Suitable technology for a household scale workshop systems for the treatment of wastewater
DOI:
10.29303/jpm.v18i3.4927Published:
2023-05-31Issue:
Vol. 18 No. 3 (2023): May 2023Keywords:
Appropriate Technology, Wastewater, WorkshopArticles
Downloads
How to Cite
Downloads
Metrics
Abstract
One of the causes of water pollution is the presence of workshop activities. Gasoline residue from washing spare parts and washing hands after repairing and maintaining motor vehicles can harm the surrounding environment, namely water pollution. This study aims to determine the efficiency of reducing the levels of pH, BOD, COD, TSS, oil and grease, Ammonia, and total coliform in wastewater from Astra workshop operations using three treatment and treatment units in the piping section and to determine the design of wastewater treatment tanks for operation astra workshop. Based on the preliminary test results, the waste from Astra workshop activities had a pH content of 7.2, a BOD content of 2.9 mg/l, a COD content of 58 mg/l, a TSS content of 2.45 mg/l, an oil and fat content of 8.702 mg/l, the ammonia content was 0.027 mg/l. The total coliform content was 2000 MPN/ml. Of these values, there is one parameter that does not meet the quality standards according to the Decree of the Minister of Environment and Forestry No. 68 of 2016 concerning Domestic Waste Quality Standards, namely a pH concentration of 6-9, a maximum level of BOD of 30 mg/l, a maximum level of COD of 100 mg/l, a maximum level of TSS of 30 mg/l, a maximum concentration of oils and fats allowed 5 mg/l, maximum ammonia concentration of 10 mg/l, and maximum permitted total coliform content of 3000 MPN/ml. This workshop liquid waste treatment uses three treatment and treatment units in the piping section with one filtration media, which is carried out in duplicate to anticipate and minimize the possibility of errors that can occur during the process. Efficiency in reducing parameters in liquid waste from Astra workshop operations using filtration media and treatment in the piping section can reduce the pH concentration by -15.29%, from an initial concentration of 7.2 to 8.5, TSS by 59.18% from an initial concentration of 2.45 mg/l to 1 mg /l. BOD was 72.41% from an initial concentration of 2.9 mg/l to 0.8 mg/l. COD was 65.51% from an initial concentration of 58 mg/l to 20 mg/l. Fatty oil was 45.41% from an initial concentration of 8,702 mg/l to 4.75 mg/l. Ammonia by 48.14% from the initial concentration of 0.027 mg/l to 0.014 mg/l, and Total Coliform by 100% from 2000 MPN/ml to 0 MPN/ml.
References
Yudo, S. (2010). Condition of Ciliwung River Water Quality at DKI Jakarta Region in Terms of Organic Parameters, Ammonia, Phosphate, Detergents and Coli Bacteria. Indonesian Journal of Aquaculture, 6(1), 34-42.
Lusiana, M., Nasution, S., & Anita, S. Evaluation of Domestic Wastewater Treatment With Communal Wastewater Treatment (Ipal) In Siabu Village, Salo District, Kampar District. Berkala Perikanan Terubuk, 48(3), 568-579.
Meka, W., Ridwan, A., Fitri, Y., Dewilda, Y., Mahendra, R. A., Rezeki, T. N., ... & Athala, A. P. (2023). Experimental analysis of the recovery and chemical properties of pyrolytic oil derived from medical waste with varying components combined via a systematic combination approach. International Journal of Green Energy, 1-12.
Rendra, A. A. (2023). Evaluasi Efektivitas Kinerja Sewage Treatment Plant Pada Gedung GKM Green Tower (Doctoral dissertation, Universitas Mercu Buana Jakarta).
Metcalf, L., Eddy, H. P., & Tchobanoglous, G. (1991). Wastewater engineering: treatment, disposal, and reuse (Vol. 4). New York: McGraw-Hill.
Nastiti, A. (2017). Beyond Access. The multifaceted water supply in urban and peri-urban areas of Bandung and Jakarta, Indonesia (Doctoral dissertation, [Sl: sn]).
Jacukowicz-Sobala, I., Ociński, D., & Kociołek-Balawejder, E. (2015). Iron and aluminum oxides containing industrial wastes as adsorbents of heavy metals: Application possibilities and limitations. Waste Management & Research, 33(7), 612-629.
Keraita, B., Drechsel, P., Klutse, A., & Cofie, O. (2014). On-farm treatment options for wastewater, greywater, and fecal sludge with special reference to West Africa (Vol. 1). IWMI.
Palaniappan, M., Gleick, P. H., Allen, L., Cohen, M. J., Christian-Smith, J., Smith, C., & Ross, N. (2010). Clearing the waters: a focus on water quality solutions.
Pino, G. H., De Mesquita, L. M. S., Torem, M. L., & Pinto, G. A. S. (2006). Biosorption of cadmium by green coconut shell powder. Minerals Engineering, 19(5), 380-387.
Said, M., & Machunda, R. L. (2014). Defluoridation of water supplies using coconut shells activated carbon: batch studies. Int. J. Sci. Res, 3(7), 2327-2331.
Hermiyanti, P., & Wulandari, E. T. (2017). Gambaran Sisa Klor dan MPN Coliform Jaringan Distribusi Air PDAM. Jurnal Media Kesehatan, 10(2), 118-125.
SABDANIA ROGA, O. S. W. A. L. D. I. A. (2014). Pemanfaatan Lumpur Aktif Dalam Remidiasi Limbah Cair Bengkel Kendaraan Bermotor dengan Penambahan Bakteri Indigenus (Doctoral dissertation, UAJY).
Sundarakumar, M. R., Nayagi, D. S., & Amutha, R. (2021). Improving the Performance of Industrial Effluent Treatment by Phytoremediation method using Water Hyacinth (Eichhorniacrassipes) and Data Management in Big Data. Annals of the Romanian Society for Cell Biology, 25(6), 4949-4966.
Djoharam, V., Riani, E., & Yani, M. (2018). Analisis kualitas air dan daya tampung beban pencemaran sungai pesanggrahan di wilayah provinsi DKI Jakarta. Jurnal Pengelolaan Sumberdaya Alam Dan Lingkungan (Journal of Natural Resources and Environmental Management), 8(1), 127-133.
Saparuddin, M. S., Selintung, M., & Lopa, R. T. (2014). Model of Community's Wastewater Purification before it was Channeled into River. International Journal of Engineering and Technology, 4(7).
Hartono, D. M. (2010). Evaluasi Unit Pengolahan Air Minum Instalasi Pdam Rawa Lumbu 4, Bekasi. Jurnal Purifikasi, 11(2), 119-128.
Sylvia, D., Linggarweni, B. I., Nurhajawarsi, M. S., Lestari, M. F., Lieza Corsita, S. T., Dwityaningsih, R., ... & Herniwanti, S. P. Kimia Lingkungan. Ahmad Ruhardi.
Suoth, A. E., & Nazir, E. (2016). Characteristic of domestic waste water (grey water) in one of the mid-level residential areas in South Tangerang. Ecolab, 10(2), 47-102.
Kusumawardani, Y., Subekti, S., Astuti, W., & Soehartono, S. (2021, April). Portable wastewater treatment plant using banana stem filter media in small-scale motor vehicle washing services. In IOP Conference Series: Earth and Environmental Science (Vol. 746, No. 1, p. 012039). IOP Publishing.
Al Idrus, S. W. (2018). Analisis kadar karbon dioksida di Sungai Ampenan Lombok. Jurnal Pijar MIPA, 13(2), 167-170. [21]
Leela, D., Nur, S. M., Yandri, E., & Ariati, R. (2018). Performance of palm oil mill effluent (POME) as biodiesel source based on different ponds. In E3S Web of Conferences (Vol. 67, p. 02038). EDP Sciences.
Sugiharti, I. E. P., Raksun, A., & Mertha, I. G. (2022). The effect of liquid organic fertilizer from tofu industrial waste and EM4 on the growth of mustard greens (Brasicajuncea L.). Jurnal Pijar Mipa, 17(4), 554-559.
Junaidi, E., Loka, I. N., Al Idrus, S. W., & Sofia, B. F. D. (2022). Effectiveness of rub ash waste as adsorbent household waste water. Jurnal Pijar Mipa, 17(6), 820-825.
Rahmawati, S. (2020). Evaluasi IPAL Komunal di Kabupaten Sleman Provinsi DI Yogyakarta Ditinjau dari Teknologi IPAL Komunal.
Sriyono, S. (2018). Analisis Kandungan Sodium dan Klorida Pada Pendingin Primer RSG Gas Untuk Mengetahui Kemurniannya. Reaktor: Buletin Pengelolaan Reaktor Nuklir, 15(2), 47-57.
Lucas, A., & Djati, A. W. (2007). The politics of environmental and water pollution in East Java. In A World of Water (pp. 321-351). Brill.
Author Biographies
Azwarudin Azwarudin, Environment Engeenering, Sekolah Tinggi Teknik Lingkungan Mataram
Hijriati Sholehah, Environment Engeenering, Sekolah Tinggi Teknik Lingkungan Mataram
Diano Karno, Environment Engeenering, Sekolah Tinggi Teknik Lingkungan Mataram
Muhamad Majdi, Environment Engeenering, Sekolah Tinggi Teknik Lingkungan Mataram
License
Copyright (c) 2023 Azwarudin Azwarudin, Hijriati Sholehah, Diano Karno, Muhamad Majdi
This work is licensed under a Creative Commons Attribution 4.0 International License.
The following terms apply to authors who publish in this journal:
1. Authors retain copyright and grant the journal first publication rights, with the work simultaneously licensed under a Creative Commons Attribution License 4.0 International License (CC-BY License) that allows others to share the work with an acknowledgment of the work's authorship and first publication in this journal.
2. Authors may enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., posting it to an institutional repository or publishing it in a book), acknowledging its initial publication in this journal.
3. Before and during the submission process, authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website), as this can lead to productive exchanges as well as earlier and greater citation of published work (See The Effect of Open Access).