MENENTUKAN KEDALAMAN DAN KETEBALAN AKUIFER DENGAN METODE LOGGING TAHANAN JENIS PADA WAKTU PENGEBORAN AIR TANAH
DOI:
https://doi.org/10.32679/jsda.v5i1.460Kata Kunci:
Depth & thickness of aquifer, resistivity logging, groundwaterAbstrak
The aim of this resistivity logging measurement is to decide the stratification of rock and distribution of
aquifer based on the resistivity value. The objective of the well logging is to determine the depth and thickness
of aquifer for well construction, in order to decide the position of screen in the aquifers .Interpretation results
of the resistivity logging of aquifer of sand and sandy tuff vary between 20 – 40 ohm-m and 60 – 115 ohm-m for
breccia. Groundwater in the Ciparay and Cibodas areas is predicted in the depth of 42 – 66 m and 75 – 108 m,
consisting of intercalation of young volcanic fan and Bandung lake deposit. The aquifer in Dago area is less
than 100 m deep representing young volcanic deposit including the Cibeureum Formation, whereas aquifers
with a depth of more than 100 m comprise volcanic deposit, including the Cikapundung Formation. It is
recommended to extract groundwater from more than 50 m deep, in order to prevent influence to phreatic
aquifer as excavated well. The minimum kind of well logging for groundwater drilling should consist of
resistivity, self-potential and gamma ray logging.
Referensi
Adang S.Soewaeli, 2004, Tata cara
Pencatatan Akuifer Dengan Metode
Logging Geolistrik Tahanan Jenis Short
Normal dan Long Normal Dalam Rangka
Eksplorasi Air Tanah, RSNI T-05-2004,
SNI, Badan Standar Nasional, BSN.
Assad Fakhry, 2004, Field Methods for
Geologist and Hydrogeologists, Springer
– Verlag, Berlin-Heidelberg 2004, Printed
in Germany.
Bruce Misstear, 2006, Water Wells and
Boreholes, John Wiley & Sons Ltd, The
Atrium, Southern Gate, Chichester, West
Sussex PO19 8SQ, England.
Kevin Hiscock, 2005, Hydrogeology
Principles and Practice, Blackwell
Publishing Science Ltd, USA
Kollert, 1969, Groundwater Exploration
By The Electrical Resistivity Method,
Geophysical Memorandum 3,
Geophysics &Electronics, Atlas Copco
ABEM, Sweden.
Reinhard Kirsch, 2006, Groundwater
Geophysics, A Tool For Hydrogeology,
Springer-Verlag, Berlin-Heidelberg
, Printed in Germany
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