Feasibility Evaluation of Wastewater Treatment Plant System: A Case Study of Domestic Wastewater System in Sleman Regency, Yogyakarta, Indonesia

https://doi.org/10.22146/jcef.64643

Sri Puji Saraswati(1*), Gregorius Henry Diavid(2), Sophia An Nisa(3), Nilna Amal(4), Visi Asriningtyas(5)

(1) Department of Civil and Environmental Engineering, Faculty of Engineering, Universitas Gadjah Mada Jl. Grafika Kampus No. 2, Sleman, DI Yogyakarta, INDONESIA
(2) Self Employed in Environmental Engineering, Medari Gede IV RT 004 RW 011, Caturharjo, Sleman, DI Yogyakarta, INDONESIA
(3) Environmental Engineer Freelancer, Jl. Sukaresmi no. 19 Dago Giri, Lembang, Bandung Barat, INDONESIA
(4) Water Laboratory, Faculty of Engineering, Universitas Lambung Mangkurat, Jl. A. Yani Km 36.5 Banjarbaru, Kalimantan Selatan, INDONESIA
(5) Home Education Jogja, Jl. Tongkol Raya no.17, Minomartani, Sleman, DI Yogyakarta, INDONESIA
(*) Corresponding Author

Abstract


Domestic Wastewater Treatment Plant (DWWTP) type 1 and DWWTP type 2 were being evaluated. DWWTP type 1 is located in Sembir area while DWWTP type 2 is located in Tambakrejo area which are both in Sleman Regency, Special Region of Yogyakarta (Daerah Istimewa Yogyakarta or DIY), Indonesia. The emphasis of this research is to choose the manhole material which has the least leakage to the soil, influent discharge performance and wastewater treatment quality effluent. The method used to measure the discharge was by averaging daily discharge for twelve hours, while the E. Coli bacteria under the manhole was also being analyzed. Pollution Index method was also used to evaluate the pollution levels of the wastewater treatment effluent. Results of the study indicated that DWWTP type 1 performance was not optimal because the number of users was greater than that of the design. The impacts were excessive capacity, improper detention time and several parameters of the effluent did not meet the Indonesian legal regulation, including Chemical Oxygen Demand (COD), with efficiency of 34.43%. Wastewater treatment quality effluent parameters which met the Indonesian legal regulation were pH, TSS, TDS, Oil and Grease and Chlorine for DWWTP type 1. Pollution Index (PI) of DWWTP type 1 was 7.02 and PI of DWWTP type 2 was 6.96 which were relatively categorized as moderately polluted. DWWTP type 2 performance was optimal with mean discharge lower than the design discharge. Parameters of the effluent which met the Indonesian legal regulation were pH, TSS, TDS, Oil and Grease, Detergent and COD for DWWTP type 2. The COD of DWWTP type 2 met the Indonesian legal regulation with high efficiency of 73.24%. The E. Coli bacteria was not found in soils under the ring type precast concrete manholes. Hence ring type precast concrete base manhole is recommended.

Keywords


Domestic wastewater treatment plant; Wastewater treatment quality effluent; Manhole; Pollution Index; Detention time

Full Text:

PDF


References

Amal, N., 2011. Usaha Peningkatan Kualitas Air dengan Variasi Penambahan Tawas- Lempung Kering ‘Ampo’ pada Limbah Domestik yang Mengandung Deterjen (Efforts to Improve Water Quality by Adding Variations of Alum and Dry Clays ‘Ampo’ on Domestic Wastewater Containing Detergent). Info Teknik, 12(2), pp. 40-47.

Andriani, D., Wresta, A., Saepudin, A. & Prawara, B., 2015. A Review of Recycling of Human Excreta to Energy through Biogas Generation: Indonesian Case. Energy Procedia, 68, pp. 219-225.

Appiah-Effah, E., Duku, G.A., Azangbego, N.Y., Aggrey, R.K.A., Gyapong-Korsah, B. & Nyarko, K.B., 2019. Ghana’s Post-MDG Sanitation Situation: An Overview. Journal of Water, Sanitation and Hygiene for Development, 9(3), pp. 397-415.

Asmadi & Suharno, 2012. Dasar-Dasar Teknologi Pengelolaan Air Limbah (Fundamentals of Wastewater Treatment Technology). Yogyakarta: Gosyen Publishing. Asriningtyas, V. & Putra, D.P.E., 2006. Ten Year Groundwater Simulation in Merapi Aquifer, Sleman, DIY, Indonesia. Indonesian Journal of Geography, 38(1), pp. 1-14.

Crites, R. & Tchobanoglous, G., 1998. Small and Decentralized Wastewater Management Systems. New York: McGraw-Hill Company Inc.

De Oliveira-Cruz, L.M., Tonetti, A.L. & Gomes, B.G.L.A., 2018. Association of Septic Tank and Sand Filter for Wastewater Treatment: Full-Scale Feasibility for Decentralized Sanitation. Journal of Water, Sanitation and Hygiene for Development, 8(2), pp. 268-277.

Duarte, N.C., dos Santos Amaral, A.E., Gomes, B.G.L.A., Siqueira, G.H. & Tonetti, A.L., 2019. Water Reuse in the Production of Non-Reinforced Concrete Elements: An Alternative for Decentralized Wastewater Management. Journal of Water, Sanitation and Hygiene for Development, 9(3), pp. 596-600.

Diavid, G.H., Saraswati, S.P. & Nugroho, A.S.B, 2018. Evaluasi Kelayakan Kinerja Sistem Instalasi Pengolah Air Limbah Domestik: Studi Kasus di Kabupaten Sleman (Feasibility Evaluation of Domestic Wastewater Installation System: A Case Study in Sleman Regency). Malang, Prosiding SNTT Politeknik Negeri Malang.

Dwipayanti, N.M.U., Rutherford, S. & Chu, C., 2019. Cultural Determinants of Sanitation Uptake and Sustainability: Local Values and Traditional Roles in Rural Bali, Indonesia. Journal of Water, Sanitation and Hygiene for Development, 9(3), pp. 438-449.

Fangzhou, D., Zhengdong, L., Shaoqiang, Y., Beizhen, X.& Hong, L., 2011. Electricity Generation Directly Using Human Feces Wastewater for Life Support System. Acta Astronautica, 68(9-10), pp. 1537-1547.

Foggitt, E., Cawood, S., Evans, B. & Acheampong, P., 2019. Experiences of Shared Sanitation-Towards a Better Understanding of Access, Exclusion and “Toilet Mobility” in Low-Income Urban Areas. Journal of Water, Sanitation and Hygiene for Development, 9(3), pp. 581-590.

Hauwert, N.M., 2016. Stream Recharge Water Balance for the Barton Springs Segment of the Edwards Aquifer. Journal of Contemporary Water Research and Education, 159(1), pp. 24-49.

Hibbs, B., Harrison, M. & Merino, M., 2016. Issues of Stream-Aquifer Interactions in Grout Lined Channels in Urban Watersheds. Journal of Contemporary Water Research and Education, 159(1), pp. 127-143.

Ilukor, J. 1986 Uganda Biogas Project. In: El-Halwagi M.M. (eds.) Biogas Technology, Transfer and Diffusion, Springer, Dordrecht. https://doi.org/10.1007/978-94-009-4313-1_79.

Iribarnegaray, M.A., Rodriguez-Alvarez, M.S., Morana, B., Tejerina, W.A. & Seghezzo, L., 2018. Management Challenges for a More Decentralized Treatment and Reuse of Domestic Wastewater in Metropolitan Areas. Journal of Water, Sanitation and Hygiene for Development, 8(1), pp. 113-122.

Liang, H., Chen, D. & Zhang, Q., 2017. Assessing Urban Green Space Distribution in a Compact Megacity by Landscape Metrics. Journal of Environmental Engineering and Landscape Management, 25(1), pp. 64-74.

Manny, L., Atmaja, R.R.S. & Putra, D.P.E., 2016. Groundwater Level Changes in Shallow Aquifer of Yogyakarta City, Indonesia: Distribution and Causes. Journal of Applied Geology, 1(2), pp. 89-99.

Marleni, N.N.N. & Raspati, G.S., 2020. A Critical Review of Wastewater Resources Recovery Implementation in Indonesia. JCEF, 6(1), pp. 89-102.

Meynendonckx, J., Heuvelmans, G., Muys, B. & Feyen, C., 2006. Effects of Watershed and Riparian Zone Characteristics in the River Scheldt Basin. Hydrol.Earth.Syst.Sci., 10(6), pp. 913-922.

Nemerow, N.L. & Sumitomo, H., 1970. Report No. 16110 DAJ - Benefits of Water Quality Enhancement, Syracuse, N.Y.: Prepared for The U.S. Environmental Protection Agency.

Nisa, S.A., 2015. Perancangan Ulang Desain Septic Tank berdasarkan Pengaruh Penambahan 6% Bekatul terhadap Produksi Biogas dan Efisiensi Removal Air Limbah pada Septic Tank Digester (Studi Kasus Bulaksumur Residence) (Redesign of Septic Tank Based on the Impact of 6% Bran Addition to Biogas Production and Wastewater Removal Efficiency on Septic Tank Digester (Case Study of Bulaksumur Residence)). Yogyakarta: Bachelor Thesis Report. Department of Civil and Environmental Engineering. Universitas Gadjah Mada. Peraturan

Menteri Kesehatan Republik Indonesia No. 32 Tahun 2017 tentang Standar Baku Mutu Kesehatan Lingkungan dan Persyaratan Kesehatan Air untuk Keperluan Higiene, Sanitasi, Kolam Renang, Solus Per Aqua, dan Pemandian Umum (Minister of Health Regulation, Republic of Indonesia No. 32/2017 on Environmental Health Quality Standards and Water Health Requirements for Sanitation and Hygiene, Swimming Pool, Solus per Aqua and Community Bath), Jakarta: Kementrian Kesehatan RI.

Peraturan Menteri Pekerjaan Umum dan Perumahan Rakyat No. 04/PRT/M/2017, tentang Penyelenggaraan Sistem Pengelolaan Air Limbah Domestik (Regulation of Minister of Public Works and Public Housing No. 04/PRT/M/2017 on Implementation of Domestic Wastewater Management System), Jakarta: Kementrian PUPR RI.

Peraturan Menteri Lingkungan Hidup dan Kehutanan Republik Indonesia No. P.68/Menlhk/Setjen/Kum.1/8/2016 tentang Baku Mutu Limbah Domestik, Kementrian Lingkungan Hidup dan Kehutanan (Minister of the Environment and Forestry Regulation No. P.68/Menlhk/Setjen/Kum.1/8/2016 on Domestic Wastewater Quality Standards), Jakarta: Kementrian LH RI.

Peraturan Daerah Daerah Istimewa Yogyakarta No. 7 Tahun 2016 tentang Baku Mutu Air Limbah (Special Region of Yogyakarta Regional Regulation No. 7/2016 on Wastewater Quality Standards), Yogyakarta: Pemda DIY.

Reynaud, N.S., 2014. Operation of Decentralised Wastewater Treatment Systems (DEWATS) UnderTropical Field Conditions. Dresden: Dissertation Report, Faculty of Environmental Sciences, Technical University.

Saraswati, S.P., 1996. Report of Environmental Health and Sanitation Engineering Laboratory - Unit Proses Limbah Domestik (Domestic Waste Process Unit), Yogyakarta: Civil Engineering Department, Universitas Gadjah Mada.

Saraswati, S.P., Sunjoto, Kironoto, B.A. & Hadisusanto, S., 2014. Kajian Bentuk dan Sensitivitas Rumus Indeks PI, Storet, CCME untuk Penentuan Status Mutu Perairan Sungai Tropis di Indonesia (Assessment of the Forms and Sensitivity of the Index Formula PI, Storet, CCME for The Determination of Water Quality Status). J. Manusia dan Lingkungan, 21(2), pp. 129-142.

Saraswati, S.P., Ardion, M.V., Widodo, Y.H., Hadisusanto, S., 2019. Water Quality Index Performance for River Pollution Control Based on Better Ecological Point of View (A Case Study in Code, Winongo, Gadjah Wong Streams). JCEF, 5(1), pp. 47-55.

Sasse, L., 1998. Decentralized Wastewater Treatment in Developing Countries. Bremen: BORDA.

Satapona, A., Putra, D.P.E. & Hendrayana, H., 2018. Groundwater Flow Modeling in The Malioboro, Yogyakarta, Indonesia. Journal of Applied Geology, 3(1), pp. 11-22.

Sembir Asri, K.S.M., 2017. Report of Sanimas - Laporan Pelaksanaan Program Sanimas Pembangunan IPALD Skala Permukiman dengan Perpipaan (IPALD Sanimas Development Programme at Settlement Scale with Piping), Yogyakarta: Sanimas.

Shu, L., Obagbemi, I.J., Liyaanarachchi, S., Navaratna, D., Parthasarathy, R., Aim, R.B., Jegatheesan, V., 2016. Why does pH Increase with CaCl2 as Draw Solution during Forward Osmosis Filtration. Process Safety and Environmental Protection, 104, pp. 465-431.

Sulihingtyas, W.D., Suyasa, I.W.B. & Wahyuni, N.M.I., 2010. Efektivitas Sistem Pengolahan Instalasi Pengolahan Air Limbah Suwung Denpasar terhadap Kadar BOD, COD, dan Amonia (The Effectiveness of the Suwung Denpasar Wastewater Treatment System on the Levels of BOD, COD and Ammonia). Journal of Chemistry, 4(2), pp. 141-148.

Susanthi, D., Purwanto, M.Y.J. & Suprihatin, 2018. Evaluasi Pengolahan Air Limbah Domestik dengan IPAL Komunal di Kota Bogor (Evaluation of Domestic Wastewater Treatment Using Communal WWTP in Bogor City). Jurnal Teknologi Lingkungan, 19(2), pp. 229-238.

Tambakrejo Bersih, K.S.M., 2012. Report - Rencana Kerja Masyarakat Program USRI (USRI People Task Plan), Yogyakarta: USRI.

Uzuh, F.D., Toyoda, H. & Matsubara, S., 2019. Innovation for New Anaerobic Domestic Wastewater Treatment Recycling System in Developing Countries. Int. J. Water Wastewater Treat, 5(1), pp. 1-8.



DOI: https://doi.org/10.22146/jcef.64643

Article Metrics

Abstract views : 4731 | views : 3294

Refbacks

  • There are currently no refbacks.




Copyright (c) 2022 The Author(s)


The content of this website is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
ISSN 5249-5925 (online) | ISSN 2581-1037 (print)
Jl. Grafika No.2 Kampus UGM, Yogyakarta 55281
Email : jcef.ft@ugm.ac.id
Web Analytics JCEF Stats