Influence of river channel geometry in stream flow modelling and guidelines for field investigation
Zhang, H; Zhang, F; Shi, X; Zeng, C; Shih, D-Sin; Yeh, G-Tsyh; Joswiak, D R.
Hydrological Processes 28(4): 2630-2638
2014
ISSN/ISBN: 0885-6087
DOI: 10.1002/hyp.9837
Accession: 064508284
PDF emailed within 0-6 h: $19.90
Related References
Janca, J.; Dupák, J. 2005: Elimination of edge effects in micro-thermal field-flow fractionation channel of low aspect ratio by splitting the carrier liquid flow into the main central stream and the thin stream layers at the side channel walls Journal of Chromatography. a 1068(2): 261-268Lecce, S.A. 2013: Stream power, channel change, and channel geometry in the Blue River, Wisconsin Physical Geography 34(4-5): 293-314
Kiptala, J. K.; Mul, M. L.; Mohamed, Y. A.; van der Zaag, P. 2014: Modelling stream flow and quantifying blue water using a modified STREAM model for a heterogeneous, highly utilized and data-scarce river basin in Africa Hydrology and Earth System Sciences 18(6): 2287-2303
Herescu, A.; Allen, J.S. 2012: The influence of channel wettability and geometry on water plug formation and drop location in a proton exchange membrane fuel cell flow field Journal of Power Sources 216: 337-344
M.Gard 2013: Modelling changes in salmon habitat associated with river channel restoration and flow-induced channel alterations River Research and Applications 30(1): 40-44
Jason, P.J.; Richard, E.T.; Sayed, M. Bruce, W.H.; Aondover Tarhule 2012: Historical variability and feedbacks among land cover, stream power, and channel geometry along the lower Canadian River floodplain in Oklahoma Earth Surface Processes and Landforms 37(4): 449-458
Ahn, J.Y.; Kim, K.H.; Lee, J.Y.; Williams, P.S.; Moon, M.H. 2010: Effect of asymmetrical flow field-flow fractionation channel geometry on separation efficiency Journal of Chromatography. a 1217(24): 3876-3880
D.L.Dunkerley 1992: Channel geometry, bed material, and inferred flow conditions in ephemeral stream systems, Barrier Range, western N.S.W., Australia Hydrological Processes 6(4): 417-433
Kochmann, S.; Ivanov, N.A.; Le Blanc, J.C.Y.; Gorin, B.I.; Krylov, S.N. 2022: Circular Geometry in Molecular Stream Separation to Facilitate Nonorthogonal Field-to-Flow Orientation Analytical Chemistry 94(27): 9519-9524
Chaputbardy, A.; Fleurant, C.; Lemaire, C.; Secondi, J. 2009: Modelling the effect of in-stream and overland dispersal on gene flow in river networks International Symposium on Spatial Landscape Modelling: from Dynamic Approaches to Functional Evaluations (Toulouse 2008-06) 220(24): 3589-3598
Chaput-Bardy, A.; Fleurant, C.; Lemaire, C.; Secondi, J. 2009: Modelling the effect of in-stream and overland dispersal on gene flow in river networks Ecological Modelling, Suppl (Special Issue) 220.24 (December 24): 3589-3598
Déjardin, P. 2008: Permeate channel geometry to get constant separation efficiency in asymmetrical Flow Field-Flow fractionation cell with exponential breadth variation Journal of Chromatography. a 1203(1): 94-98
Ashley Gail, M.; Renwick William, H. 1982: Channel geometry, flow characteristics, and sediment transport in a bedrock floored river Abstracts with Programs - Geological Society of America 15(7): 435
Costelloe, J.F.; Grayson, R.B.; McMahon, T.A. 2005: Modelling stream flow for use in ecological studies in a large, arid zone river, central Australia Hydrological Processes 19(6): 1165-1183
Pacheco, A.; Ferreira, Ó.; Carballo, R.; Iglesias, G. 2014: Evaluation of the production of tidal stream energy in an inlet channel by coupling field data and numerical modelling Energy 71: 104-117