Identifikasi Lapisan Akuifer Air Tanah Bawah Permukaan Method Geolistrik Teknik Ves (Vertical Electrical Sounding) Pada Lokasi Rencana Pemboran Air Tanah Dalam Lokasi Gunung Bale Kababupaten Donggala Provinsi Sulawesi Tengah
Article History
Submited : June 23, 2020
Published : June 23, 2020
Keywords:
Tujuan yang ingin dicapai pada studi ini yakni mengidentifikasi keberadaan lapisan akuifer air tanah bawah permukaan. Kegiatan studi ini dalakukan pada bilan September 2019 dengan mengidentifikasi lapisan akuifer air tanah bawah permukaan yang bertempat di lokasi Rumah Dinas Ketua DPR Kabupaten Donggala, Provinsi Sulawesi Tengah dengan metode VES atau Vertical Electrical Sounding adalah salah satu dari metode geolistrik. Berdasarkan hasil studi yang telah dilakukan, maka pada lintasan pengukuran Desa Gunung Bale akuifer air tanah yang baik berada pada kedalaman diatas 20 meter bmt dengan ketebalan lapisan berkisar 30 m, dan kedalaman diatas 70 m dengan ketebalan lapisan diatas 30 m. Lapisan Akuifer terdapat pada lapisan ketiga yang bersifat akuifer menengah– tinggi dengan litologi berupa batu pasiran, pasiran berbutir sedang sampai kasar.
Attwater, R., Anderson, L., & Derry, C. (2016). Agricultural risk management of a peri-urban water recycling scheme to meet mixed land-use needs. Agricultural Water Management, 176, 266–269. https://doi.org/10.1016/j.agwat.2016.05.025
Gutierrez, D. A., Hanna, K., & Stanley, B. J. (2008). Utilization of iodide as a perchlorate-laden resin regenerating solution and isolation of perchlorate from simulated ground water samples. Separation and Purification Technology, 61(3), 469–473. https://doi.org/10.1016/j.seppur.2008.01.010
He, X., Jiahong, L., & Dayong, Q. (2012). Research on Water Resource Exploitation and Utilization Potential of the Yellow River Basin. Procedia Engineering, 28, 709–714. https://doi.org/10.1016/j.proeng.2012.01.795
Kappler, G., Dias, J. B., Haeberle, F., Wander, P. R., Moraes, C. A. M., & Modolo, R. C. E. (2019). Study of an earth-to-water heat exchange system which relies on underground water tanks. Renewable Energy, 133, 1236–1246. https://doi.org/10.1016/j.renene.2018.09.004
Lowrie, W., 2007, Fundamentals of Geophysics, 2nd Edition, Cambridge:
Cambridge University Press.
Loke, M.H., 2000, Electrical Imaging Survey for Environmental and
Engineering Studies, Diterima 06 Maret 2009, dari http://www.
geometrics.com.
Milsom, John, 2003, Field Geophysics, Third Edition, John Wiley and Sonds Ltd; London.
Shen, C., Li, X., & Yan, S. (2017). Numerical study on energy efficiency and economy of a pipe-embedded glass envelope directly utilizing ground-source water for heating in diverse climates. Energy Conversion and Management, 150, 878–889. https://doi.org/10.1016/j.enconman.2017.04.063
Sukamto, R., 1973, PETA GEOLOGI TINJAU LEMBAR PALU SULAWESI Skala 1 : 250.000, Pusat Penelitian dan Pengembangan Geologi, Bandung.
Taib, M.I.T., 2000, Dasar Metoda Eksplorasi Tahanan Jenis Galvanik, Diktat kuliah, Jurusan Teknik Geofisika FIKTM ITB Bandung
Tangdamrongsub, N., Han, S.-C., Yeo, I.-Y., Dong, J., Steele-Dunne, S. C., Willgoose, G., & Walker, J. P. (2020). Multivariate data assimilation of GRACE, SMOS, SMAP measurements for improved regional soil moisture and groundwater storage estimates. Advances in Water Resources, 135, 103477. https://doi.org/10.1016/j.advwatres.2019.103477
Telford, W.M., L.P Geldart, & R.E. Sheriff, 2004, Applied Geophysics, 2nd
Edition, Cambridge: Cambridge University Press
Wu, X. D., Guo, J. L., Li, C. H., Shao, L., Han, M. Y., & Chen, G. Q. (2019). Global socio-hydrology: An overview of virtual water use by the world economy from source of exploitation to sink of final consumption. Journal of Hydrology, 573, 794–810. https://doi.org/10.1016/j.jhydrol.2019.03.080
Yoon, H., & Saurí, D. (2019). ‘No more thirst, cold, or darkness!’ – Social movements, households, and the coproduction of knowledge on water and energy vulnerability in Barcelona, Spain. Energy Research & Social Science, 58, 101276. https://doi.org/10.1016/j.erss.2019.101276
Youssef, M. A. A., Abd El-Gawad, A. M. S., & Farag, K. S. I. (2018). Iron ore prospecting based on very low frequency-electromagnetic and geoelectrical resistivity at Wadi Abu Subeira, Northeastern Aswan, South Egypt. NRIAG Journal of Astronomy and Geophysics, 7(2), 253–263. https://doi.org/10.1016/j.nrjag.2018.08.002
Gutierrez, D. A., Hanna, K., & Stanley, B. J. (2008). Utilization of iodide as a perchlorate-laden resin regenerating solution and isolation of perchlorate from simulated ground water samples. Separation and Purification Technology, 61(3), 469–473. https://doi.org/10.1016/j.seppur.2008.01.010
He, X., Jiahong, L., & Dayong, Q. (2012). Research on Water Resource Exploitation and Utilization Potential of the Yellow River Basin. Procedia Engineering, 28, 709–714. https://doi.org/10.1016/j.proeng.2012.01.795
Kappler, G., Dias, J. B., Haeberle, F., Wander, P. R., Moraes, C. A. M., & Modolo, R. C. E. (2019). Study of an earth-to-water heat exchange system which relies on underground water tanks. Renewable Energy, 133, 1236–1246. https://doi.org/10.1016/j.renene.2018.09.004
Lowrie, W., 2007, Fundamentals of Geophysics, 2nd Edition, Cambridge:
Cambridge University Press.
Loke, M.H., 2000, Electrical Imaging Survey for Environmental and
Engineering Studies, Diterima 06 Maret 2009, dari http://www.
geometrics.com.
Milsom, John, 2003, Field Geophysics, Third Edition, John Wiley and Sonds Ltd; London.
Shen, C., Li, X., & Yan, S. (2017). Numerical study on energy efficiency and economy of a pipe-embedded glass envelope directly utilizing ground-source water for heating in diverse climates. Energy Conversion and Management, 150, 878–889. https://doi.org/10.1016/j.enconman.2017.04.063
Sukamto, R., 1973, PETA GEOLOGI TINJAU LEMBAR PALU SULAWESI Skala 1 : 250.000, Pusat Penelitian dan Pengembangan Geologi, Bandung.
Taib, M.I.T., 2000, Dasar Metoda Eksplorasi Tahanan Jenis Galvanik, Diktat kuliah, Jurusan Teknik Geofisika FIKTM ITB Bandung
Tangdamrongsub, N., Han, S.-C., Yeo, I.-Y., Dong, J., Steele-Dunne, S. C., Willgoose, G., & Walker, J. P. (2020). Multivariate data assimilation of GRACE, SMOS, SMAP measurements for improved regional soil moisture and groundwater storage estimates. Advances in Water Resources, 135, 103477. https://doi.org/10.1016/j.advwatres.2019.103477
Telford, W.M., L.P Geldart, & R.E. Sheriff, 2004, Applied Geophysics, 2nd
Edition, Cambridge: Cambridge University Press
Wu, X. D., Guo, J. L., Li, C. H., Shao, L., Han, M. Y., & Chen, G. Q. (2019). Global socio-hydrology: An overview of virtual water use by the world economy from source of exploitation to sink of final consumption. Journal of Hydrology, 573, 794–810. https://doi.org/10.1016/j.jhydrol.2019.03.080
Yoon, H., & Saurí, D. (2019). ‘No more thirst, cold, or darkness!’ – Social movements, households, and the coproduction of knowledge on water and energy vulnerability in Barcelona, Spain. Energy Research & Social Science, 58, 101276. https://doi.org/10.1016/j.erss.2019.101276
Youssef, M. A. A., Abd El-Gawad, A. M. S., & Farag, K. S. I. (2018). Iron ore prospecting based on very low frequency-electromagnetic and geoelectrical resistivity at Wadi Abu Subeira, Northeastern Aswan, South Egypt. NRIAG Journal of Astronomy and Geophysics, 7(2), 253–263. https://doi.org/10.1016/j.nrjag.2018.08.002
Syukur, S., & Syakur, A. (2020). Identifikasi Lapisan Akuifer Air Tanah Bawah Permukaan Method Geolistrik Teknik Ves (Vertical Electrical Sounding) Pada Lokasi Rencana Pemboran Air Tanah Dalam Lokasi Gunung Bale Kababupaten Donggala Provinsi Sulawesi Tengah. Agroland: Jurnal Ilmu-Ilmu Pertanian, 27(1), 38-44. Retrieved from http://jurnal.faperta.untad.ac.id/index.php/agrolandnasional/article/view/146
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