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Pooja Patel & Arindam Sarkar. (2024) Entropic velocity distribution for sediment-laden flows with a modified dip estimation model at data-scarce river sites. Hydrological Sciences Journal 0:0, pages 1-19.
Read now
Read now
Yang Xiao, Kang Yuan, Taotao Zhang & Jian Zhou. (2023) Analytical and experimental study of velocity distribution in adverse-slope channel flow. Journal of Hydraulic Research 61:4, pages 437-451.
Read now
Read now
Snehasis Kundu. (2022) Study of unsteady nonequilibrium stratified suspended sediment distribution in open-channel turbulent flows using shifted Chebyshev polynomials. ISH Journal of Hydraulic Engineering 28:1, pages 42-52.
Read now
Read now
Debasmita Chatterjee, B. S. Mazumder, Subir Ghosh & K. Debnath. (2021) Turbulent flow characteristics over forward-facing obstacle. Journal of Turbulence 22:3, pages 141-179.
Read now
Read now
B. A. Vijayasree, T. I. Eldho, B. S. Mazumder & N. Ahmad. (2019) Influence of bridge pier shape on flow field and scour geometry. International Journal of River Basin Management 17:1, pages 109-129.
Read now
Read now
Harinarayan Tiwari & Nayan Sharma. (2016) Nonlinear and entropic velocity distribution in open channel. ISH Journal of Hydraulic Engineering 22:2, pages 163-172.
Read now
Read now
Nilav Karna, K.S. Hari Prasad, Sanjay Giri & A.S. Lodhi. (2015) Effect of fine sediments on river hydraulics – a research review. ISH Journal of Hydraulic Engineering 21:2, pages 151-161.
Read now
Read now
L. Mohanty, K.C. Patra, K.K. Khatua & M. Patnaik. (2014) Modelling the depth-averaged velocity in trapezoidal meandering channels. ISH Journal of Hydraulic Engineering 20:1, pages 111-118.
Read now
Read now
Junke Guo. (2014) Modified log-wake-law for smooth rectangular open channel flow. Journal of Hydraulic Research 52:1, pages 121-128.
Read now
Read now
Roberto Gaudio, Antonio Miglio & Subhasish Dey. (2010) Non-universality of von Kármán's κ in fluvial streams. Journal of Hydraulic Research 48:5, pages 658-663.
Read now
Read now
Jaak Heinloo & Aleksander Toompuu. (2009) A model of average velocity in oscillating turbulent boundary layers. Journal of Hydraulic Research 47:5, pages 676-680.
Read now
Read now
Shu Qingyang. (2009) Velocity distribution and wake-law in gradually decelerating flows. Journal of Hydraulic Research 47:2, pages 177-184.
Read now
Read now
Robert R. Holmes$suffix/text()$suffix/text() & Marcelo H. Garcia. (2008) Flow over bedforms in a large sand-bed river: A field investigation. Journal of Hydraulic Research 46:3, pages 322-333.
Read now
Read now
K. Ghoshal & B.S. Mazumder. (2006) VELOCITY AND CONCENTRATION DISTRIBUTIONS IN SEDIMENT-MIXED FLUID: AN APPROACH WITH MIXING LENGTH CONCEPT. ISH Journal of Hydraulic Engineering 12:3, pages 21-29.
Read now
Read now
Junke Guo, Pierre Y. Julien & Robert N. Meroney. (2005) Modified log-wake law for zero-pressure-gradient turbulent boundary layers. Journal of Hydraulic Research 43:4, pages 421-430.
Read now
Read now
B.S. Mazumder, K. Ghoshal & D.C. Dalal. (2005) Influence of bed roughness on sediment suspension: experimental and theoretical studies. Journal of Hydraulic Research 43:3, pages 245-257.
Read now
Read now
D.G. Wren, S.J. Bennett, B.D. Barkdoll & R.A. Kuhnle. (2005) Distributions of velocity, turbulence, and suspended sediment over low-relief antidunes. Journal of Hydraulic Research 43:1, pages 3-11.
Read now
Read now
Junsheng Jiang, Adrian Wing-Keung Law & Nian-Sheng Cheng. (2004) Two-phase modeling of suspended sediment distribution in open channel flows. Journal of Hydraulic Research 42:3, pages 273-281.
Read now
Read now
Junsheng Jiang, Adrian Wing-Keung Law & Nian-Sheng Cheng. (2004) Two-phase modeling of suspended sediment distribution in open channel flows/ Modélisation diphasique de la distribution de sédiments en suspension dans un écoulement à surface libre. Journal of Hydraulic Research 42:3, pages 273-281.
Read now
Read now
Tai-WeN. Hsu, Hsien-Kuo Chang & Chih-MiN. Hsieh. (2003) A two-phase flow model of wave-induced sheet flow. Journal of Hydraulic Research 41:3, pages 299-310.
Read now
Read now
MariaN. Muste. (2002) Sources of bias errors in flume experiments on suspended-sediment transport. Journal of Hydraulic Research 40:6, pages 695-708.
Read now
Read now
W.H. Graf & M. Cellino. (2002) Suspension flows in open channels; experimental study. Journal of Hydraulic Research 40:4, pages 435-447.
Read now
Read now
Xingkui Wang, Zhao-Yin Wang, Mingzhong Yu & Danxun Li. (2001) Velocity profile of sediment suspensions and comparison of log-law and wake-law. Journal of Hydraulic Research 39:2, pages 211-217.
Read now
Read now
Junke Guo & Pierre Y. Julien. (2001) Turbulent velocity profiles in sediment-laden flows. Journal of Hydraulic Research 39:1, pages 11-23.
Read now
Read now
M. Cellino & W.H. Graf. (2000) Experiments on suspension flow in open channels with bed forms. Journal of Hydraulic Research 38:4, pages 289-298.
Read now
Read now
M. Muste. (1996) Experimental Research On Kinematics Of Flows With High Suspended Solid Concentration. Journal of Hydraulic Research 34:6, pages 857-864.
Read now
Read now
Zhaoyin Wang & Eri C H J. Plate. (1996) A preliminary study on the turbulence structure of flows of non-Newtonian fluid. Journal of Hydraulic Research 34:3, pages 345-361.
Read now
Read now
Li Xinyu, Chen Changzhi & Dong Zengnan. (1995) Turbulent flows in smooth-wall open channels with different slope. Journal of Hydraulic Research 33:3, pages 333-347.
Read now
Read now
Tai-Wen Hsu & Shan-Hwei Ou. (1994) Mean sediment concentration and turbulent boundary layer of wave-induced sheet flow. Journal of Hydraulic Research 32:5, pages 675-687.
Read now
Read now
Hubert Chanson. (1994) Drag reduction in open channel flow by aeration and suspended load. Journal of Hydraulic Research 32:1, pages 87-101.
Read now
Read now
Neil L. Coleman. (1992) A modified Cebeci-Smith model for sedimentsuspending flow. Journal of Hydraulic Research 30:4, pages 555-568.
Read now
Read now
Nadim M. Aziz, Shyam N. Prasad & Sujan K. Bhattacharya. (1992) Suspended sediment concentration profiles using conservation laws. Journal of Hydraulic Research 30:4, pages 539-554.
Read now
Read now
Chih Ted Yang & Xiangbai Kong. (1991) Energy dissipation rate and sediment transport. Journal of Hydraulic Research 29:4, pages 457-474.
Read now
Read now
F. Cioffi & F. Gallerano. (1991) Velocity and concentration profiles of solid particles in a channel with movable and erodible bed. Journal of Hydraulic Research 29:3, pages 387-401.
Read now
Read now
Hong‐Yuan Lee & Wen‐Hau Tsai. (1990) Bed topography of sand‐silt river bends. Journal of the Chinese Institute of Engineers 13:4, pages 417-423.
Read now
Read now
M. Nouh. (1989) The Von-Kármán coefficient in sediment laden flow. Journal of Hydraulic Research 27:4, pages 477-499.
Read now
Read now
N.L. Coleman. (1987) Velocity Distribution In Alluvial Channel Flow. Journal of Hydraulic Research 25:3, pages 414-417.
Read now
Read now
R. L. Soulsby & B. L. S. A. Wainwright. (1987) A criterion for the effect of suspended sediment on near-bottom velocity profiles. Journal of Hydraulic Research 25:3, pages 341-356.
Read now
Read now
B. R. Samaga, K. G. Ranga Raju & R. J. Garde. (1986) Velocity distribution in alluvial channel flow. Journal of Hydraulic Research 24:4, pages 297-308.
Read now
Read now
M. Bouvard & S. Petkovic. (1985) Vertical dispersion of spherical, heavy particles in turbulent open channel flow. Journal of Hydraulic Research 23:1, pages 5-20.
Read now
Read now
G. Gust. (1984) VELOCITY PROFILES WITH SUSPENDED SEDIMENT. Journal of Hydraulic Research 22:4, pages 263-289.
Read now
Read now
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
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Crossref
Crossref
Shih‐Nan Chen & Chiou‐Jiu Chen. (2018) An Analytical Model With a Critical Richardson Number Closure for Sediment‐Stratified Open Channel Flow. Journal of Geophysical Research: Oceans 123:9, pages 6922-6944.
Crossref
Crossref
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Crossref
Crossref
Subhasish Dey, Sk Zeeshan Ali & Ellora Padhi. (2018) Advances in analytical modeling of suspended sediment transport. Journal of Hydro-environment Research 20, pages 110-126.
Crossref
Crossref
Domenica Mirauda, Annamaria De Vincenzo & Marilena Pannone. (2018) Simplified Entropic Model for the Evaluation of Suspended Load Concentration. Water 10:4, pages 378.
Crossref
Crossref
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Crossref
Crossref
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Crossref
Crossref
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Crossref
Crossref
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Crossref
Crossref
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Crossref
Crossref
Manotosh KumbhakarKoeli GhoshalVijay P. Singh. (2017) Renyi Entropy and Random Walk Hypothesis to Study Suspended Sediment Concentration. Journal of Hydrologic Engineering 22:8.
Crossref
Crossref
. 2017. Experimental Hydraulics, Vol 1. Experimental Hydraulics, Vol 1
295
406
.
. 2017. Experimental Hydraulics, Vol 1. Experimental Hydraulics, Vol 1
11
142
.
Abul Basar M. BakiWenming ZhangDavid Z. ZhuNallamuthu Rajaratnam. (2017) Flow Structures in the Vicinity of a Submerged Boulder within a Boulder Array. Journal of Hydraulic Engineering 143:5.
Crossref
Crossref
Manotosh Kumbhakar & Koeli Ghoshal. (2016) One-Dimensional velocity distribution in open channels using Renyi entropy. Stochastic Environmental Research and Risk Assessment 31:4, pages 949-959.
Crossref
Crossref
Carlo Gualtieri, Athanasios Angeloudis, Fabian Bombardelli, Sanjeev Jha & Thorsten Stoesser. (2017) On the Values for the Turbulent Schmidt Number in Environmental Flows. Fluids 2:2, pages 17.
Crossref
Crossref
Joel P. L. Johnson, Katie Delbecq & Wonsuck Kim. (2017) Predicting paleohydraulics from storm surge and tsunami deposits: Using experiments to improve inverse model accuracy. Journal of Geophysical Research: Earth Surface 122:4, pages 760-781.
Crossref
Crossref
Mehdi HeidariRam BalachandarVesselina RoussinovaRonald M. Barron. (2017) Reconsideration of the overlap region in smooth shallow open channel flows. Canadian Journal of Civil Engineering 44:3, pages 161-173.
Crossref
Crossref
Sanjeev Kumar Jha. (2017) Effect of particle inertia on the transport of particle-laden open channel flow. European Journal of Mechanics - B/Fluids 62, pages 32-41.
Crossref
Crossref
Ehsan Kazemi, Andrew Nichols, Simon Tait & Songdong Shao. (2016) SPH modelling of depth‐limited turbulent open channel flows over rough boundaries. International Journal for Numerical Methods in Fluids 83:1, pages 3-27.
Crossref
Crossref
Michael J. Stewardson, Wenxiu Shang, Giri R. Kattel & J. Angus Webb. 2017. Water for the Environment. Water for the Environment
519
536
.
Detian Liu, Xiaofeng Liu, Xudong Fu & Guangqian Wang. (2016) Quantification of the bed load effects on turbulent open‐channel flows. Journal of Geophysical Research: Earth Surface 121:4, pages 767-789.
Crossref
Crossref
Diego Berzi & Luigi Fraccarollo. (2016) Intense sediment transport: Collisional to turbulent suspension. Physics of Fluids 28:2.
Crossref
Crossref
Tomoaki NAKAMURA, Manami SUZUKI, Yong-hwan CHO & Norimi MIZUTANI. (2016) STUDY ON VISCOSITY CHANGE DUE TO SUSPENDED SEDIMENT AND ITS INFLUENCE ON FLOW FIELD UNDER UNIFORM FLOW AND TSUNAMI. Journal of Japan Society of Civil Engineers, Ser. B3 (Ocean Engineering) 72:2, pages I_163-I_168.
Crossref
Crossref
A.G. Davies & P.D. Thorne. (2016) On the suspension of graded sediment by waves above ripples: Inferences of convective and diffusive processes. Continental Shelf Research 112, pages 46-67.
Crossref
Crossref
Deyu Zhong, Lei Zhang, Baosheng Wu & Yongqiang Wang. (2015) Velocity profile of turbulent sediment-laden flows in open-channels. International Journal of Sediment Research 30:4, pages 285-296.
Crossref
Crossref
M. Dallali & V. Armenio. (2015) Large eddy simulation of two-way coupling sediment transport. Advances in Water Resources 81, pages 33-44.
Crossref
Crossref
Seema C. SHAH-FAIRBANK & Pierre Y. JULIEN. (2015) Sediment load calculations from point measurements in sand-bed rivers. International Journal of Sediment Research 30:1, pages 1-12.
Crossref
Crossref
N.K. KHULLAR & Jaspal SINGH. (2014) Study on changes in bed characteristics and friction factor in the presence of wash load in suspension. International Journal of Sediment Research 29:4, pages 501-508.
Crossref
Crossref
Kwonkyu Yu, Byungman Yoon & Dongsu Kim. (2014) Re-evaluation of change of mean velocity profiles in turbulent open-channel flows due to introducing sediment particles. KSCE Journal of Civil Engineering 18:7, pages 2261-2267.
Crossref
Crossref
Lei Zhang, DeYu Zhong & BaoSheng Wu. (2014) Particle inertia effect on sediment dispersion in turbulent open-channel flows. Science China Technological Sciences 57:10, pages 1977-1987.
Crossref
Crossref
Mark W. Schmeeckle. (2014) Numerical simulation of turbulence and sediment transport of medium sand. Journal of Geophysical Research: Earth Surface 119:6, pages 1240-1262.
Crossref
Crossref
Huijuan CuiVijay P. Singh. (2014) Suspended Sediment Concentration in Open Channels Using Tsallis Entropy. Journal of Hydrologic Engineering 19:5, pages 966-977.
Crossref
Crossref
Huijuan CuiVijay P. Singh. (2014) One-Dimensional Velocity Distribution in Open Channels Using Tsallis Entropy. Journal of Hydrologic Engineering 19:2, pages 290-298.
Crossref
Crossref
Huijuan CuiVijay P. Singh. (2014) Computation of Suspended Sediment Discharge in Open Channels by Combining Tsallis Entropy–Based Methods and Empirical Formulas. Journal of Hydrologic Engineering 19:1, pages 18-25.
Crossref
Crossref
Subhasish DeySubhasish Dey. 2014. Fluvial Hydrodynamics. Fluvial Hydrodynamics
327
415
.
Subhasish DeySubhasish Dey. 2014. Fluvial Hydrodynamics. Fluvial Hydrodynamics
95
187
.
Chih‐Chiang Su, Jau‐Yau Lu & Jian‐Hao Hong. (2012) A field investigation of the sediment transport characteristics of a high sediment load intermittent river in Taiwan. Hydrological Processes 27:26, pages 4043-4056.
Crossref
Crossref
Murray Fisher, Md. Nasimul Chowdhury, Abdul A. Khan & Sez Atamturktur. (2013) An evaluation of scour measurement devices. Flow Measurement and Instrumentation 33, pages 55-67.
Crossref
Crossref
Ming-yang LIU, You-cai TUO, Rui-dong AN & Jia LI. (2013) Numerical prediction of turbidity currents on unsteady sediment-supply. International Journal of Sediment Research 28:3, pages 396-405.
Crossref
Crossref
Hyoseob Kim & Changhwan Jang. (2013) Vertical suspended sediment diffusivity for uniform currents. KSCE Journal of Civil Engineering 17:6, pages 1496-1501.
Crossref
Crossref
Tzu‐hao Yeh, Mariano Cantero, Alessandro Cantelli, Carlos Pirmez & Gary Parker. (2013) Turbidity current with a roof: Success and failure of RANS modeling for turbidity currents under strongly stratified conditions. Journal of Geophysical Research: Earth Surface 118:3, pages 1975-1998.
Crossref
Crossref
Dong Chen, HongGuang Sun & Yong Zhang. (2013) Fractional dispersion equation for sediment suspension. Journal of Hydrology 491, pages 13-22.
Crossref
Crossref
Tzu-hao Yeh & Gary Parker. (2013) Software for evaluating sediment-induced stratification in open-channel flows. Computers & Geosciences 53, pages 94-104.
Crossref
Crossref
John Petrie, Panayiotis Diplas, Marte Gutierrez & Soonkie Nam. (2013) Data evaluation for acoustic Doppler current profiler measurements obtained at fixed locations in a natural river. Water Resources Research 49:2, pages 1003-1016.
Crossref
Crossref
Roberto Gaudio & Subhasish Dey. 2013. Experimental and Computational Solutions of Hydraulic Problems. Experimental and Computational Solutions of Hydraulic Problems
71
83
.
Oscar Castro‐Orgaz, Juan V. Giráldez, Luciano Mateos & Subhasish Dey. (2012) Is the von Kármán constant affected by sediment suspension?. Journal of Geophysical Research: Earth Surface 117:F4.
Crossref
Crossref
M. Bolla Pittaluga. (2011) Stratification effects on flow and bed topography in straight and curved erodible streams. Journal of Geophysical Research 116:F3.
Crossref
Crossref
Chang Jun Zhu. (2010) Study on Drag Reduction of Suspended Flow with Extra Fine Sediment. Key Engineering Materials 439-440, pages 1567-1571.
Crossref
Crossref
Changjun Zhu & Sha Li. (2009) Study on vertical velocity distribution with extra fine sediment. Study on vertical velocity distribution with extra fine sediment.
Changjun Zhu & Qingdong Wang. (2009) A Study on the Roughness with Extra Fine Sediment in Open Channel. A Study on the Roughness with Extra Fine Sediment in Open Channel.
Johan C. Winterwerp, Marieke Lely & Qing He. (2009) Sediment-induced buoyancy destruction and drag reduction in estuaries. Ocean Dynamics 59:5, pages 781-791.
Crossref
Crossref
S.-Q. Yang. (2009) Influence of sediment and secondary currents on velocity. Proceedings of the Institution of Civil Engineers - Water Management 162:5, pages 299-307.
Crossref
Crossref
Brian T. Guy, Ramesh P. Rudra, W. Trevor Dickenson & Teymour M. Sohrabi. (2009) Empirical model for calculating sediment-transport capacity in shallow overland flows: Model development. Biosystems Engineering 103:1, pages 105-115.
Crossref
Crossref
DANIEL C. CONLEY, SILVIA FALCHETTI, IRIS P. LOHMANN & MAURIZIO BROCCHINI. (2008) The effects of flow stratification by non-cohesive sediment on transport in high-energy wave-driven flows. Journal of Fluid Mechanics 610, pages 43-67.
Crossref
Crossref
Erik A. Toorman. (2008) Vertical Mixing in the Fully Developed Turbulent Layer of Sediment-Laden Open-Channel Flow. Journal of Hydraulic Engineering 134:9, pages 1225-1235.
Crossref
Crossref
ZHANHONG WAN, ZHILIN SUN, ZHENJIANG YOU & QIYAN ZHANG. (2012) LARGE EDDY SIMULATION OF SEDIMENT-LADEN TURBULENT FLOW IN AN OPEN CHANNEL. International Journal of Modern Physics B 22:16, pages 2517-2527.
Crossref
Crossref
D. A. Lyn. 2008. Sedimentation Engineering. Sedimentation Engineering
763
825
.
Marcelo H. García. 2008. Sedimentation Engineering. Sedimentation Engineering
21
163
.
Beno?t Camenen & Magnus Larson. (2008) A General Formula for Noncohesive Suspended Sediment Transport. Journal of Coastal Research 243, pages 615-627.
Crossref
Crossref
Zhibao Dong, Qingsong Mu & Hongtao Wang. (2007) Wind velocity profiles with a blowing sand boundary layer: Theoretical simulation and experimental validation. Journal of Geophysical Research: Atmospheres 112:D19.
Crossref
Crossref
Shi-he Liu, Shi-lai Zhao & Qiu-shi Luo. (2007) Simulation of Low-Concentration Sediment-Laden Flow Based on Two-Phase Flow Theory. Journal of Hydrodynamics 19:5, pages 653-660.
Crossref
Crossref
S Kantoush, J Boillat & A Schleiss. 2007. River, Coastal and Estuarine Morphodynamics: RCEM 2007, Two Volume Set. River, Coastal and Estuarine Morphodynamics: RCEM 2007, Two Volume Set
1037
1044
.
Motohiko Umeyama. (2007) Closure to “Reynolds Stresses and Velocity Distributions in a Wave-Current Coexisting Environment” by Motohiko Umeyama. Journal of Waterway, Port, Coastal, and Ocean Engineering 133:2, pages 170-172.
Crossref
Crossref
Subhasish DeyRajkumar V. Raikar. (2007) Characteristics of Loose Rough Boundary Streams at Near-Threshold. Journal of Hydraulic Engineering 133:3, pages 288-304.
Crossref
Crossref
Shu‐Qing Yang. (2007) Turbulent transfer mechanism in sediment‐laden flow. Journal of Geophysical Research: Earth Surface 112:F1.
Crossref
Crossref
Marine J. Herrmann & Ole S. Madsen. (2007) Effect of stratification due to suspended sand on velocity and concentration distribution in unidirectional flows. Journal of Geophysical Research: Oceans 112:C2.
Crossref
Crossref
Roger Arndt, Damien Kawakami, Martin Wosnik, Marc Perlin, David Admiraal & Marcelo García. 2007. Springer Handbook of Experimental Fluid Mechanics. Springer Handbook of Experimental Fluid Mechanics
959
1042
.
. (2006) The Vertical Distribution of Longitudinal Velocity in Sharp Open Channel Bends. Journal of Korea Water Resources Association 39:12, pages 1023-1030.
Crossref
Crossref
. (2006) Re-evaluation of Change of Mean Velocity Profile in Open-Channel Turbulent Flows due to Sediment Particles. Journal of Korea Water Resources Association 39:9, pages 727-735.
Crossref
Crossref
J. C. Winterwerp. (2006) Stratification effects by fine suspended sediment at low, medium, and very high concentrations. Journal of Geophysical Research: Oceans 111:C5.
Crossref
Crossref
B.S. Mazumder & K. Ghoshal. (2006) Velocity and concentration profiles in uniform sediment-laden flow. Applied Mathematical Modelling 30:2, pages 164-176.
Crossref
Crossref
K. Ghoshal & B. S. Mazumder. (2005) Sediment‐induced stratification in turbulent open‐channel flow. Environmetrics 16:7, pages 673-686.
Crossref
Crossref
B. S. Mazumder, R. N. Ray & D. C. Dalal. (2005) Size distributions of suspended particles in open channel flow over bed materials. Environmetrics 16:2, pages 149-165.
Crossref
Crossref
Joon-Yong Yoon & Seung-Kyu Kang. (2005) A numerical model of sediment-laden turbulent flow in an open channel. Canadian Journal of Civil Engineering 32:1, pages 233-240.
Crossref
Crossref
Shu-Qing Yang, Soon-Keat Tan & Siow-Yong Lim. (2004) Velocity Distribution and Dip-Phenomenon in Smooth Uniform Open Channel Flows. Journal of Hydraulic Engineering 130:12, pages 1179-1186.
Crossref
Crossref
J.P. Le Roux & M. Brodalka. (2004) An Excel?-VBA programme for the analysis of current velocity profiles. Computers & Geosciences 30:8, pages 867-879.
Crossref
Crossref
Scott WrightGary Parker. (2004) Density Stratification Effects in Sand-Bed Rivers. Journal of Hydraulic Engineering 130:8, pages 783-795.
Crossref
Crossref
Massimo Greco, Armando Carravetta & Renata Della MorteA Mahdavi & M Omid. 2004. River Flow 2004. River Flow 2004
295
300
.
Tian‐Jian Hsu & Philip L.‐F. Liu. (2004) Toward modeling turbulent suspension of sand in the nearshore. Journal of Geophysical Research: Oceans 109:C6.
Crossref
Crossref
. 2004. Introduction to the Physics of Cohesive Sediment in the Marine Environment. Introduction to the Physics of Cohesive Sediment in the Marine Environment
429
466
.
Johan C. Winterwerp & Walther G.M. van Kesteren. 2004. Introduction to the Physics of Cohesive Sediment in the Marine Environment. Introduction to the Physics of Cohesive Sediment in the Marine Environment
161
210
.
Judith R. Cudden & Trevor B. Hoey. (2003) The causes of bedload pulses in a gravel channel: the implications of bedload grain‐size distributions. Earth Surface Processes and Landforms 28:13, pages 1411-1428.
Crossref
Crossref
T.A. Kniskern & S.A. Kuehl. (2003) Spatial and temporal variability of seabed disturbance in the York River subestuary. Estuarine, Coastal and Shelf Science 58:1, pages 37-55.
Crossref
Crossref
Vito Ferro. (2003) ADV measurements of velocity distributions in a gravel‐bed flume. Earth Surface Processes and Landforms 28:7, pages 707-722.
Crossref
Crossref
Tian‐Jian Hsu, James T. Jenkins & Philip L.‐F. Liu. (2003) On two‐phase sediment transport: Dilute flow. Journal of Geophysical Research: Oceans 108:C3.
Crossref
Crossref
Zhixian Cao, Shinji Egashira & Paul A. Carling. (2003) Role of suspended‐sediment particle size in modifying velocity profiles in open channel flows. Water Resources Research 39:2.
Crossref
Crossref
Z. Cao & P. A. Carling. (2002) Mathematical modelling of alluvial rivers: reality and myth. Part 1: General review. Proceedings of the Institution of Civil Engineers - Water and Maritime Engineering 154:3, pages 207-219.
Crossref
Crossref
Vito Ferro & Francesco G. Carollo. (2002) Discussion on 'Estimating depth‐averaged velocities in rough channels'. Earth Surface Processes and Landforms 27:9, pages 1021-1025.
Crossref
Crossref
Samantha Arnold. (2002) Development of the saltation system under controlled environmental conditions. Earth Surface Processes and Landforms 27:8, pages 817-829.
Crossref
Crossref
E.A. Toorman, A.W. Bruens, C. Kranenburg & J.C. Winterwerp. 2002. Fine Sediment Dynamics in the Marine Environment. Fine Sediment Dynamics in the Marine Environment
7
23
.
C.Di Cristo & M. Muste. 2002. Engineering Turbulence Modelling and Experiments 5. Engineering Turbulence Modelling and Experiments 5
979
988
.
J. C. Winterwerp. (2001) Stratification effects by cohesive and noncohesive sediment. Journal of Geophysical Research: Oceans 106:C10, pages 22559-22574.
Crossref
Crossref
Kyung Doug Suh, Woo Sun Park & Beom Seok Park. (2001) Separation of incident and reflected waves in wave?current flumes. Coastal Engineering 43:3-4, pages 149-159.
Crossref
Crossref
Yongsheng Wu, Zhaoyin Wang, Jijian Lian & Qinghe Zhang. (2001) The effect of suspension on mean velocity profile. Science in China Series B: Chemistry 44:S1, pages 99-106.
Crossref
Crossref
Z. Li & A.G. Davies. (2001) Turbulence closure modelling of sediment transport beneath large waves. Continental Shelf Research 21:3, pages 243-262.
Crossref
Crossref
Chih‐Heng Tsai & Chang‐Tai Tsai. (2007)
VELOCITY AND CONCENTRATION DISTRIBUTIONS OF SEDIMENT‐LADEN OPEN CHANNEL FLOW
1
. JAWRA Journal of the American Water Resources Association 36:5, pages 1075-1086.
Crossref
Crossref
D. A. Lyn. (2000) Review of Models for Flat-bed Sediment-laden Flows. Review of Models for Flat-bed Sediment-laden Flows.
Vito Ferro & Roberto Pecoraro. (2010) Incomplete self‐similarity and flow velocity in gravel bed channels. Water Resources Research 36:9, pages 2761-2769.
Crossref
Crossref
Kyung Doug SuhSang Ho OhSidney W. ThurstonNoriaki Hashimoto. (2000) Influence of Currents on Equilibrium Range Spectra of Wind Waves. Journal of Waterway, Port, Coastal, and Ocean Engineering 126:2, pages 79-87.
Crossref
Crossref
Michael Z. Li & Gust. (2006) Boundary layer dynamics and drag reduction in flows of high cohesive sediment suspensions. Sedimentology 47:1, pages 71-86.
Crossref
Crossref
D. A. Lyn. (2000) Regression Residuals and Mean Profiles in Uniform Open-Channel Flows. Journal of Hydraulic Engineering 126:1, pages 24-32.
Crossref
Crossref
P. Le Hir, P. Bassoullet & H. Jestin. 2000. Coastal and Estuarine Fine Sediment Processes. Coastal and Estuarine Fine Sediment Processes
229
247
.
J.C. Winterwerp, R.E. Uittenbogaard & J.M. de Kok. 2000. Coastal and Estuarine Fine Sediment Processes. Coastal and Estuarine Fine Sediment Processes
125
146
.
E.A. Toorman. 2000. Coastal and Estuarine Fine Sediment Processes. Coastal and Estuarine Fine Sediment Processes
1
18
.
Ning Chien & Zhaohui WanNing Chien & Zhaohui Wan. 1999. Mechanics of Sediment Transport. Mechanics of Sediment Transport
877
891
.
Motohiko Umeyama. (1999) Velocity and Concentration Fields in Uniform Flow with Coarse Sands. Journal of Hydraulic Engineering 125:6, pages 653-656.
Crossref
Crossref
W. Czernuszenko. (1998) Drift Velocity Concept for Sediment-Laden Flows. Journal of Hydraulic Engineering 124:10, pages 1026-1033.
Crossref
Crossref
A. E. Kovacs. (1998) Prandtl's Mixing Length Concept Modified for Equilibrium Sediment-Laden Flows. Journal of Hydraulic Engineering 124:8, pages 803-812.
Crossref
Crossref
Sean J. Bennett, John S. Bridge & James L. Best. (1998) Fluid and sediment dynamics of upper stage plane beds. Journal of Geophysical Research: Oceans 103:C1, pages 1239-1274.
Crossref
Crossref
Roger H. Charlier & Christian P. De Meyer. 1998. Coastal Erosion. Coastal Erosion
49
84
.
Jim BestSean BennettJohn BridgeMike Leeder. (1997) Turbulence Modulation and Particle Velocities over Flat Sand Beds at Low Transport Rates. Journal of Hydraulic Engineering 123:12, pages 1118-1129.
Crossref
Crossref
M. MusteV. C. Patel. (1997) Velocity Profiles for Particles and Liquid in Open-Channel Flow with Suspended Sediment. Journal of Hydraulic Engineering 123:9, pages 742-751.
Crossref
Crossref
Sean BennettJim BestFidelia N. NnadiKenneth C. Wilson. (1997) Discussion and Closure: Bed-Load Motion at High Shear Stress: Dune Washout and Plane-Bed Flow. Journal of Hydraulic Engineering 123:4, pages 375-377.
Crossref
Crossref
Cesar Mendoza & Donghuo Zhou. (1997) Energetics of sediment‐laden streamflows. Water Resources Research 33:1, pages 227-234.
Crossref
Crossref
Pierre Brassard & William Morris. (1997) Resuspension and Redistribution of Sediments in Hamilton Harbour. Journal of Great Lakes Research 23:1, pages 74-85.
Crossref
Crossref
M. Muste, V. C. Patel & R. N. Parthasarathy. (1996) Discriminator laser Doppler velocimetry for measurement of liquid and particle velocities in sediment-laden flows. Experiments in Fluids 22:1, pages 45-56.
Crossref
Crossref
. 1996. Air Bubble Entrainment in Free-Surface Turbulent Shear Flows. Air Bubble Entrainment in Free-Surface Turbulent Shear Flows
239
261
.
Cesar Mendoza & Donghuo Zhou. (2010) A dynamic approach to sediment‐laden turbulent flows. Water Resources Research 31:12, pages 3075-3087.
Crossref
Crossref
S. J. Bennett & J. L. Best. (1995) Particle Size and Velocity Discrimination in a Sediment-Laden Turbulent Flow Using Phase Doppler Anemometry. Journal of Fluids Engineering 117:3, pages 505-511.
Crossref
Crossref
B.A. Kagan, W. Schrimpf & W. Eifler. (1995) Universal structure of the sediment-stratified bottom logarithmic layer. Physics and Chemistry of the Earth 20:2, pages 141-148.
Crossref
Crossref
D. Zhou & J. R. Ni. (2012) Effects of dynamic interaction on sediment‐laden turbulent flows. Journal of Geophysical Research: Oceans 100:C1, pages 981-996.
Crossref
Crossref
Kyung Duck Suh, Yoo‐Yin Kim & Dong Young Lee. (1994) Equilibrium‐Range Spectrum of Waves Propagating on Currents. Journal of Waterway, Port, Coastal, and Ocean Engineering 120:5, pages 434-450.
Crossref
Crossref
Zhaoyin Wang & Peter Larsen. (1994) Turbulent Structure of Water and Clay Suspensions with Bed Load. Journal of Hydraulic Engineering 120:5, pages 577-600.
Crossref
Crossref
C. McKenna Neuman & W. G. Nickling. (1994) Momentum extraction with saltation: Implications for experimental evaluation of wind profile parameters. Boundary-Layer Meteorology 68:1-2, pages 35-50.
Crossref
Crossref
Vito Ferro & Giorgio Baiamonte. (1994) Flow Velocity Profiles in Gravel‐Bed Rivers. Journal of Hydraulic Engineering 120:1, pages 60-80.
Crossref
Crossref
Jørgen Fredsøe. (1993) Modelling of non-cohesive sediment transport processes in the marine environment. Coastal Engineering 21:1-3, pages 71-103.
Crossref
Crossref
H. Chanson. (1993) Self‐Aerated Flows on Chutes and Spillways. Journal of Hydraulic Engineering 119:2, pages 220-243.
Crossref
Crossref
Vito Ferro. (1992)
Discussion of “
Vertical Sediment Distribution
” by Jin Ren Ni and Guang Qian Wang (September, 1991, Vol. 117, No. 9)
. Journal of Hydraulic Engineering 118:10, pages 1458-1460.
Crossref
Crossref
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