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A platform for research: civil engineering, architecture and urbanism
Discrete-Time Markov Chain Model for Transport of Mixed-Size Sediment Particles under Unsteady Flow Conditions
AbstractA nonhomogeneous discrete-time three-state Markov chain model is developed in this study to quantify the bedload and suspended load discharge under unsteady flow for mixed size sediment particles. When flow is subject to sudden changes, the particle holding time, defined as the amount of time for a sediment particle staying on the bed or in the moving state, needs to be carefully evaluated. The time step used in this study for single-step motion in the discrete-time Markov chain is represented by a characteristic timescale for particle motion. The transition probabilities are functions of flow conditions and particle properties. Specifically, the likelihood of particle movement between the bedload layer and the bed surface is evaluated by the entrainment probability. Exchange of sediment particles between the bedload layer and suspended load layer is quantified by the suspension probability. A nonhomogeneous Markov chain ensures the transition probabilities are time dependent as they are a function of local conditions. The proposed sediment transport model can be used to calculate both bedload and suspended load as a function of time for any size fraction of mixed size sediment particles. The proposed sediment transport relation is compared with a classic sediment transport formula. The comparison shows that the proposed model performs better for particles of smaller grain size. It is also demonstrated that the quasi-steady assumption normally adopted in flow-sediment modeling appears to be a valid approximation when the time for the sediment transport rate to reach an equilibrium state is sufficiently small. The proposed model is also validated against unsteady bedload transport flume data, as well as flume data containing both bedload and suspended load.
Discrete-Time Markov Chain Model for Transport of Mixed-Size Sediment Particles under Unsteady Flow Conditions
AbstractA nonhomogeneous discrete-time three-state Markov chain model is developed in this study to quantify the bedload and suspended load discharge under unsteady flow for mixed size sediment particles. When flow is subject to sudden changes, the particle holding time, defined as the amount of time for a sediment particle staying on the bed or in the moving state, needs to be carefully evaluated. The time step used in this study for single-step motion in the discrete-time Markov chain is represented by a characteristic timescale for particle motion. The transition probabilities are functions of flow conditions and particle properties. Specifically, the likelihood of particle movement between the bedload layer and the bed surface is evaluated by the entrainment probability. Exchange of sediment particles between the bedload layer and suspended load layer is quantified by the suspension probability. A nonhomogeneous Markov chain ensures the transition probabilities are time dependent as they are a function of local conditions. The proposed sediment transport model can be used to calculate both bedload and suspended load as a function of time for any size fraction of mixed size sediment particles. The proposed sediment transport relation is compared with a classic sediment transport formula. The comparison shows that the proposed model performs better for particles of smaller grain size. It is also demonstrated that the quasi-steady assumption normally adopted in flow-sediment modeling appears to be a valid approximation when the time for the sediment transport rate to reach an equilibrium state is sufficiently small. The proposed model is also validated against unsteady bedload transport flume data, as well as flume data containing both bedload and suspended load.
Discrete-Time Markov Chain Model for Transport of Mixed-Size Sediment Particles under Unsteady Flow Conditions
Tsai, Christina W (author) / Kuai, Ken Z
2016
Article (Journal)
English
Three-State Continuous-Time Markov Chain Model for Mixed-Size Sediment Particle Transport
| British Library Online Contents | 2014
Unsteady flow sediment transport
| British Library Conference Proceedings | 1999