Detected of Gypsum Soil Layer by Using 2d and 3d Electrical Resistivity Imaging Techniques in University of Anbar, Iraq

Abdulrazzaq, Zaidoon Taha; Al-Zubedi, Ahmed S.; Abed, Ali M.

doi:10.46717/igj.53.2c.10rs-2020.09.10

Cited by 4 publications

(3 citation statements)

References 11 publications

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“…While, the second proposed gypsum layer is detected at the end of this section and at a depth around 4.0-5.0 meters. This layer is probably subjected to the differential dissolvement, particularly when water level lies in or close shallow-depths Earth-layers (Abed et al 2021;Abdulrazzaq et al, 2020). Sandstone layers are probably found here with claystone and siltstone.…”

Section: Block Ementioning

confidence: 86%

Subsurface Investigation Using Electrical Resistivity Imaging for Proposed Industrial Site near Erbil-Kirkuk Borders, Northern Iraq

Al-Saadi

2021

IGJ

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The friendly-environment geophysical methods are commonly used in various engineering and near-surface environmental investigations. Electrical Resistivity Imaging technique was used to investigate the subsurface rocks, sediments properties of a proposed industrial site to characterize the lateral and vertical lithological changes. via the electrical resistivity, to give an overview about the karst, weak and robust subsoil zones. Nineteen 2D ERI profiles using Wenner array with 2 m electrode spacing have been applied to investigate the specific industry area. One of these profiles has been conducted with one-meter electrode spacing. The surveyed profiles are divided into a number of blocks, each block consists of several parallel profiles in a specific direction. The positions of Electrical Resistivity Imaging profiles in the project area have been determined according to a preliminary subject plan from the civil engineers for factory foundation constructions and proposed locations of heavy machines. The inversion results of profiles showed that areas of blocks A, B, C, and D consist mainly of clastic rocks and sediments, e.g., claystone, siltstone and sandstone. The Electrical Resistivity Imaging inversion sections of blocks A, B, C, and D do not show any indication of cavitation or weak zones of sizes more than 2.0 meters, and no signs of gypsum bodies are found in these areas in general. Gypsum bodies are probably detected at block E, the southern part of the study area. The researchers recommended to keep these rocks in block E away from the continuous running water to avoid cavitation. Furthermore, the construction of heavy machines should keep away from this part of the study area to avoid to some extent, subsoil failure and subsidence in the future. Middle and Northern parts are more consistent to the constructions and factory foundations.

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Section: Block Ementioning

confidence: 86%

Subsurface Investigation Using Electrical Resistivity Imaging for Proposed Industrial Site near Erbil-Kirkuk Borders, Northern Iraq

Al-Saadi

2021

IGJ

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“…Cave K-3 is well exposed, with the cave found at a depth of 35. 5 m and an extension of more than 50 m. [3] used a Dipoledipole array to image the gypsum soil layer in a selected area at the University of Anbar. This survey was conducted along seven convergent 2D lines in the E-W direction, and the data of all 2D lines were then combined to produce 3D impedance imaging models.…”

Section: Introductionmentioning

confidence: 99%

Application of the Electrical Resistivity Method to Investigate Groundwater in Ramadi, Western Iraq

noon,

Abed,

AL-Menshed

2023

JUAPS

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The vertical electrical sounding (VES) survey was carried out using a Schlumberger array. The purpose of this study is to investigate groundwater in the West of Ramadi City. Fieldwork for 20 VES points was carried out. The results of VES are presented through geoelectrical sections which indicate the presence of an aquifer in the studied area. Display the resistivity variation between the irregular portions of the water table and the host sediment. The vertical extension of the wet zone is between 1.5 m to 9.5 m. Where groundwater level in the three wells located in the University of Anbar, a 7-kilometer area and 18-kilometer area, was identical to its level in the three imaging reversed models.

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“…[11][12][13][14] used 2D resistivity imaging technique to delineate the subsurface fracture characteristics. Some authors have used integrated 1D resistivity, and 2D and 3D imaging (by parallel 2D) surveys for the detection of subsurface structures, such as [15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Using 2D Resistivity Imaging Technique to Detect and Delineate Shallow Unknown Cavities In Al-Haqlaniyah Area, Western Iraq

jumaily

2022

eijs

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Basal breccia unconformity layer between Anah and Euphrates Formations in AL-Haqlaniyah area, Western desert, include enormous sinkholes and cavities usually cause severe damages to any kind of engineering facilities built over it. Two-dimensional resistivity imaging has been applied to detect the depth and extent of the subsurface caves at five stations. Dipole-dipole array is chosen with an electrode spacing of 2 meters. 2D Dipole-dipole imaging inverse models show the resistivity values have a big variation between the anomalous background resistivity of rocks and part of cavities. These models showed shallow cavities at 1 to 3 m depth and others at 5to 6 m depth and extending to a depth of 23 m. The unconformity layer is less cohesive than the rocks beneath and above it. So it was the best area for the caves to be formed as a result of dissolving its rocks by leaking rainwater and groundwater. Therefore, it must be a pre-engineering preparation before starting any urban construction of the population in the study area or adjacent areas to avoid risks.

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Detected of Gypsum Soil Layer by Using 2d and 3d Electrical Resistivity Imaging Techniques in University of Anbar, Iraq

Cited by 4 publications

References 11 publications

Subsurface Investigation Using Electrical Resistivity Imaging for Proposed Industrial Site near Erbil-Kirkuk Borders, Northern Iraq

Subsurface Investigation Using Electrical Resistivity Imaging for Proposed Industrial Site near Erbil-Kirkuk Borders, Northern Iraq

Application of the Electrical Resistivity Method to Investigate Groundwater in Ramadi, Western Iraq

Using 2D Resistivity Imaging Technique to Detect and Delineate Shallow Unknown Cavities In Al-Haqlaniyah Area, Western Iraq

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