GROUNDWATER STUDY USING RESISTIVITY GEOELECTRIC METHOD MISE-A-LA-MASSE (MALM) AND VERTICAL ELECTRICAL SOUNDING (VES) IN ADHIDARMA VILLAGE, CIREBON DISTRICT, WEST JAVA
Water is vital to human life. Groundwater is the largest source of freshwater accessible to humans. Freshwater can be identified using the resistivity geoelectric method. The research was conducted in Adhidarma Village, Cirebon Regency, West Java. The research location is 1.6 km from the shorelin...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/86569 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Water is vital to human life. Groundwater is the largest source of freshwater
accessible to humans. Freshwater can be identified using the resistivity geoelectric
method. The research was conducted in Adhidarma Village, Cirebon Regency, West
Java. The research location is 1.6 km from the shoreline and there is a 2.81 m deep
borehole. The geological map shows an area of alluvium like sand, clay, silt,
gravel, and river deposits. The study was conducted using the Mise-à-la-Masse
(MALM) resistivity method, Vertical Electrical Sounding (VES), water quality tests,
and Electrical Resistivity Tomography (ERT). MALM measurements to draw a map
of the distribution of conductive bodies (water in the well), VES to determine
vertical variations in resistivity, and ERT for subsurface 2D resistivity modeling to
validate other measurements. In MALM measured 108 points and the data was
processed using surfer to produce a pseudo resistivity map. VES measurements at
2 points with a range of 30 m Schlumberger configuration, and data processed
using IPI2WIN. Water tests conducted in three days, by measuring of pH,
temperature, TDS, conductivity, and salinity. ERT was conducted with 3 lines, 20
electrodes spaced 1.5 m apart and Dipole-dipole, Schlumberger, and Wenner Alpha
configurations. Results were modeled with RES2DINV software. It was found that
MALM was effective in describing the distribution of conductive bodies. ERT
measurements confirm the results of MALM measurements of the distribution of
conductive bodies, and the three measurements confirm each other and corroborate
the truth of the measurement results. The layers in the study area are clay, sandy
clay, and sandy clay. Water quality tests show that the water is categorized as
alkaline, with moderately saline water conditions. However, the conductivity value
was categorized as seawater-infiltrated. The resistivity model of line 1 shows that
there is a high conductivity area which is interpreted as seawater intrusion but this
area is at the bottom of the conductive body. It is analyzed that seepage occurs at
the bottom of the conductive body which makes the water categorized as saline. |
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