Improved implementation of the HLL approximate Riemann solver for one-dimensional open channel flows

Journal of Hydraulic Research

Volumn 46, Issue 1, 2008, Pages 21-34

  Ying, Xinya ^a   Wang, Sam S Y ^a  

^a The University of Mississippi   (United States)

Author keywords

HLL Riemann solver; Numerical models; Open channels; Unsteady flow

Indexed keywords

APPROXIMATION THEORY; COMPUTATIONAL FLUID DYNAMICS; DISCHARGE (FLUID MECHANICS); GRAVITATION; HYDRAULIC JUMP; MATHEMATICAL MODELS; PRESSURE EFFECTS;

RIEMANN SOLVER; SAINT VENANT EQUATION; SURFACE WATER LEVEL;

OPEN CHANNEL FLOW;

APPROXIMATION THEORY; COMPUTATIONAL FLUID DYNAMICS; DISCHARGE (FLUID MECHANICS); GRAVITATION; HYDRAULIC JUMP; MATHEMATICAL MODELS; OPEN CHANNEL FLOW; PRESSURE EFFECTS;

FLOW MODELING; GEOMETRY; HYDRAULICS; ONE-DIMENSIONAL MODELING; OPEN CHANNEL FLOW; THEORETICAL STUDY; UNSTEADY FLOW; WATER LEVEL;

EID: 40649113957     PISSN: 00221686     EISSN: None     Source Type: Journal    
DOI: 10.1080/00221686.2008.9521840     Document Type: Article

References (29)