以縮尺實驗和野外調查探討河流和射流水柱造成的軟弱岩盤侵蝕

Ching-Lan Chou; 周菁蘭

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/44075

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	卡艾瑋(Herve Capart)
dc.contributor.author	Ching-Lan Chou	en
dc.contributor.author	周菁蘭	zh_TW
dc.date.accessioned	2021-06-15T02:38:51Z	-
dc.date.available	2013-08-22
dc.date.copyright	2011-08-22
dc.date.issued	2011
dc.date.submitted	2011-08-16
dc.identifier.citation	Carter, C. L. and R. S. Anderson, (2006) 'Fluvial erosion of physically modeled abrasion-dominated slot canyons.' Geomorphology 81(1-2): p.89-113. Chi, T. A., (2007) 'Laser halo measurements of solid-liquid two phase flows', M. S. thesis, Graduate Institute of Civil Engineering, National Taiwan University. Capart H., Young, D. L., and Y. Zech, (2002) “Voronoi imaging methods for the measurement of granular flows” Experiments in Fluids 32(1): p.121-135. Jahne, B., (1995) Digital image processing. Springer-Verlag Ke, W. T., (2005) “Formation of symmetrically palmated deltas: shallow flow computations and experimental study.” M. S. thesis, Graduate Institute of Civil Engineering, National Taiwan University. Cook K., N. Hovius, and J. Suppe, (2010) 'Bedload-Driven River Incision - Evidence from The ’Grand Canyon’ of the Da’an River, Taiwan.' EGU General Assembly 2010: p.6546 Lai S. Y. J., (2010) 'Morphodynamics of Coevolvong Fluvial and Hyoeroycnal Valley.' PHD thesis, Graduate Institute of Civil Engineering, National Taiwan University. Lai, Y. G. and B. P. Greimann, (2009) “Rock Erosion Modeling for Rivers in Taiwan and Progress Report of Bank Erosion and Turbidity Current Modeling” Techniacal Report, Technical Service Center, bureau of Reclamation, Denver, CO SRH-2009-40. Lai, Y. G., B. P. Greimann, and Wu, K. W. (2010). 'Soft Bedrock Erosion Modeling with a Two-Dimensional Depth-Averaged Model.' Journal of Hydraulic Engineering, posted online in advance of print. Lee, J. C., Chu, H. T., J. Angelier, Chan, Y. C., Hu, J. C., Lu, C, Y, and Rau, R. J. (2002). “Geometry and structure of northern surface ruptures of the 1999 Mw = 7.6 Chi-Chi Taiwan earthquake: influence from inherited fold belt structures.” Journal of Stuctural Geology 24: p.173-192 Seidl M. A., and W. E. Dietrich, (1992). 'The Problem of Channel Erosion into Bedrock' Catena Supplement 23: p.101-124. Ni, W. J. (2005) 'Groundwater drainage and recharge by geomorphically active gullies.' M. S. thesis, Graduate Institute of Civil Engineering, National Taiwan University. Ni, W. J. and H. Capart (2006) 'Groundwater drainage and recharge by networks of irregular channels' Journal of Geophysical Research-Earth Surface, 111, F02014 Perng A. T. H. and H. Capart (2007), 'Underwater sand bed erosion and internal jump formation by travelling plane jets' Journal of Fluid Mechanics (2008) 595: p.1 –43. Turowski, J. M., N. Hovius, A. Wilson, and Horng, M. J., (2008) 'Hydraulic geometry, river sediment and the definition of bedrock channels.' Geomorphology 99(1-4): p.26-38. Whipple, K. X., G. S. Hancock, and R. S. Anderson (2000). 'River incision into bedrock: Mechanics and relative efficacy of plucking, abrasion, and cavitation.' Geological Society of America Bulletin 112(3): p.490-503.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/44075	-
dc.description.abstract	台灣近年來，除了多數人研究的沖積河川外，受到921大地震地層抬升,以及攔砂壩等水工結構物的影響，河道中岩盤的露出、侵蝕、下切也逐漸受人重視。本篇論文介紹台灣多處岩盤侵蝕的情況及可能成因，並以此做為出發，設計縮尺物理實驗模型來模擬岩盤侵蝕。在材料的選擇方面，我們以石膏和砂混水做為河床流域基礎，經由調配適當的比例，使得我們的模型足以表現岩盤的強度，但又能快速的表現沖蝕。沖蝕環境設定在攔砂壩下游，磨料控制在不完全淤積但足以沖蝕的量；模型渠道的地表設計則包含地形突變、不同強度材料相互影響以及河川蜿蜒影響。我們記錄了縮尺物理模型實驗中的沖蝕過程，結合階段性的地形雷射掃描、表面流速分析，並設計一種新的岩石強度測試方式，以射流水柱沖蝕的深度來判斷實驗及現地的材料強度。我們也設計了一種以極座標原理出發的網格來展現DTM，克服了岩盤沖蝕常會遇見的複雜峽谷狀地形，比一般平面網格更能立體地呈現地形。最後我們將實驗成果與現地（集集攔河堰）做比較，可發現我們的模型沖蝕結果，與大部分現地現象都相似。而射流水柱測試強度的方法，需要更多的沖蝕測試來提高準確度並建立材料強度及射流沖蝕深度的關係。	zh_TW
dc.description.abstract	In Taiwan, the issue of soft bedrock erosion has become of increasing concern following the uplifting of the 921 Earthquake. Following this event, bedrock has become exposed downstream of many hydraulic structures like dams and weirs. This thesis is going to introduce lots of bedrock erosion examples at different places in Taiwan. We use these examples as motivation to design small scale laboratory experiments simulating soft bedrock erosion. For the bedrock material of our experiments, we mix plaster, fine sand and water. By carefully choosing the mixing ratio, the physical model can approximate the characteristic of bedrock, and can be eroded in a short time. We set the experiment environment as the reach downstream of a dam, and add abrasive to accelerate erosion. Other surface design for experimental channel including: stairs, interaction of different material and river curvature. We recorded the evolution of river topography using laser scanning, measured surface flow velocity using particle tracking, and developed a water-jet strength test to determine the material strength of soft bedrock from the experiment and from the field. We also developed a mesh generator using polar coordinate system to address the difficulties of complex topography. In the end, we compare our experimental results with field observations, especially of Chichi Weir, and found a lot of similarities. As for the water-jet strength test, we need more data and more testing to improve the accuracy and construct a relation between bedrock strength and water-jet eroded depth.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T02:38:51Z (GMT). No. of bitstreams: 1 ntu-100-R98521303-1.pdf: 28065256 bytes, checksum: 3c513aa4fb5096be6c850a8f47ef5b02 (MD5) Previous issue date: 2011	en
dc.description.tableofcontents	口委審定書 I 致謝 II 摘要 III Abstract IV Content V Figure List VII Table List XII Chapter 1 Introduction 1 1.1 Bedrock Erosion 2 1.2 Bedrock Erosion in Taiwan 4 1.3 Taiwan Field Examples 5 1.3.1 South Taiwan – Bachang River Example 6 1.3.2 Central Taiwan – Shihkang Dam Example 7 1.3.3 Central Taiwan – Daan Canyon Example 8 1.3.4 Central Taiwan – Chichi Weir Example 11 1.4 Aims of This Thesis 14 Chapter 2 Experiment Set-up and Procedure 17 2.1 Experiment Material 18 2.1.1 Material Chosen 18 2.1.2 Material Strength test of Water-Jet 18 2.2 Experiment Set-up 23 2.2.1 Experimental Bedrock Channel Design 23 2.2.2 Supply system 29 2.3 Experimental Procedure 31 Chapter 3 Experimental Measurements 45 3.1 Topography Measurements 46 3.1.1 Laser Scanning System Setup 46 3.1.2 Calibration 50 3.1.3 Topography Imaging Processing 53 3.1.4 Digital Terrain Model constructing (DTM) 56 3.1.5 DTM measurement error 57 3.1.6 Detailed Topography Measurement 59 3.2 Velocity Measurement 61 3.2.1 Velocity Measurement Set-up 61 3.2.2 Particle Tracking 65 3.2.3 Velocity Coordinate Calibrating 65 3.2.4 Velocity Field Reconstruction 66 3.3 Material Strength Re-tests 67 Chapter 4 Experimental Analysis 69 4.1 Topography Analysis 70 4.1.1 Shading DTM 70 4.1.2 High Detail Resolution DTM Display 82 4.1.3 Long Profile Analysis 83 4.1.4 Cross Section Analysis 85 4.2 Velocity Analysis 92 4.3 Water-Jet eroding depth analysis 97 4.4 Erosion Volume 100 Chapter 5 Exploratory Comparison of Field and Experiment 103 5.1 Introduction 103 5.2 Morphology Comparison 104 5.3 Topography Comparison 111 5.3.1 Chichi Bedrock Exposing Area Evolution 111 5.3.2 Chichi DEM Analysis and Comparison with Experiment 112 5.3 Water-jet Strength Test Applied to Field Samples 118 5.4 Results Comparison 121 Chapter 6 Conclusion and Future Work 123 Reference 126
dc.language.iso	en
dc.subject	射流水柱	zh_TW
dc.subject	岩盤侵蝕	zh_TW
dc.subject	影像分析	zh_TW
dc.subject	物理模型實驗	zh_TW
dc.subject	集集攔河堰	zh_TW
dc.subject	bedrock erosion	en
dc.subject	Chichi Weir	en
dc.subject	water jet	en
dc.subject	image analysis	en
dc.subject	physical experimental model	en
dc.title	以縮尺實驗和野外調查探討河流和射流水柱造成的軟弱岩盤侵蝕	zh_TW
dc.title	Erosion of Soft Bedrock by River and Jet Flows: Small - Scale Experiment, and Field Exploration	en
dc.type	Thesis
dc.date.schoolyear	99-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	周憲德,吳富春,柯麗思(Kristen Cook)
dc.subject.keyword	岩盤侵蝕,物理模型實驗,影像分析,集集攔河堰,射流水柱,	zh_TW
dc.subject.keyword	bedrock erosion,physical experimental model,image analysis,Chichi Weir,water jet,	en
dc.relation.page	128
dc.rights.note	有償授權
dc.date.accepted	2011-08-17
dc.contributor.author-college	工學院	zh_TW
dc.contributor.author-dept	土木工程學研究所	zh_TW
顯示於系所單位：	土木工程學系

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