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| 040 | _cSSBUL | ||
| 082 |
_223rd edition, _aT-15 M.Sc. |
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| 100 |
_aKyaw Zay Ya _963374 |
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_aGeomechanics classification and slope stability analysis of power tunnel in upper Keng Tawng hydropower project, Mong Nai Township, Southern Shan State / _cKyaw Zay Ya |
| 264 |
_aYangon; _bUniersity of Yangon, _c2018. |
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| 300 |
_a(v), 126 pages : _bfigures, tables, _c30 cm. |
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| 500 | _aIncludes list of figures, list of tables, appendix. | ||
| 502 |
_aABSTRACT _ Upper Keng Tawng Hydropower project is located Mong Nai Township, Loilem district, about 14 miles away from Southern Keng Tawng in Southern Shan State. Upper Keng Tawng hydropower project has been carried out for hydropower generation. At the project area, the exposed Kalaw Formation (Cretaceous age) is composed of reddish colour sandstone, silstone and conglomerate. Along the tunnel aligmment, core drilling investigation and permeability test are carried out for geotechnical investigation. The percentage of RQD is generally ranging from 50% to 90% according to the drill holes results. Permeability in bed rock is ranging from 1 Lu to 16.9 Lu. Geomechanics classification and detailed slope stability analyses were performed for four locations in the project area. Spacings of discontinuities were measured in the field and the measured results were ranging from 0.4m to 0.6m while the persistence was ranging from 2.2m to 4.4m. Most of the discontinuity openings were between 3.12mm and 6.7mm and they were filed with some clay and silt. Rebound hammer test on some selected rock outcrops in the study area were ranging from 20 MPa to 50 MPa. The RMR value is ranging from poor rock to good rock condition and SMR value is almost rock condition but SMR value of tunnel inlet shows the bad rock condition. Detailed slope stability analyses had been carried out at four locations in the study area by stereographic projection in Win 64 Software and it revealed the factor of safety of 0.43 to 7.6. The areas with safety factor less than 2 are generally unstable and that of greater than 2 are stable. The unstable areas require some effected remedial measures and some suitable supporting and stabilizing methods are needed in the study area. _bM.Sc. _cUniversity of Yangon. _d2018 |
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| 504 | _aIncludes references. | ||
| 505 |
_aCONTENTS _
ABSTRACT
CONTENTS
LIST OF FIGURES
LIST OF TABLES
CHAPTER I : INTRODUCTION
1.1 Location, size and accessibility
1.2 Salient features of Upper Keng Tawng Hydropower Project
1.3 Physiography
1.3.1 Topography
1.3.2 Drainage
1.3.3 Climate, rainfall and vegetation
1.4 Purposes of study
1.5 Methods of study
1.5.1 Desk study
1.5.2 Field methods
1.5.3 Laboratory methods
1.5.4 Data analysis and processing
1.6 Previous works
CHAPTER II : REGIONAL GEOLOGY
2.1 General Statements
2.2 Regional geology of the study area
2.2.1 Stratigraphic succession of the study area
2.3 Plateau Limestone
2.4 Natteik Limestone
2.5 Loi-An Group
2.6 Kalaw Formation
2.7 Alluvium
2.7.1 River bed deposit
2.7.2 Terrace deposit
2.7.3 Alluvial fan deposit
2.7.4 Foot slope deposit
2.7.5 Residual soil
2.8 Geological structure
2.8.1 Folds
2.8.2 Faults
2.8.3 Joints
CHAPTER III : LITERATURE REVIEW AND THEROITICAL BACKGROUND
3.1 Effect of discontinuities on slope stability
3.2 Stereographic projection of a plane and its pole
3.3 Effect of water pressure in the tension crack
3.4 Friction and Cohension
3.5 Types of the slope instability
3.5.1 Planer failure
3.5.2 Wedge failure
3.5.3 Circular failure
3.5.4 Toppling Failure
3.6 Geomechanics classification
3.7 Rock quality designation index (RQD)
3.8 Slope mass rating (SMR)
CHAPTER IV RESEARCH MEDOLOGY
4.1 Preliminary Investigations
4.2 Detailed Investigations
4.2.1 Field Investigations
4.2.2 Measurement of Discontinuities
4.2.3 Estimation of Intact Rock strength
4.2.4 Estimation of angle of internal friction (Ø)
4.3 Analysis of Discontinuities
4.4 Drilling investigation
4.5 Laboratory testing
4.6 Slope Stability Analysis
CHAPTER V : ENGINEERING GEOLOGIGAL INVESTIGATION
5.1 Drilling investigation along the power tunnel
5.2 Engineering geological conditons of dam site area
5.3 Engineering geological conditions of power tunnel
5.4 Rock core recovery of drill holes
5.5 Pressure test
5.6 Engineering properties selected site
5.7 Site of construction materials
5.8 Engineering geological map of the project
CHAPTER VI : GEOMECHANIS CLASSIFICATION AND SLOPE STABILITY ANALYSIS
6.1 Rock Mass Classification
6.2 Measurement of Discontinuities
6.3 Calculation of rock mass rating (RMR)
6.4 Slope Mass Rating (SMR)
6.5 Calculation of SMR
6.6 Kinematic Analysis
6.7 Kinematic Analysis at Location-1
6.7.1 Identifying Modes of Failure and Stability Analysis at Location-1
6.8 Kinematic Analysis at Location-2
6.8.1 Identifying Modes of Failure and Stability Analysis at Location-2
6.9 Kinematic Analysis at Location-3
6.9.1 Identifying Modes of Failure and Stability Analysis at Location-3
6.10 Kinematic Analysis at Location-4
6.10.1 Identifying Modes of Failure and Stability Analysis at Location-4
CHAPTER VII : DISCUSSION, CONCLUSION AND RECOMMENDATION
7.1 Discussion
7.2 Conclusion
7.3 Recommendation
REFERENCES
APPENDIX. _rGeomechanics classification and slope stability analysis of power tunnel in upper Keng Tawng hydropower project, Mong Nai Township, Southern Shan State / _tKyaw Zay Ya |
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_aGeology _xGeomechanics classification _xSlope stability analysis _zMong Nai township _zSouthern Shan State. _963375 |
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_2ddc _cREF |
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_c46222 _d46222 |
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