DOI: https://doi.org/10.14710/jwl.12.1.28-36

Reuse of Treated Water From Bojongsoang Domestic Wastewater Treatment Installation as Water for Industrial Purposes

*Budi Heri Pirngadi scopus  -  Department of Urban and Regional Planning, Universitas Pasundan, Bandung, Indonesia, Indonesia
Deden Syarifudin scopus  -  Department of Urban and Regional Planning, Universitas Pasundan, Bandung, Indonesia, Indonesia
Viera Mustika Octaviani  -  Department of Urban and Regional Planning, Faculty of engineering, Universitas Pasundan, Jalan Setiabudhi no 193 Bandung 40154 Indonesia, Indonesia
Open Access Copyright (c) 2024 Jurnal Wilayah dan Lingkungan
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Citation Format:
Abstract

Subdistrict Bojongsoang and its surroundings are based on the 2016-2036 Bandung Regency Spatial Planning, the designated area where the industry is. Currently, there are 125 existing industries operating. The area is also included in groundwater withdrawal through well artesian on a massive scale, including into the national protected area (CAT: Groundwater Basin) Bandung - Soreang Area. Excessive groundwater extraction poses challenges coupled with significant water demand from society and industry. This will result in deteriorated groundwater conditions that require prompt restoration, having already suffered damage. On the other hand, there is Bojongsoang WWTP, which can treat wastewater at 2800 l/s; meanwhile, at the moment, this capacity processing is utilized about 37-40% or about 100m3/day. This research uses a descriptive method. The research results prove that reusing water from Bojongsoang WWTP could produce raw water for the necessity industry of 300 l/s.

Note: This article has supplementary file(s).

Fulltext View|Download |  Research Instrument
Copyright Transfer Agreement
Subject
Type Research Instrument
  Download (450KB)    Indexing metadata
Keywords: reuse; water treatment; domestic wastewater; industrial purpose
Funding: Fakultas teknik Universitas Pasundan

Article Metrics:

Article Info
Section: Research Articles
Language : EN
Recent articles
Does The Consumption of Energy, Renewable Energy, Natural Resources and Emissions Affect Gross Domestic Product?: The Study of Southeast Asia Framework to Development of Disaster Mitigation Model in Mountain Tourism Destination Pengembangan Metode Penentuan Kawasan Relokasi Akibat Bencana Awan Panas Guguran. Studi Kasus : Erupsi Semeru 4 Desember 2021 More recent articles
  1. Asolekar, S. R., & Gopichandran, R. (2012). Recycle and reuse of wastewater. Preventive Environmental Management, 367–391
  2. Cecilia Tortajada , (2020) Contributions of recycled wastewater to clean water and sanitation sustainable development goals , npj clean water 3: 22 ; https://doi.org/10.1038/s41545-020-0069-3
  3. Cherchi, C., Kesaano, M., Badruzzaman, M., Schwab, K., & Jacangelo, J. G. (2019). Municipal reclaimed water for multi-purpose applications in the power sector: A review. Journal of Environmental Management, 236, 561–570
  4. Cindy R. Priadi1*, Evelyn Suleeman2, Linda Darmajanti2, Shanty Novriaty2, Nyoman
  5. Suwartha1, Rina Resnawati1, Rahayu Handayani3, Gita L. Putri1, Elzavira Felaza1, Tri Tjahjono, (2017) Water recycling opportunity in the business sectors of greater Jakarta, Indonesia, International Journal of Technology 6: 1031-1039 ISSN 2086-9614
  6. Daniella Costa Faria,Liliana Pena Naval (2022) Wastewater reuse: perception and social acceptance, water and environmental Journal Promoting Sustainable Development, First published: 14 February 2022
  7. Eko W Purwanto , Candra Samekto , Nur Aisyah , Ardhiantie , Frida Hazet , Amos Gracianto , and Kariza Wiryant . (2017) Study of domestic water mix , Journal Development Planning The Indonesian Journal of Dev. Planning, Vol. 1 No. 1 Apr 2017
  8. Elboughdiri, N., Al Arni, S., Ghernaout, D., & Al Arni, S. (2019). Water reuse (WR): Dares, restrictions, and trends. Salah Al Arni. Water Reuse (WR): Dares, Restrictions, and Trends. Applied Engineering, 3, 159–170
  9. Fito, J., & Van Hulle, S. W. H. (2021). Wastewater reclamation and reuse potentials in agriculture: towards environmental sustainability. Environment, Development and Sustainability, 23, 2949–2972
  10. Galkina, E., & Vasyutina, O. (2018). Reuse of treated wastewater. IOP Conference Series: Materials Science and Engineering, 365. https://doi.org/10.1088/1757-899X/365/2/022047
  11. Ganna Fedorovaa, RomanGrabica, Kateřina Grabicováa, JanTureka, TuyenVan , TomasRandaka, Bryan W.Brooksb, Vladimir Zlabeka (2022) Water reuse for aquaculture: Comparative removal efficacy and aquatic hazard reduction of pharmaceuticals by a pond treatment system during a one year study, Journal of Hazardous Materials, Volume 421, 5 January 2022, 126712
  12. Gumilar, I., Abidin, H. Z., Andreas, H., Sidiq, T. P., Gamal, M., & Fukuda, Y. (2014). Land subsidence, groundwater extraction, and flooding in Bandung Basin (Indonesia). International Association of Geodesy Symposia, 139, 167–173
  13. Harnandi, D., & Herawan, W. (2009). Groundwater recovery based on hydrogeological studies in the Bandung-Soreang Groundwater Basin. Journal of Water Resources , 5 , 43–52
  14. Irawan, DE (2009). Bandung Basin hydrogeology. In Bandung Basin Geology (pp. 1–20)
  15. Kaveh Ostad - Ali-Askari and Saeed Eslamian , ( 2021) Water Reuse in Industry: Necessities and Possibilities , American Journal of Engineering and Applied Science, DOI: 10.3844/ageassp.2021.94.102
  16. Ostad-Ali-Askari, K., & Eslamian, S. (2021). Water Reuse in Industry: Necessities and Possibilities. American Journal of Engineering and Applied Sciences , 14 , 94–102
  17. Peter R Nkhoma , Kamal Alsharif , Erick Ananga, Michael Eduful and Michael Acheampong, (2021) Recycled water reuse: what factors affect public acceptance?, Environmental Conservation Journal, https://doi.org/10.1017/S037689292100031X Published online by Cambridge University Press
  18. Purwoar Minta, A., Lubis, RF, & Maria, R. (2019). Artificial Groundwater Recharge for Bandung-Soreang Groundwater Basin Conservation. Geology and Mining RESEARCH , 29 , 65
  19. Sari, YS, & Bari, NA (2018). Clean Water Efficiency By Reusing Water Processed by WWTP Bio-Oxidation Systems in the Hospitality Sector. ENVIROSAN: Journal of Environmental Engineering , 1 , 1–5
  20. Sulistia, S., & Septisya, AC (2020). Analysis of Domestic Wastewater Quality in Office Space. Journal of Environmental Engineering , 12 , 41–57
  21. Stuart Bruce. White, C. Howe, (1998) Water efficiency and reuse: a least cost planning approach' , Proceedings of the 6th NSW Recycled Water Seminar, November, 1998
  22. UNEP. (2004). WATER AND WASTEWATER REUSE An Environmentally Sound Approach for Sustainable Urban Water Management An Environmentally Sound Approach for Sustainable Urban Water Management
  23. Waluya, B. (2016). Industrial Relocation In Bandung Regency. Journal of Geography Gea , 7 , 1–11
  24. Tirtawening Regional Public Company . (2019). Permit Review Bojongsoang WWTP Wastewater Disposal. Bandung

Last update:

No citation recorded.

Last update:

No citation recorded.