Characterization of Continental Intercalaire aquifer (CI) in the Tinrhert-East Area-Illizi Basin on the Algerian-Libyan Border

BELOUANAS Hemza; MENANI Mohamed Redha

doi:10.19637/j.cnki.2305-7068.2019.02.003

Volume 7 Issue 2

Jun. 2019

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BELOUANAS Hemza, MENANI Mohamed Redha. 2019: Characterization of Continental Intercalaire aquifer (CI) in the Tinrhert-East Area-Illizi Basin on the Algerian-Libyan Border. Journal of Groundwater Science and Engineering, 7(2): 115-132. doi: 10.19637/j.cnki.2305-7068.2019.02.003

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Characterization of Continental Intercalaire aquifer (CI) in the Tinrhert-East Area-Illizi Basin on the Algerian-Libyan Border

doi: 10.19637/j.cnki.2305-7068.2019.02.003

1Laboratory of Mobilization and Water Resources Management (MGRE), Department of Geology, Earth Sciences Institute, University of Batna 2-Algeria.

Publish Date: 2019-06-28

Abstract

- Open mining pit,
- Water saturation,
- Hydrological simulation,
- Landslides,
- Stability analysis,
- Factor of safety

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References(24)

References

Gray D H. 1995. Influence of vegetation on the stability of slopes. In: Vegetation and Slopes Stabilisation, Protection and Ecology. London: Thomas Telford House, 2-23.

Caine N. 1980. The rainfall intensity-duration control of shallow landslides and debris flows. Geografiska Annaler, 62: 23-27.

Kemmesies O. 1995. Prozessmodellierung und Parameteridentifikation von Mehrphasen-str?mungsprozessen in por?sen Medien. Dresden: Dresdner Grundwasserforschungs-zentrum e.V.

Oikos-team 2007. Causes of landslides. http://en. wikipedia.org/wiki/User:Multichill/top_self_uploaders/Oikos-team

Duncan J M, Wright S G. 2005. Soil strength and slope stability. Canada: John Wiley & Sons, Hoboken N J.

Hammond C, Hall D E, et al. 1992. Level I Stability Analysis (LISA) documentation for version 2.0. Ogden: U.S. Department of Agriculture, Forest Service, Intermountain Research Station; General Technical Report INT-285, UT, 190.

Gover S, Hammah R. 2013. A comparison of finite elements (SSR) and limit-equilibrium slope stability analysis by case study: Geotechnical engineering. Civil Engineering & Siviele Ingenieurswese, 21(3): 31-34.

Minnesota Department of Transportation 2007. Pavement design. St. Paul: Minnesota Department of Transportation. http://www. dot.state.mn.us/materials/pvmtdesign/manual.html.

Biondi G, Cascone E, et al. 2000. Seismic response of saturated cohesionless slopes. Soil Dynamics and Earthquake Engineering, 20(1): 209-215.

Hasan I, Meyer M, Graeber P W. 2012. Simulation des wasserhaushalts in erdd?mmen und deichen als basis für stabilit?tsuntersuchungen mit dem programm PCSiWaPro?. Dresden: Institut für Abfallwirtschaft und Altlasten, Technische Universit?t Dresden.

Swiss Standard SN 670 010b. 1999. Characteristic coefficients of soils. Zurich: Association of Swiss Road and Traffic Engineers.

Corominas J, Moya J. 1999. Reconstructing recent landslide activity in relation to rainfall in the Llobregat River basin, Eastern Pyrenees, Spain. Geomorphology, 30(1-2): 79-93.

WU T H. 2013. Root reinforcement of soil: Review of analytical models, test results, and applications to design. Canadian Geotechnical Journal, 50(3): 259-274.

Bonelli S. 2013. Erosion in geomechanics applied to dams and levees. London: Wiley-ISTE.

Bowles J E. 1988. Foundation analysis and design, 4th edition. New York: McGraw-Hill.

Graeber P W, Blankenburg R, et al. 2006. SiWaPro DSS - Beratungssystem zur simulation von prozessen der unterirdischen zonen. Jochen Wittmann und Mike Müller. Mike Müller. Simulation in Umwelt-und Geowissens?chaften. Leipzig: Shaker Verlag, 25-234.

Coppin N J, Barker D H, Richards I. 1990. Use of vegetation in civil engineering. London: Construction Industry Research and Information Association.

Watts P J, Cox G J, Stepnuk L M. 2001. Farm Dams for the sugar industry. Brisbane: FSA Consulting.

Krahn J. 2004. Stability modeling with SLOPE/W: An engineering methodology. Calgary: GEOSLOPE/W International Ltd.

Abe K. 1997. A method of evaluating the effect of trees roots on preventing shallow-seated landslides. Japan: Bulletin of the Forestry and Forest Products Research Institute, 1105- 1181.

Aigner D. 2004. Auswertung von Untersuchungen über den Einsatz einer Gummispundwand sowie einer Sickerleitung an einem durch-str?mten Modelldeich. Institut für Wasserbau und Technische Hydromechanik. Dresden: Technische Universit?t Dresden.

Griffiths D V, Huang J, Fenton G A. 2011. Probabilistic infinite slope analysis. Com-puters and Geotechnics, 38(4): 577-584.

Graeber P W. 2014. The importance of the unsa-turated soil zone in environment engineering. Sendai: COMPSAFE 2014: Presentation at the 1st International Conference on Com?putational Engineering and Science for Safety and Environmental Problems.

Guo J, Blankenburg R, Graeber P W. 2015. Simulation of hydrological processes in the dump slope of a mining pit for landslide forecasting. In: Proceedings of the 10th International Conference on Acid Rock Drainage & IMWA Annual Conference. Chile: Gecamin.

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