Albert Molinas scite author profile

This paper presents a simultaneous solution algorithm for one-dimensional unsteady flow routing through channel networks. This direct solution algorithm is based on the double-sweep method and utilizes separate recursion equations for continuity, momentum and energy equations for each of the individual components of channel networks. Through separate recursion equations for each of the components, the new algorithm converts the channel network problem into a single-channel problem. The new algorithm is utilized in conjunction with a linearized unsteady flow model using full dynamic flow equations. The required computer storage for the coefficient matrix of the whole system is reduced significantly from the 2N x 2N matrix to a 2N x 4 matrix, where N is the number of cross sections used in the computation of flow variables in the channel network. The algorithm presented in this paper provides an efficient and accurate modeling of unsteady flow events through channel networks.

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Effect of Size Gradation on Transport of Sediment Mixtures

Molinas

1998

J. Hydraul. Eng.

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Albert Molinas

Transport of sediment in large sand-bed rivers

Sediment Transport in the Yellow River

Shear Stress around Vertical Wall Abutments

Simultaneous solution algorithm for channel network modeling

Effect of Size Gradation on Transport of Sediment Mixtures

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