skip to main content

The Concept of Sustainable Groundwater Management in Supporting Industrial Estates

1Graduate student in Regional and City Planning Program, Bandung Institute of Technology, Indonesia, Indonesia

2Regional and City Planning Program, Faculty of Engineering, Pasundan University, Indonesia, Indonesia

3Graduate Student in Regional and City Planning Program, Faculty of Engineering, Bandung Islamic University, Indonesia, Indonesia

Received: 10 May 2024; Revised: 26 Jul 2024; Accepted: 8 Jan 2025; Available online: 15 Mar 2025; Published: 31 Mar 2025.
Editor(s): Budi Warsito

Citation Format:
Abstract
Water needs in industrial areas can be met by using surface water and groundwater sources. However, this can cause its own problems for the region due to increased water demand. The area of the industrial area in Sumberjaya Sub-district which reaches 329,700 m² will require water for industry amounting to 8,534,678 m3/ year, with no direction in sustainable groundwater management it is feared that it will have an impact on the loss of groundwater resources and the occurrence of a crisis or scarcity of water resources. This research aims to find out directions in sustainable groundwater management that are appropriate, integrated, and can be applied to supporting industrial estates in Sumberjaya District, Majalengka Regency. This analysis was conducted using descriptive qualitative and descriptive quantitative approaches. We conducted this analysis using observation, interview, and secondary data collection methods. The analysis method in this research is the calculation method of rainwater harvesting (PAH) and the calculation of the recharge concept. From the results of the analysis of the potential and problems that exist in Sumberjaya Subdistrict, in helping to fulfil industrial water needs other than groundwater, can apply concept direction in groundwater conservation using the Rainwater Harvesting calculation method and recharge wells.

Note: This article has supplementary file(s).

Fulltext View|Download |  Research Instrument
The concept of sustainable groundwater management in supporting industrial estates
Subject
Type Research Instrument
  Download (1MB)    Indexing metadata
Keywords: Industrial area water demand; Rainwater harvesting; Recharge

Article Metrics:

  1. Darwis. (2018). Pengelolaan Air Tanah. In Yogyakarta: Universitas Gajah Mada (UGM) (Issue March)
  2. Departemen Permukiman. (2003). Prasarana Wilayah Direktorat Jendral Sumber Daya Air, Direktorat Bina Teknik Proyek Pembinaan Pengembangan dan Penyelenggaraan Air Baku. 2003. Pedoman Penentuan Pengembangan Air Baku Rumah Tangga Perkotaan Dan Industri
  3. Elshall, A. S., Arik, A. D., El-Kadi, A. I., Pierce, S., Ye, M., Burnett, K. M., Wada, C. A., Bremer, L. L., & Chun, G. (2020). Groundwater sustainability: A review of the interactions between science and policy. Environmental Research Letters, 15(9), 93004
  4. Fauzi, L. A., Yutrisya, A., Rachmatiyah, N., & Sapanli, K. (2018). Analisis Penggunaan Air Untuk Industri Di Tangerang (Water Use Analysis for Industry in Tangerang). Prosiding Seminar Nasional Hari Air Dunia 2018, 58–64
  5. Gunawan, M. N. G., & Ismail, Y. I. (2020). Study of rainwater harvesting implementation. JIE Scientific Journal on Research and Application of Industrial System, 5(1), 37–47
  6. Hastuti, E., & Nuraeni, R. (2017). Pendekatan Sanitasi Untuk Pemulihan Kondisi Air Tanah Di Perkotaan Studi Kasus : Kota Cimahi, Jawa Barat. Jurnal Teknologi Lingkungan, 18(1), 70. https://doi.org/10.29122/jtl.v18i1.1664
  7. Hiscock, K. M., Rivett, M. O., & Davison, R. M. (2015). Sustainable groundwater development. Geological Society Special Publication, 193(Desember, 2015), 1–14. https://doi.org/10.1144/GSL.SP.2002.193.01.01
  8. Kementerian Dalam Negeri. (2023). Portal Satu Data Kemendagri
  9. Peraturan Menteri Pekerjaan Umum Dan Perumahan Rakyat Republik Indonesia Nomor 09/PRT/M/2015 Tentang Penggunaan Sumber Daya Air, (2015)
  10. Prastistho, Bambang, Puji Pratiknyo, Achmad Rodhi, C. Prasetyadi, M. Ridwan Massora, Y. K. M. (2018). Hubungan Struktur Geologi dan Sistem Air Tanah. In Yogyakarta: LPPM UPN “Yogyakarta” Press (Vol. 1)
  11. Purwoarminta, A., Lubis, R. F., & Maria, R. (2019). Imbuhan Airtanah Buatan untuk Konservasi Cekungan Airtanah Bandung-Soreang. RISET Geologi Dan Pertambangan, 29(1), 65. https://doi.org/10.14203/risetgeotam2019.v29.1004
  12. Raghavendra, N. S., & Deka, P. C. (2015). Sustainable Development and Management of Groundwater Resources in Mining Affected Areas: A Review. Procedia Earth and Planetary Science, 11, 598–604. https://doi.org/10.1016/j.proeps.2015.06.061
  13. Sarminah, S. (2018). Teknologi Konservasi Tanah dan Air. Mulawarman University Press
  14. Sihombing, W. H., Krisnandini, A., Syafina, P. R., Nugroho, A., . N., & Puspita, T. Y. S. (2022). Desain Berkelanjutan Pada Pemenuhan Kebutuhan Air (Studi Kasus Daerah Industri DAS Cileungsi). Arsitekta : Jurnal Arsitektur Dan Kota Berkelanjutan, 4(01), 25–30. https://doi.org/10.47970/arsitekta.v4i01.311
  15. Suhartono, E. (2018). Strategi Memenuhi Kebutuhan Air Bersih Di Kawasan Industri Genuk Semarang. Bangun Rekaprima, 4(1), 34. https://doi.org/10.32497/bangunrekaprima.v4i1.1117
  16. Susanto, A. (2014). Model Konservasi Pemanfaatan Air Tanah Yang Berkelanjutan Di Kota Semarang. Jurnal Matematika Sains Dan Teknologi, 15(1), 29–41. https://doi.org/10.33830/jmst.v15i1.318.2014
  17. Suwarno, S. (2017). Bahaya Pemompaan Air Tanah Terhadap Land Subsidence Pada Lapisan Tanah Lunak. Simposium II UNIID 2017, Vol 2 (2017), 422–428
  18. Ulfah, M. (2018). Pemanfaatan Air Permukaan dan Air Tanah. Seminar Nasional Hari Air Dunia, 43, 125–129
  19. Valentino, D. (2013). Kajian Pengawasan Pemanfaatan Sumberdaya Air Tanah di Kawasan Industri Kota Semarang. Jurnal Wilayah Dan Lingkungan, 1(3), 265. https://doi.org/10.14710/jwl.1.3.265-274
  20. Worm, J. (2006). AD43E Rainwater harvesting for domestic use (Issue 43). Agromisa Foundation
  21. Zhou, T., Shu, L., Lu, C., & Liu, B. (2023). Attenuation of the contribution of groundwater to a wetland caused by groundwater overexploitation. Hydrological Processes, 37(11), 1–23. https://doi.org/10.1002/hyp.15022

Last update:

No citation recorded.

Last update: 2025-04-01 05:07:45

No citation recorded.