The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation

Electrical resistivity tomography is a non-destructive method of groundwater surveying where the current is being injected into the ground and the value of the subsurface resistivity and chargeability were determined. One of the major problems in groundwater surveying is the interpretation of the...

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Main Author: Abd Malik, Ahmad Khairul
Format: Thesis
Language:English
English
English
Published: 2021
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spelling my.uthm.eprints.64372022-02-05T07:27:37Z http://eprints.uthm.edu.my/6437/ The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation Abd Malik, Ahmad Khairul QC Physics T Technology (General) QC501-766 Electricity and magnetism Electrical resistivity tomography is a non-destructive method of groundwater surveying where the current is being injected into the ground and the value of the subsurface resistivity and chargeability were determined. One of the major problems in groundwater surveying is the interpretation of the groundwater aquifer under saturated condition. The overlapping resistivity and chargeability value under a saturated condition is a major concern in groundwater aquifer interpretation. In this study, the effects of particle size and the interrelationship between the different particle sizes were assessed towards the resistivity and chargeability value. There were 17 samples used in this study ranges from gravel, sand, silt and clay sizes. The materials used to conduct the testing were granitic rock and river sand. Quartz and kaolinite dominated samples were used for the silt and clay sample. The device used for the experiment is Terrameter LS 2 to conduct the resistivity and induced polarization tests. The electrical testing follow the ASTM G57 and ASTM G187/AASHTO T-288 standards for the soil box with volume of 270 cm and soil cylinder with volume of 2714 cm 3 respectively. The resistivity value for the gravel ranges from 177 Ωm at its highest to 128 Ωm at its lowest. The resistivity value for the sand ranges from 121 Ωm at its highest to 86 Ωm at its lowest. The resistivity value of the two silt and clay samples were 37 Ωm and 56 Ωm at the point of liquid limit. The chargeability value for the gravel ranges from 5.6 ms to 7.9 ms with decreasing particle size. The highest chargeability value for sand is 12.3 ms and the lowest is 2.0 ms. The silt and clay samples chargeability were 1.7 ms and 1.2 ms, respectively. The resistivity and chargeability for water used in this study were 101.7 Ωm and 0.41 ms. This study helps in clarifying the effect of particle size for resistivity and chargeability value as the larger particle size increases the resistivity value and decreases the chargeability value of water due to porosity and improve the understanding of the electrical resistivity tomography for groundwater investigation interpretation. 2021-08 Thesis NonPeerReviewed text en http://eprints.uthm.edu.my/6437/1/24p%20AHMAD%20KHAIRUL%20ABD%20MALIK.pdf text en http://eprints.uthm.edu.my/6437/2/AHMAD%20KHAIRUL%20ABD%20MALIK%20COPYRIGHT%20DECLARATION.pdf text en http://eprints.uthm.edu.my/6437/3/AHMAD%20KHAIRUL%20ABD%20MALIK%20WATERMARK.pdf Abd Malik, Ahmad Khairul (2021) The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation. Masters thesis, Universiti Tun Hussein Malaysia.
institution Universiti Tun Hussein Onn Malaysia
building UTHM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tun Hussein Onn Malaysia
content_source UTHM Institutional Repository
url_provider http://eprints.uthm.edu.my/
language English
English
English
topic QC Physics
T Technology (General)
QC501-766 Electricity and magnetism
spellingShingle QC Physics
T Technology (General)
QC501-766 Electricity and magnetism
Abd Malik, Ahmad Khairul
The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
description Electrical resistivity tomography is a non-destructive method of groundwater surveying where the current is being injected into the ground and the value of the subsurface resistivity and chargeability were determined. One of the major problems in groundwater surveying is the interpretation of the groundwater aquifer under saturated condition. The overlapping resistivity and chargeability value under a saturated condition is a major concern in groundwater aquifer interpretation. In this study, the effects of particle size and the interrelationship between the different particle sizes were assessed towards the resistivity and chargeability value. There were 17 samples used in this study ranges from gravel, sand, silt and clay sizes. The materials used to conduct the testing were granitic rock and river sand. Quartz and kaolinite dominated samples were used for the silt and clay sample. The device used for the experiment is Terrameter LS 2 to conduct the resistivity and induced polarization tests. The electrical testing follow the ASTM G57 and ASTM G187/AASHTO T-288 standards for the soil box with volume of 270 cm and soil cylinder with volume of 2714 cm 3 respectively. The resistivity value for the gravel ranges from 177 Ωm at its highest to 128 Ωm at its lowest. The resistivity value for the sand ranges from 121 Ωm at its highest to 86 Ωm at its lowest. The resistivity value of the two silt and clay samples were 37 Ωm and 56 Ωm at the point of liquid limit. The chargeability value for the gravel ranges from 5.6 ms to 7.9 ms with decreasing particle size. The highest chargeability value for sand is 12.3 ms and the lowest is 2.0 ms. The silt and clay samples chargeability were 1.7 ms and 1.2 ms, respectively. The resistivity and chargeability for water used in this study were 101.7 Ωm and 0.41 ms. This study helps in clarifying the effect of particle size for resistivity and chargeability value as the larger particle size increases the resistivity value and decreases the chargeability value of water due to porosity and improve the understanding of the electrical resistivity tomography for groundwater investigation interpretation.
format Thesis
author Abd Malik, Ahmad Khairul
author_facet Abd Malik, Ahmad Khairul
author_sort Abd Malik, Ahmad Khairul
title The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
title_short The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
title_full The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
title_fullStr The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
title_full_unstemmed The influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
title_sort influence of particle size towards the resistivity and chargeability value for groundwater investigation interpretation
publishDate 2021
url http://eprints.uthm.edu.my/6437/1/24p%20AHMAD%20KHAIRUL%20ABD%20MALIK.pdf
http://eprints.uthm.edu.my/6437/2/AHMAD%20KHAIRUL%20ABD%20MALIK%20COPYRIGHT%20DECLARATION.pdf
http://eprints.uthm.edu.my/6437/3/AHMAD%20KHAIRUL%20ABD%20MALIK%20WATERMARK.pdf
http://eprints.uthm.edu.my/6437/
_version_ 1738581492577075200
score 13.214268