Two-phase Modeling of Debris Flows
| Author | : Julia Kowalski |
| Publisher | : |
| Total Pages | : 135 |
| Release | : 2008 |
| Genre | : |
| ISBN | : 9783866645240 |
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Avalanche Dynamics
| Author | : S.P. Pudasaini |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 614 |
| Release | : 2007-06-30 |
| Genre | : Science |
| ISBN | : 3540326871 |
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Avalanches, mudflows and landslides are common and natural phenomena that occur in mountainous regions. With an emphasis on snow avalanches, this book provides a survey and discussion about the motion of avalanche-like flows from initiation to run out. An important aspect of this book is the formulation and investigation of a simple but appropriate continuum mechanical model for the realistic prediction of geophysical flows of granular material.
Two phase models of debris flows on natural terrains
| Author | : |
| Publisher | : |
| Total Pages | : 52 |
| Release | : 2005 |
| Genre | : |
| ISBN | : |
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Geophysical mass flaws & mdash;debris flows, avalanches, landslides & mdash;can contain O(106 & ndash;10 10) m3 or more of material, often a mixture of soil and rocks with a significant quantity of interstitial fluid. These flows can be tens of meters in depth and thousands of meters in length. The range of scales and the rheology of this mixture presents significant modeling and computational challenges. It is postulated that energy dissipation due to intergranular and basal friction is reduced by the presence of interstitial fluid, thereby carrying the flowing mass over longer distances. Modeling the complex interaction between solid and fluid phases, the mixture rheology, and the range of length and time scales presents significant modeling and computational challenges. This thesis presents a two fluid model for debris flows, a system of equations that separately represents the granular and fluid phase mass and momenta, with the interaction between the phases represented by a drag term. The mass and momentum balance laws are depth averaged to produce a "thin layer" model for mass flows. The model equations are used in a parallel, adaptive grid hyperbolic solver to simulating flows; integration of the solution software with geographic information systems enables realistic simulations over natural terrains.
Numerical Simulation of Debris Flows Using a Multi-phase Model and Case Studies of Two Well-documented Events
| Author | : Mohammad Wasif Naqvi |
| Publisher | : |
| Total Pages | : 125 |
| Release | : 2020 |
| Genre | : Debris avalanches |
| ISBN | : |
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Debris flows are a potentially catastrophic geological hazard worldwide destroying lives, properties, and infrastructure. It is characterized as one of the most destructive among different types of landslide phenomena. They are gravity-driven mass flows involving multiple interacting phases in contact with the environment and with each other during its propagation. The wide range of material sizes ranging from clay to huge boulders with varying compositions poses significant modeling challenges. Lack of monitoring stations, event data, and effective physical models renders it necessary to employ numerical simulations to study the process of the debris flows and predict possibilities for potential hazards. The present study explores a recently developed multi-phase model, implemented in a novel computation tool r.avaflow for simulation of complex multi-phase flows. The present study aims to understand the difference in flow characteristics of different types of mass flows, which vary in material type and composition. First, a numerical simulation of debris flow, mudflows, earth flow, and complex flows, on an idealized slope is conducted to analyze the differences in their flow behavior in the form of run-out distance, velocity, the height of flow, peak discharge, final deposition, kinetic energy, and flow pressure, etc. The results demonstrate the high destructive potential of different types of flows and can be utilized for the delineation of hazard-prone areas. Subsequently, two case studies of well-documented debris flow events in active debris flow sites are also carried out. The first case study focuses on a debris flow event of August 2009 in Tyrol, Austria, and the second case study investigates a debris flow incident of the Chalk Cliff region in Colorado, USA. These studies allow extensive utilization of the important features of numerical simulations in actual landscapes. The case studies are validated using available event data and show reasonably good accuracy. The physical characteristics of the debris flow of case studies are further analyzed. Parametric studies are performed to investigate the effect of various parameters on the flow behavior. An important phenomenon of the entrainment of the material, a major reason for many catastrophic debris flows, is numerically simulated, and the results show how a small event could turn into a massive event by the erosion of basal material. Sensitivity analysis shows the variation of simulation results with the aid of various statistical performance scores. The study will help to understand and differentiate the behavior of various flows. It may also eventually assist in developing effective hazard assessment and mitigation strategies with reliable quantitative modeling of potential future flow events.
Debris Flow
| Author | : Tamotsu Takahashi |
| Publisher | : CRC Press |
| Total Pages | : 572 |
| Release | : 2014-03-10 |
| Genre | : Technology & Engineering |
| ISBN | : 0203576748 |
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This is the 2nd edition of one of the most comprehensive accounts of debris flow, describing both theoretical and applied aspects. In the first part, the fundamental mechanical characteristics are discussed, including flow characteristics, type classification, mechanics, occurrence and development, fully developed flow, and deposition processes. Th
Debris-flow Hazards and Related Phenomena
| Author | : Matthias Jakob |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 795 |
| Release | : 2007-12-26 |
| Genre | : Science |
| ISBN | : 3540271295 |
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With climate change and deforestation, debris flows and debris avalanches have become the most significant landslide hazards in many countries. In recent years there have been numerous debris flow avalanches in Southern Europe, South America and the Indian Subcontinent, resulting in major catastrophes and large loss of life. This is therefore a major high-profile problem for the world's governments and for the engineers and scientists concerned. Matthias Jakob and Oldrich Hungr are ideally suited to edit this book. Matthias Jakob has worked on debris flow for over a decade and has had numerous papers published on the topic, as well as working as a consultant on debris flow for municipal and provincial governments. Oldrich Hungr has worked on site investigations on debris flow, avalanches and rockfall, with emphasis on slope stability analysis and evaluation of risks to roads in built-up areas. He has also developed mathematical models for landslide dynamic analysis. They have invited world-renowned experts to joint them in this book.
River Dynamics and Integrated River Management
| Author | : Zhao-Yin Wang |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 855 |
| Release | : 2014-09-24 |
| Genre | : Technology & Engineering |
| ISBN | : 364225652X |
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"River Dynamics and Integrated River Management” provides comprehensive information on rivers for integrated management, including natural processes, stresses resulting from human activities, and restoration of various parts of the river basin, including the watershed, mountain streams, alluvial rivers, estuaries, and natural and man-made lakes. Essential concepts, traditional and modern, such as river patterns, step-pool systems, vegetation-erosion charts, habitat diversity, and flushing times of bays, are clearly defined physically and explained with figures and pictures. Detailed mathematics and rigorous analyses are avoided so as to facilitate a holistic view of the subject of integrated river management. Researchers can easily familiarize themselves with the science of river management in its widest sense with the impressive pictures and examples in this book. Dr. Zhaoyin Wang is a professor at the Department of Hydraulic Engineering, Tsinghua University, China. Dr. Joseph H.W. Lee is a Chair Professor at the Department of Civil and Environmental Engineering, The Hong Kong University of Science & Technology, China. Dr. Charles S. Melching is a Professor at the College of Engineering, Marquette University, Milwaukee, WI, USA.
Recent Advances in Modeling Landslides and Debris Flows
| Author | : Wei Wu |
| Publisher | : Springer |
| Total Pages | : 318 |
| Release | : 2014-09-12 |
| Genre | : Science |
| ISBN | : 3319110535 |
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Landslides and debris flows belong to the most dangerous natural hazards in many parts of the world. Despite intensive research, these events continue to result in human suffering, property losses, and environmental degradation every year. Better understanding of the mechanisms and processes of landslides and debris flows will help make reliable predictions, develop mitigation strategies and reduce vulnerability of infrastructure. This book presents contributions to the workshop on Recent Developments in the Analysis, Monitoring and Forecast of Landslides and Debris Flow, in Vienna, Austria, September 9, 2013. The contributions cover a broad spectrum of topics from material behavior, physical modelling over numerical simulation to applications and case studies. The workshop is a joint event of three research projects funded by the European Commission within the 7th Framework Program: MUMOLADE (Multiscale modelling of landslides and debris flows, www.mumolade.com), REVENUES (Numerical Analysis of Slopes with Vegetations, http://www.revenues-eu.com) and HYDRODRIL (Integrated Risk Assessment of Hydrologically-Driven Landslides, www.boku.ac.at/igt/).
Advances in Debris-flow Science and Practice
| Author | : Matthias Jakob |
| Publisher | : Springer Nature |
| Total Pages | : 645 |
| Release | : 2024 |
| Genre | : Debris avalanches |
| ISBN | : 3031486919 |
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Zusammenfassung: This book provides a summary of the state of the art of all facets of debris-flow science and practice and is designed to be a comprehensive technical reference for practitioners and a state-of-the-art research overview for scientists. It is richly illustrated with equations, graphs, photos, and tables. The book allows students, practitioners, and regulators to get a sense of the current state of the art in this science. Currently, there are 2 to 3 papers published every week on some aspects of debris-flow science. This creates a bewildering amount of literature that cannot be captured by a single individual. This book provides a comprehensive overview of all facets to date, including initial hazard assessments, detailed quantitative risk assessments, debris-flow warning systems, debris-flow mitigation structure designs, and failures of mitigation works, as well as new topics such as climate change effects on debris flows
Debris Flow
| Author | : Tamotsu Takahashi |
| Publisher | : CRC Press |
| Total Pages | : 574 |
| Release | : 2014-03-10 |
| Genre | : Technology & Engineering |
| ISBN | : 1138000078 |
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This is the 2nd edition of one of the most comprehensive accounts of debris flow, describing both theoretical and applied aspects. In the first part, the fundamental mechanical characteristics are discussed, including flow characteristics, type classification, mechanics, occurrence and development, fully developed flow, and deposition processes. The second part sheds light on the application of the theories presented in computer-simulated reproductions of real disasters. Special attention is paid to debris flow controlling structures, design effectiveness and performance, soft countermeasure problems, such as the identification of debris flow prone ravines and the prediction of occurrence by means of precipitation threshold. This new edition has been wholly revised and updated, and now includes a new chapter on sediment runoff models that include debris flow processes and new sections concerning landslides. The qualitative and fundamental character of this text makes it an excellent textbook for graduate-level courses and it is recommended reading for professionals in engineering, geosciences and water resources who are working on the mechanics and countermeasures of debris flow. The original, Japanese version of this book was awarded the ‘Publishing Culture Prize’ by the Japanese Society of Civil Engineers (2004). Tamotsu Takahashi is Professor Emeritus at the University of Kyoto. In addition to his academic positions, he is the Director of the Association for Disaster Prevention Research in Kyoto. Professor Takahashi began his career in flood dynamics research, and increasingly focused on debris flow and flood hazards. He has been honoured with several awards from the Japan Society of Civil Engineers and the Japan Society of Erosion Control Engineering. An earlier book entitled ‘Debris Flow’, by Tamotsu Takahashi, in the book series of the International Association of Hydraulic Engineering and Research, was published by Balkema Publishers, now a part of the Taylor & Francis Group.
