada jam ke-42 sebesar 54,0 mg/L dengan efisiensi 85,66%, dan amonia pada jam ke-42 yaitu 1,5539 mg/L dengan efisiensi 88,29%. Klorinasi yang dilakukan setelah pengolahan dengan AFBR menghasilkan penurunan jumlah bakteri koliform dari 1.100 MPN/100 mL menjadi 0 MPN/100 mL dengen efisiensi 100%. Proses klorinasi tersebut menghasilkan dosis klor optimum yaitu 165 ppm dengan residu klor 28,80 mg/L. Dengan demikian, waktu pengolahan 36-42 jam pada AFBR kemudian dilanjutkan klorinasi dengan dosis klor 165 ppm relatif cukup efektif dalam menurunkan kadar COD, BOD, TSS, amonia, dan bakteri koliform air limbah RPH. Kata kunci: amonia, biofilter, klorinasi, koliform. ABSTRACT Slaughterhouses produce wastewater containing high organic matter, which has the effect of polluting water and the surrounding environment. Slaughterhouse wastewater treatment can be done biologically, namely biofiltration, by utilizing microorganisms and chlorination. Efforts in wastewater treatment continue to be developed. This study aimed to determine the effectiveness of biofiltration processing techniques with an Aerobic Fixed-Bed Reactor (AFBR) with pumice stone media combined with chlorination to reduce the levels of COD, BOD, TSS, ammonia, and coliform bacteria. The method applied was to use biofilms from the seedings on pumice with variations of with or without the addition of active suspension, aeration system treatment with time variations, and the addition of chlorine with variations of active chlorine doses. The results showed that the addition of active suspension in the process produced the best biofilm, and was effective in reducing the levels of COD, BOD, TSS, and ammonia. The best reduction of COD levels was at the 36th hour at 81.60 mg/L with an efficiency of 57.45%, BOD at the 36th hour was 24.67 mg/L with an efficiency of 65.74%, TSS at the 42nd hour was 54.0 mg/L with an efficiency of 85.66%, and ammonia at the 42nd hour of 1.5539 mg/L with an efficiency of 88.29%. Chlorination after the treatment with AFBR resulted in a decreased number of coliform bacteria from 1,100 MPN/100 mL to 0 MPN/100 mL with 100% efficiency. The chlorination process resulted in the optimum chlorine dose of 165 ppm with a chlorine residual of 28.80 mg/L. Thus, the treatment for 36-42 hours on AFBR followed by chlorination with a chlorine dose of 165 ppm was relatively effective in reducing COD, BOD, TSS, ammonia, and coliform levels of bacteria in slaughterhouses wastewater. Keywords: ammonia, biofiltration, chlorination, coliform.
Co-Authors I W BUDIARSA SUYASA I. M. S. Negara