Penggunaan Hidrogen Peroksida pada Kolam Lumpur Aktif Upaya Menghilangkan Filamentous dan Meningkatkan Nilai Index Pengendapan Bio Sludge di PT. X Industri Kertas Jawa Timur
DOI:
https://doi.org/10.55123/insologi.v2i1.1283Keywords:
Paper Industry, Activated Sludge, Filamentous, Hydrogen PeroxideAbstract
The paper industry is one of the industries that can cause river pollution. The processing industry produced from this forest is a contributor to liquid waste which can harm the environment and the living things that live in it. So that an integrated treatment is needed to reduce the hazardous content of the waste that is disposed of. Bacteria is one way that can be used for non-food or food. Filamentous bacteria are the abnormal growth filaments of certain bacteria, one example of which is Escherichia coli. In this study, the quantitative research method was used. The chemicals used are by adding a 0.5% Hydrogen Peroxide solution at a dose of 4 ppm, and using 5 days. Also, the parameters tested in the aeration tank were DO, pH, MLSS, SVI, microscopic filamentous conditions and in the effluent bath, namely DO, pH, TSS, COD, turbidity. The results in the aeration tank with the pH parameter have an average value of 8.018, DO has an average value of 6.09, MLSS with an average of 3770, and SVI of 122. The results in the effluent bath with a pH parameter have an average of 7, 84. DO has an average of 4.13, turbidity has a value of 21.2-60.3 on the fifth day, COD value has an average of 123, and TSS value has an average value of 74.5.
Downloads
References
Cahyono, R. (2007). Dampak Limbah Cair PT Kertas Basuki Rachmat, Banyuwangi Terhadap Kesehatan Masyarakat (Doctoral dissertation, Program Pascasarjana Universitas Diponegoro).
Eikelboom, D. H., & Geurkink, B. (2002). Filamentous micro-organisms observed in industrial activated sludge plants. Water Science and Technology, 46(1-2), 535-542.
Kim, C. W., Koopman, B., & Bitton, G. (1994). INT-dehydrogenase activity test for assessing chlorine and hydrogen peroxide inhibition of filamentous pure cultures and activated sludge. Water Research, 28(5), 1117-1121.
Koopman, B., Bitton, G., Logue, C., Bossart, J. M., & Lopez, J. M. (1984). Validity of tetrazolium reduction assays for assessing toxic inhibition of filamentous bacteria in activated sludge. Toxicity Screening Procedures Using Bacterial Systems, 147-162.
Martins et al., 2004; Rossetti et al., 2005; Wagner et al., 2002
Pagilla, K. R., Jenkins, D., & Kido, W. (1998). Nocardia effects in waste activated sludge. Water science and technology, 38(2), 49-54.
Pal P., Khairnar K., Paunikar W.N. (2014). CAUSES AND REMEDIES FOR FILAMENTOUS FOAMING IN ACTIVATED SLUDGE TREATMENT PLANT: 1School of Environment and Earth Science North Maharashtra University, Jalgaon, Maharashtra,India.
T. Nittami and S. Batinovic (2021) . Recent advances in understanding the ecology of the filamentous bacteria responsible for activated sludge bulking: 1 Division of Materials Science and Chemical Engineering, Faculty of Engineering, Yokohama National University, Yokohama, Japan 2 Department of Physiology, Anatomy, and Microbiology, La Trobe University, Bundoora, Vic., Australia.
Tsang, Y. F., Sin, S. N., & Chua, H. (2008). Nocardia foaming control in activated sludge process treating domestic wastewater. Bioresource technology, 99(9), 3381-3388.
TR Ramothokang, GD Drysdale* and F Bux (2003). Isolation and cultivation of filamentous bacteria implicated in activated sludge bulking: Centre for Water and Wastewater Technology, Durban Institute of Technology, PO Box 953, Durban 4000, South Africa.
Y.F. Tsang *, S.N. Sin, H. Chua (2007). Nocardia foaming control in activated sludge process treating domestic wastewater: Department of Civil and Structural Engineering, The Hong Kong Polytechnic University, Hung Hom, Kowloon, Hong Kong
Wardhana, H. I., Nadila, A., Ramadhan, F., & Rijaluddin, A. F. (2017). Kualitas perairan pada bulan Ramadan di Situ Gintung, Tangerang Selatan, Banten. Jurnal Biodjati, 2(1), 9-20.
Blackbeard, J. R., Ekama, G. A., & Marais, G. R. (1986). A survey of filamentous bulking and foaming in activated-sludge plants in South Africa. Water pollution control (Maidstone), 85(1), 90-100.
Hughes, D. E., Stafford, D. A., & Gaudy Jr, A. F. (1976). The microbiology of the activated‐sludge process. Critical Reviews in Environmental Science and Technology, 6(3), 233-257.
Marsh, T. L., Liu, W. T., Forney, L. J., & Cheng, H. (1998). Beginning a molecular analysis of the eukaryal community in activated sludge. Water Science and Technology, 37(4-5), 455-460.
E. N. Qorimah and S. Sutama, “Studi literatur: media augmented reality (AR) terhadap hasil belajar kognotif,” Jurnal Basicedu, vol. 6, no. 2, pp. 2055–2060, 2022.
D. T. J. Maksum and U. Zuhdi, “Pengembangan media pembelajaran matematika interaktif ‘ILD’ berbasis android dalam materi bangun datar sebagai media belajar siswa kelas 4 sekolah dasar,” JPGSD, vol. 10, no. 1, pp. 182–192, 2022.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2023 Dewi Intan Elok Mayangsari, Rizka Novembrianto
This work is licensed under a Creative Commons Attribution 4.0 International License.
Hak cipta pada setiap artikel adalah milik penulis.
Penulis mengakui bahwa INSOLOGI (Jurnal Sains dan Teknologi) sebagai publisher yang mempublikasikan pertama kali dengan lisensi Creative Commons Attribution 4.0 International License.
Penulis dapat memasukan tulisan secara terpisah, mengatur distribusi non-ekskulif dari naskah yang telah terbit di jurnal ini kedalam versi yang lain, seperti: dikirim ke respository institusi penulis, publikasi kedalam buku, dan lain-lain. Dengan mengakui bahwa naskah telah terbit pertama kali pada INSOLOGI (Jurnal Sains dan Teknologi).
