Dekontaminasi Parameter Biologi dan Pathogen Menggunakan Biofilm Konsorsium Bergerak Dilanjutkan dengan Integrasi Pengolahan Fisik (Pengendapan-Sterilisasi) Secara Simultan


  • Rizka Novembrianto UPN "VETERAN" JAWA TIMUR
  • Restu Hikmah Ayu Murti Program Studi Teknik Lingkungan, Universitas Pembangunan Nasional “Veteran” Jawa Timur, Surabaya, Indonesia
  • Muslikha Nourma Rhomadhoni Prodi D-IV Keselamatan dan Kesehatan Kerja, Universitas Nahdlatul Ulama Surabaya, Surabaya, Indonesia



domestic, organic, media, ultraviolet


The amount of domestic wastewater without prior treatment is discharged into water bodies so that it is felt that the quality is decreasing day by day. Organic content and microorganisms are a concern in terms of quality. The high content of organic and microorganisms such as Total coliform. Decreasing these parameters is the main goal in this study. In the aerobic process, organic processing uses an air supply of 20 L/min in suspended and attached treatment for attached media using K5 caldnes media and spiked bioball, each of which is 30% of the reactor volume, preceded by the seeding and acclimatization process. Variations in processing time used were suspended for 2 hours and attached for 6 hours and vice versa. Furthermore, it is processed by simultaneous physical processing, namely the process of deposition and sterilization with exposure and deposition times of 2 to 6 hours. Based on the results of the study showed that seeding and acclimatization were carried out for 21 days. The best processing was obtained using suspension for 2 hours, attached for 6 hours on kaldnes K5 media and precipitation as well as exposure to ultraviolet light for 6 hours showed a decrease in COD of 92.85% and for Total coliforms of 98.67%.

Keywords: domestic, organic, media, ultraviolet


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Amshawe, J., Yunus M. Y. 2021. Geometry of biofilm carriers: A systematic review deciding the best shape and pore size, Groundwater for Sustainable Development, Volume 12, ISSN 2352-801X,

Ann Hubbs, Dale W. Porter, Robert Mercer, Vincent Castranova, Linda Sargent, Krishnan Sriram. 2013. Chapter 43 - Nanoparticulates, Editor(s): Wanda M. Haschek, Colin G. Rousseaux, Matthew A. Wallig, Haschek and Rousseaux's Handbook of Toxicologic Pathology (Third Edition), Academic Press, Pages 1373-1419,ISBN 9780124157590,

Atnafu, T., Leta, S. 2021. A novel fragmented anode biofilm microbial fuel cell (FAB–MFC) integrated system for domestic wastewater treatment and bioelectricity generation. Bioresour. Bioprocess. 8, 112

Avalos, Mariana & Garbeva, Paolina & Raaijmakers, Jos & Wezel, Gilles. (2019). Production of ammonia as a low-cost and long-distance antibiotic strategy by Streptomyces species. The ISME Journal. 14. 1-15. Doi: 10.1038/s41396-019-0537-2.

Chattopadhyay I, J RB, Usman TMM, Varjani S. 2022. Exploring the role of microbial biofilm for industrial effluents treatment. Bioengineered. Mar;13(3):6420-6440. doi: 10.1080/21655979.2022.2044250. PMID: 35227160; PMCID: PMC8974063.

Chairani, Mustika., Elystia, Shinta., Muria, Sri Rezeki. 2021. Penyisihan Nitrogen Total dalam Limbah Cair Hotel dengan Sistem Moving Bed Biofilm Reactor Menggunakan Chlorella Sp. Jurnal Sains dan Teknologi Vol. 10 No.1. P-ISSN : 2303-3142

Collivignarelli MC, Baldi M, Abbà A, Caccamo FM, Carnevale Miino M, Rada EC, Torretta V. 2020. Foams in Wastewater Treatment Plants: From Causes to Control Methods. Applied Sciences; 10(8):2716.

Dickdoyo, A., & Cahyonugroho, O. 2021. Pengolahan Limbah Domestik Rumah Makan Dengan Moving Bed Biofilm Reactor (Mbbr). Envirotek : Jurnal Ilmiah Teknik Lingkungan, 13(1), 33-36. DOI:

Dhuhan, Fitria, F., Kadaria, U. 2021. Efisiensi Pengolahan Limbah Cair Hotel Menggunakan Moving Bed Biofilm Reactor (MBBR). Jurnal Teknologi Lingkungan Lahan Basah, Vol. 09, No. 2 : 051 – 061. DOI : 10.26418/jtllb.v9i2.47491

Eslami, H., Ehrampoush, M.H., Falahzadeh, H. dkk., 2018. Biodegradation and nutrients removal from greywater by an integrated fixed-film activated sludge (IFAS) in different organic loadings rates. AMB Expr 8, 3

Elkhatat, A.M. 2022. Recent trends of microbial decontamination for occupational, industrial and domestic applications. Bull Natl Res Cent 46, 75 (

Feng, G., Cheng, Y., Wang, SY. et al. 2015. Bacterial attachment and biofilm formation on surfaces are reduced by small-diameter nanoscale pores: how small is small enough?. npj Biofilms Microbiomes 1, 15022.

Hadjeres, H., Pradhanang S, Boving, T., Meadows, M., Benzerrouk, S. 2019. The Case for LED-UVC as a Primary Disinfectant for Small Sustainable Drinking Water Systems. MATEC Web of Conferences 280.

Herlina N, dkk. 2020. Studies on decreasing Chemical Oxygen Demand (COD) and Phosphate on laundry wastewater using anaerobic and phytoremediation with algae plants (Hydrillaverticillata). Journal of Physics: Conference Series. IOP Publishing. DOI 10.1088/1742-6596/1542/1/012027.

Justyna Koc-Jurczyk, Lukasz Jurczyk.,2018. Biological Removal of Ammonia from Municipal Landfill Leachate (Kozodrza, Poland) at Limited Oxygen Access and Presence of Kaldnes Media. J. Ecol. Eng. 2018; 19(2):131–139.

Karo Michaelian, Norberto Santillán Padilla. 2019. UVC photon-induced denaturing of DNA: A possible dissipative route to Archean enzyme-less replication, Heliyon, Volume 5, Issue 6, e01902, ISSN 2405-8440,

Kholif, Muhammad Al., Sutrisno, J., Prasetyo, Ilham Dwi. 2018. Penurunan Beban Pencemar Pada Limbah Domestik dengan Menggunakan Moving Bed Biofilter Reaktor (MBBR). Al-Ard: Jurnal Teknik Lingkungan. Vol.4 No.1 DOI:10.29080/alard.v4i1.365

Kholif, M. A., Alifia, A. R., Pungut, Sugito, dan Sutrisno, J. 2020. Kombinasi Teknologi Filtrasi Dan Anaerobik Buffled Reaktor (ABR) Untuk Mengolah Air Limbah Domestik. Jurnal Kesehatan Masyarakat Indonesia. Volume 15, Nomor 2, DOI: 10.26714/jkmi.15.2.2020.19-24

Kreitenberg, A. 2022. Leejay Polacci BA , Would it be Helpful to Infection Control Professionals to Have the FDA Regulate Whole-Room UVC Devices?, AJIC: Ameri- can Journal of Infection Control doi:

Lazarova, V. 1995. Biofilm characterization and activity analysis in water and wastewater treatment. Water Research, 29(10), 2227–2245. doi:10.1016/0043-1354(95)00054-o

Liang Shen, Tiffany Maria Griffith, Paul Onkundi Nyangaresi, Yi Qin, Xin Pang, Guolong Chen, Minglun Li, Yinghua Lu, Baoping Zhang. 2020. Efficacy of UVC-LED in water disinfection on Bacillus species with consideration of antibiotic resistance issue, Journal of Hazardous Materials,Vol. 386,2020,121968,ISSN 0304-3894,

Morillas, L., Roales, J., Cruz, C., & Munzi, S. 2022. Lichen as Multipartner Symbiotic Relationships. Encyclopedia, 2(3), 1421–1431. MDPI AG. Retrieved from

Nandini Moondra, Namrata D Jariwala, Robin A Christian. 2021. Role of Phycoremediation in Domestic Wastewater Treatment. Water Conservation and Management, 5(2): 66-70. DOI:

Nguyen TMH, Suwan P, Koottatep T, Beck SE. Application of a novel, continuous-feeding ultraviolet light emitting diode (UV-LED) system to disinfect domestic wastewater for discharge or agricultural reuse. Water Res. 2019 Apr 15;153:53-62. doi: 10.1016/j.watres.2019.01.006. Epub 2019 Jan 16. PMID: 30690218; PMCID: PMC6382465.

Novembrianto, R. ., Hikmah Ayu M, R. ., & Rosariawari, F. 2021. Tofu Wastewater Treatment with the Growth Suspended Microorganism

Using Different Air Flowrate. Al-Ard: Jurnal Teknik Lingkungan, 7(1), 01–08. DOI:

Nurhayati, I., Ratnawati, R., dan Sugito. 2019. Effect of potassium and carbon addition on bacterial algae bioremediation of boezem water, Environmental Engineering Research, 24(3): 495-500. DOI:

Fikri, E., Putri N, Y., Djuhriah, N., Hanurawaty, N, Y., Khair, A. S. E. 2022. The Effectiveness of Melt-Blown Filter Cartridge and UV-C Rays on the Reduction of Total Coliform and Water Hardness in Production Process Water. Journal of Ecological Engineering 23(4), 181–190. ISSN 2299–8993, License CC-BY 4.0

Raditieas, Maulana, R., Ruhmawati, T., Ardiani, Y., Teguh Budi. 2019. Perbedaan Waktu Operasional Aerator Lumpur Aktif Terhadap Kadar BOD, DD, SVI Limbah Cair Industri Susu. Jurnal Riset Kesehatan Poltekkes Depkes Bandung Volume 11 No 2.

Ratnawati, R., Ulfah S, L. 2020. Pengolahan Air Limbah Domestik menggunakan Biosand Filter. Jurnal Ilmu Lingkungan. DOI: 10.14710/jil.18.1.8-14

Skouteris, G. Rodriguez-Garcia, S.F. Reinecke, U. 2020. Hampel, The use of pure oxygen for aeration in aerobic wastewater treatment: A review of its potential and limitations, Bioresource Technology, Volume 312, 2020, 123595, ISSN 0960-8524,

Nakhli, S.A.A., Ahmadizadeh, K., Fereshtehnejad. 2014. Biological removal of phenol from saline wastewater using a moving bed biofilm reactor containing acclimated mixed consortia. SpringerPlus 3, 112.

Ningtyas, R. 2015. Pengolahan Air Limbah dengan Proses Lumpur Aktif. Thesis. Jurusan Teknik Kimia, Fakultas Teknologi Industri, Institut Teknologi Bandung

Said, Nusa Idaman dan Syabani, Muhammad Rizki. 2014. Penghilangan Amoniak di Dalam Air Limbah Domestik dengan Proses Moving Bed Biofilm Reactor (MBBR). Jurnal Air Indonesia Vol. 7 no.1 DOI:

Subagyo, A., Arifin., Kadaria, U. 2022. Perbandingan Jenis Media Kaldness terhadap Effisiensi Limbah Rumah Makan dengan Metode MBBR. Jurnal Teknologi Lingkungan Lahan Basah, Vol. 10, No. 2 : 239 – 246. DOI:

Sulfikar, Ryo Honda, Mana Noguchi Ryoko Yamamoto-Ikemoto, Toru Watanabe. 2018. Effect of Sedimentation and Aeration on Antibiotic Resistance Induction in the Activated Sludge Process Journal of Water and Environment Technology, Vol. 16, No. 2: 94–105.

Widyarani, Wulan, D.R., Hamidah, U. et al. 2022. Domestic wastewater in Indonesia: generation, characteristics and treatment. Environ Sci Pollut Res 29, 32397–32414.

Winarti, Cuti. 2020. Penurunan Bakteri Total coliform pada Air Limbah Rumah Sakit Terhadap Pengaruh Lama Waktu Penyinaran Dengan Sinar Ultra Violet. Jurnal Rekayasa Lingkungan. Vol. 20 No. 1.



How to Cite

Novembrianto, R., Murti, R. H. A., & Rhomadhoni, M. N. (2023). Dekontaminasi Parameter Biologi dan Pathogen Menggunakan Biofilm Konsorsium Bergerak Dilanjutkan dengan Integrasi Pengolahan Fisik (Pengendapan-Sterilisasi) Secara Simultan. Al-Ard: Jurnal Teknik Lingkungan, 8(2), 74–82.