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Numerical Analysis of Water and Crude Oil Flux from Clayey Soil by GeoStudio-SEEP/W

Alwan, Amina Hamid / Al-Adili, Aqeel

In this study, the finite element computer program Geo Studio SEEP/W was used to simulate water and crude oil leakage on the top and side surface of clayey soil. The accumulative flux increased with increasing time until a specific quantity after that increasing the time does not cause increasing the flux quantity. The accumulative water flux quantity (m³/sec) is less than the accumulative crude oil flux quantity by 3.2748E-05 Section 1, 1.9600E-04 on section 2, 2.0370E-04 on section 3, 5.1870E-06 on section 4 in the first five minutes. The results have shown the accumulative quantity in both cases continues to increase parallel until minute 1320 (22 h), then the soil in the model becomes saturated. For the comparison of effects of water and crude oil leakage on the model’s side surface, found the accumulative water flux quantity (m³/sec) is less than the accumulative crude oil flux quantity, by 5.4760E-03 section 1, 2.1961E-04 on section 2, 2.0863E-04 on section 3, 3.3236E-08 on section 4 in the first five minutes. The accumulative amount continues increasing for both until 1080 min (18 h), then the soil in the model becomes saturated.

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Numerical Analysis of Water and Crude Oil Flux from Clayey Soil by GeoStudio-SEEP/W

Alwan, Amina Hamid / Al-Adili, Aqeel

In this study, the finite element computer program Geo Studio SEEP/W was used to simulate water and crude oil leakage on the top and side surface of clayey soil. The accumulative flux increased with increasing time until a specific quantity after that increasing the time does not cause increasing the flux quantity. The accumulative water flux quantity (m³/sec) is less than the accumulative crude oil flux quantity by 3.2748E-05 Section 1, 1.9600E-04 on section 2, 2.0370E-04 on section 3, 5.1870E-06 on section 4 in the first five minutes. The results have shown the accumulative quantity in both cases continues to increase parallel until minute 1320 (22 h), then the soil in the model becomes saturated. For the comparison of effects of water and crude oil leakage on the model’s side surface, found the accumulative water flux quantity (m³/sec) is less than the accumulative crude oil flux quantity, by 5.4760E-03 section 1, 2.1961E-04 on section 2, 2.0863E-04 on section 3, 3.3236E-08 on section 4 in the first five minutes. The accumulative amount continues increasing for both until 1080 min (18 h), then the soil in the model becomes saturated.

Numerical Analysis of Water and Crude Oil Flux from Clayey Soil by GeoStudio-SEEP/W

Alwan, Amina Hamid / Al-Adili, Aqeel

In this study, the finite element computer program Geo Studio SEEP/W was used to simulate water and crude oil leakage on the top and side surface of clayey soil. The accumulative flux increased with increasing time until a specific quantity after that increasing the time does not cause increasing the flux quantity. The accumulative water flux quantity (m³/sec) is less than the accumulative crude oil flux quantity by 3.2748E-05 Section 1, 1.9600E-04 on section 2, 2.0370E-04 on section 3, 5.1870E-06 on section 4 in the first five minutes. The results have shown the accumulative quantity in both cases continues to increase parallel until minute 1320 (22 h), then the soil in the model becomes saturated. For the comparison of effects of water and crude oil leakage on the model’s side surface, found the accumulative water flux quantity (m³/sec) is less than the accumulative crude oil flux quantity, by 5.4760E-03 section 1, 2.1961E-04 on section 2, 2.0863E-04 on section 3, 3.3236E-08 on section 4 in the first five minutes. The accumulative amount continues increasing for both until 1080 min (18 h), then the soil in the model becomes saturated.

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Titel:

Numerical Analysis of Water and Crude Oil Flux from Clayey Soil by GeoStudio-SEEP/W

Beteiligte:

Karkush, Mahdi O. (Herausgeber:in) / Choudhury, Deepankar (Herausgeber:in) / Alwan, Amina Hamid (Autor:in) / Al-Adili, Aqeel (Autor:in)

Erschienen in:

Geotechnical Engineering and Sustainable Construction ; Kapitel: 16 ; 191-206

Erscheinungsdatum:

20.03.2022

Format / Umfang:

16 pages

ISBN:

978-981-16-6277-5 , 978-981-16-6276-8

DOI:

https://doi.org/10.1007/978-981-16-6277-5_16

Medientyp:

Aufsatz/Kapitel (Buch)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

Seepage , Crude oil , SEEP/W , Leakage , Clayey soil Engineering , Geoengineering, Foundations, Hydraulics , Geotechnical Engineering & Applied Earth Sciences , Transportation Technology and Traffic Engineering , Environment, general , Building Construction and Design

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