Application of Mine Dewatering Methods to Reduce Wastewater Pollution in The Environment: Implications for Andesite Mining

A.A Inung Arie Adnyano , Rizqi Prastowo , Muhammad Nauval Bahy , Syouma Hikmahtiar , Ahmad Said , Abdul Latif Ashadi

Abstract


Wastewater pollution in mining areas often occurs and becomes a problem in the surrounding groundwater aquifer system. One of the efforts to determine the distribution of wastewater pollution is to calculate the discharge and volume of wastewater. In this study, an open channel in the form of a ditch or commonly referred to as a drainage system is carried out to determine the total water discharge entering the research location, design the dimensions of the sump and design the optimal cross-sectional dimensions of the ditch to overcome the discharge of water that comes out and pollutes the environment. The method used is to make an open channel in the form of a trapezoid to be used around the andesite rock mining site which then drains the mine water to the setlingpond. Efforts to drain the water that has entered the main sump (mine dewatering system) are carried out by making wells, after which the waste water is channeled into the settling pond using a pump. From the results of the study, information was obtained that the total water discharge entering the sump was 235,175 m so that the volume of the sump made was 300 m with dimensions of top area: 20m x 10m, bottom area: 10m x 10m, with a depth of 2m for total water discharge for ditches. 0.0237 m so that the volume of the trench made is 0.228 m.

Keywords


Streaming system; Mine dewatering system; Wastewater pollution; Andesit mining; Trapezoid

Full Text:

PDF

References


Adnyano A.A., I., A., Bagaskoro., M. (2020). Technical Study Of Mine Dewatering System In Coal Mining. Mining Journal Exploration, Exploitation, Georesources Processing and Mine Enviromental, PROMINE, 6, vol 8 (1), Halaman 28-33.

Arunee K, Rofiqul U, and Kittisak J. (2019). Environmental Sustainability and its Growth in Malaysia by Elaborating the Green Economy and Environmental Efficiency; International Journal of Energy Economics and Policy, 9(5), 465-473.

Bai, X, Wang, Z, Zou, L, et al. (2018). Target tracking for wireless localization systems with degraded measurements and quantization effects. IEEE Transactions on Industrial Electronics 65(12): 9687–9697.

Bai, X., Xu, H., Li, J., Gao, X., Qin, F. and Zheng, X. (2021). Coal mine personnel positioning algorithm based on improved adaptive unscented Kalman filter with wireless channel fading and unknown noise statistics, Transactions of the Institute of Measurement and Control, October, 1-11, https://dx.doi.org/10.1177/01423312211051202

Bambang, S. (1985). Perencanaan Drainase Tambang Terbuka, PT. Pradnya Paramita, Jakarta.

Bo, C., Xin, C., Zhongyi, Z., Chengwen, Z. and Junliang, C. (2014). Web of Things-Based Remote Monitoring System for Coal Mine Safety Using Wireless Sensor Network, International Journal of Distributed Sensor Networks, Volume 2014, Article ID 323127, 14 pages, http://dx.doi.org/10.1155/2014/323127

Cahyadi, TA, Jeragustivia, B, Anton, S. (2016). Rancangan Sistem Penyaliran Pada Lokasi Disposal Tambang Nikel., Dengan Persamaan (Gumbel, 1941), Rumus mononbe (Sosrodarsono dan Takeda, 1983), rumus manning (King, 1918).

Cahyadi, TA., Dinata, DC., Haryanto, D., Hartono, Titisariwati, I., Fahlevi R. (2020). Evaluasi Saluran Terbuka Dengan Menggunakan Distribusi Gumbell dan Model Thomas Fiering, Jurnal KURVATEK, 5(1), 29-36

Chen, B, Zhang, W-A, Yu, L. (2013). Distributed finite-horizon fusion Kalman filtering for bandwidth and energy constrained wireless sensor networks. IEEE Transactions on Signal Processing 62(4): 797–812.

Endhrianto and Ramli. (2013). Perencanaan Sistem Penyaliran Tambang Terbuka . Jurnal Penelitian Geosains, 09, 01.

Gautama, R. S. (1999). Diktat Kuliah Sitem Penyaliran Tambang, Jurusan Teknik Pertambangan, Fakultas Tenologi Mineral, Intitut Teknologi Bandung.

Gautama, RS. (2019). Sistem Penyaliran Tambang, Institut Teknologi Bandung, Bandung

Gumbel, E.J. (1941). The Return Period of Flood Flows. Ann. Math. Statist.

https://www.scirp.org/(S(i43dyn45teexjx455qlt3d2q))/reference/ReferencesPapers.aspx?ReferenceID=912680

Hartono. (2013). Diktat Kuliah Sistem Penyaliran Tambang. Yogyakarta: Universitas Pembangunan Nasional “veteran” Yogyakarta.

Ivaz, J,. Stojadinović, S,. Petrović, D, et al. (2020) Analysis of fatal injuries in Serbian underground coal mines: 50 years review. International Journal of Injury Control and Safety Promotion 27(3): 362–377.

Keputusan Menteri Lingkungan Hidup Nomor 113 Tahun 2003. “Tentang Baku Mutu Air Limbah bagi Usaha dan atau Kegiatan Pertambangan Batubara”.

Listiyani, N. (2017). Dampak Pertambangan Terhadap Lingkungan Hidup Di Kalimantan Selatan dan Implikasinya Bagi Hak-hak Warga Negara. Al-Adl: Jurnal Hukum. Vol. 9, No. 1, Hal. 67-85

Liu, W, Zhang, H, Yu, K, et al. (2017). Optimal linear filtering for networked systems with communication constraints, fading measurements, and multiplicative noises. International Journal of Adaptive Control and Signal Processing 31(7): 1019–1039.

Pizarro, J, M. and Fuenzalida, F, A. (2021). Mental health in mine workers: a literature review. Industrial Health, 59, 343 – 370,

Putri, Y, E. (2014). Analisa Penyaliran Air Tambang Batu Kapur PT. Semen Baturaja (Persero) di Pabrik Baturaja. Jurnal Desiminasi Teknologi,2, 1.

Shen, Y, Wang, Z, Shen, B, et al. (2018) Event-based recursive filtering for a class of nonlinear stochastic parameter systems over fading channels. International Journal of General Systems 47(5): 468–482.

Siyoto, S., Sodik, AM. (2015). Dasar Metologi Penelitian. Yogyakarta : LM. Publishing

Tanimizu, M, Sugimoto, N., Hosono, T., Kuribayashi, C., Morimoto, T., Ito, A., & Umam, R. (2021). Application of B and Li isotope systematics for detecting a chemical disturbance in groundwater associated with large shallow inland earthquakes in Kumamoto, Japan. 55, 241–250. https://doi.org/10.2343/geochemj.2.0633

Utama, AG., Wijaya, AP., Sukmono, A. (2016). Kajian Kerapatan Sungai dan Indeks Penutupan Lahan Sungai Menggunakan Pengideraan Jauh. Jurnal Geodesi Undip. Vol. 5, No. 1. Hal. 285-293

Wang, Z., Xu, Y., Zhang, Z. and Zhang. (2021). Y. Review: Acid Mine Drainage (AMD) in Abandoned Coal Mines of Shanxi, China. Water MDPI. 13, 8. https://dx.doi.org/10.3390/w13010008

Wu, X, Huang, G, Gao, J. (2013). Particle filters for probability hypothesis density filter with the presence of unknown measurement noise covariance. Chinese Journal of Aeronautics 26(6): 1517–1523.




DOI: https://doi.org/10.58524/ijhes.v1i1.68

Refbacks

  • There are currently no refbacks.


 

Creative Commons License

International Journal of Hydrological and Environmental for Sustainability is licensed under a Creative Commons Attribution-ShareAlike 4.0 International LicenseCopyright © Foundae (Foundation of Advanced Education). ISSN Numbers : p-ISSN 2828-6405 | e-ISSN 2828-5050