| # | List of Publication by Prof. Koustuv Debnath |
|---|---|
| 1 | Pankaj Kumar Raushan , Santosh Kumar Singh, Prince Raj Lawrence Raj, Joydeep Bhowmik, Koustuv Debnath, Pankaj Kumar, Turbulent anisotropy and energy distribution over submerged cubical model, 257, 106011, Journal of Wind Engineering and Industrial Aerodynamics, 2025 |
| 2 | Vikas Kumar Das, Koustuv Debnath, Understanding riverbank erosion through the Lens of Turbulence: A review, 649, 132484, Journal of Hydrology, 2025 |
| 3 | Souvik Roy, Koustuv Debnath, Vikas Kumar Das, Turbulent flow characteristics over an adverse sloping bed: experimental study and analysis, 01-26, ISH Journal of Hydraulic Engineering, 2025 |
| 4 | Pankaj Kumar Raushan ; Bellie Sivakumar; Koustuv Debnath, Turbulent dissipation rate and length-scale anisotropy through passive grid turbulence, 37, 035145, Physics of Fluids, AIP Publishing, 2025 |
| 5 | Buddhadeb Mondal, Krishnendu Barman, Koustuv Debnath, Bijoy Singha Mazumder, Characterization of wind effect on environmental dispersion for a shallow wetland flow, 147(2), Canadian Journal of Civil Engineering, (Published online 9 September 2024), 2025 |
| 6 | Jayanta Shounda, Kapil Roy, Krishnendu Barman, Koustuv Debnath, Bijoy Singha Mazumder, Coherent Structures of Turbulent Eddies in a Wave-Current Co-existing Flow, Water Waves, 2025 |
| 7 | Kapil Roy, Krishnendu Barman, Koustuv Debnath, Turbulent kinetic energy and budget under the interaction of wave and bottom mounted horizontal cylinders, 67(3), 515-543, Coastal Engineering Journal, 2025 |
| 8 | Sagnik Jha, Susanta Chaudhuri, Debayan Bera, Vikas K Das, Koustuv Debnath, Bijoy S Mazumder, Size distributions of different sediment mixtures associated with near-bed turbulence over an abruptly sloping bed, 662 (Part C), 2025, 134076, Journal of Hydrology, 2025 |
| 9 | Debayan Bera, Sourav Sarkar, Koustuv Debnath, Prince Raj Lawrence Raj, Effect of Current Reynolds Number on the Flow Structure of Waves Following Current for Varying Wave Frequencies, 147(6), 061203, J. Offshore Mech. Arct. Eng., 2025 |
| 10 | Arnajit Ghosh , Bikash Koiri , Pratyush Roshan Mallik , Koustuv Debnath , L. Prince Raj, Prediction of unsteady post-stall aerodynamics of a multi-element airfoil using LSTM-based architecture, 168(Part B), 110935, Aerospace Science and Technology, 2025 |
| 11 | B Mondal, K Barman, K Debnath, Effect of wind and ecological-degradation on environmental dispersion for three-layer depth-dominated wetland flow, 108, 109443, International Journal of Heat and Fluid Flow, 2024 |
| 12 | MK Bhukta, SK Singh, S Majumder, K Debnath, Modulation of re-circulation zone behind a square obstruction by blower-induced suction force through an array of small openings in the bed, 46(7), 391, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2024 |
| 13 | Kaushik Mondal, Susanta Chaudhuri, Vikas K Das, Koustuv Debnath, BS Mazumder, Evolution of bed-forms due to associated wave turbulence over a sloping sand bed similar to shoaling zone of sea coast–An experimental approach, 303, 117778, Ocean Engineering, 2024 |
| 14 | Subhadeep Sarkar, Koustuv Debnath, Wave characteristics and energy distribution over the sloping bed, 1-15, Ships and Offshore Structures, 2024 |
| 15 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath, Effect of hemispherical roughness spacing on Double-averaged turbulence characteristics for different flow submergence, Canadian Journal of Civil Engineering, 2024 |
| 16 | D Chatterjee, BS Mazumder, S Ghosh, K Debnath, Turbulence with associated kinetic energy budget in the region of wave-blocking formed over an obstacle, 36(10), 115103, Physics of Fluids, 2024 |
| 17 | Nishant Gupta, Prince Raj Lawrence Raj, Koustuv Debnath, Joydeep Bhowmik, Interactional flow physics of freely falling sphere on stagnant water, 6(4), Engineering Research Express, IOP Publishing, 2024 |
| 18 | Manas Kumar Bhukta, Santosh Kumar Singh, Snehamoy Majumder, Koustuv Debnath, Modulation of re-circulation zone behind a square obstruction by single inclined turbulent wall jet with varying angle of attack, 6(3), 035536, Engineering Research Express, 2024 |
| 19 | Kapil Roy, Krishnendu Barman, Santosh Kumar Singh, Koustuv Debnath, Turbulence phenomena due to pure wave over the submerged horizontal cylinder, 46(9), 527, Journal of the Brazilian Society of Mechanical Sciences and Engineering., Springer Berlin Heidelberg, 2024 |
| 20 | Sourav Sarkar, Nishant Gupta, Koustuv Debnath, Prince Raj Lawrence Raj, Computational Analysis of Flow Around Two Wall-Mounted Trapezoidal Bluff Bodies Arranged in Tandem Position, Published online on September 28, 2024, 1-33, Journal of Fluids Engineering, ASME, 2024 |
| 21 | Jayanta Shounda, Krishnendu Barman & Koustuv Debnath, Effect of wave-current flow on double-averaged turbulence properties over rough bed of hemispherical obstacles, 65(4), 572-596, Coastal Engineering Journal, Taylor and Francis, 2024 |
| 22 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath, Double-averaged turbulence statistics of wave current flow over rough bed with staggered arrangement of hemispherical blocks, 291, 116332, Ocean Engineering, Elsevier, 2024 |
| 23 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath & Bijoy Singha Mazumder, Distribution of turbulent eddies under wave-current coexisting flow over hemispherical rough bed, (Published online15 October 2024), Stochastic Environmental Research and Risk Assessment, 2024 |
| 24 | PM Mohamed Abubacker Siddique, GS Charana, Lawrence Prince Raj, Joydeep Bhowmik, Koustuv Debnath, Investigation of Geometric Parameters on Flap and Slat Aerodynamics in a Three-Element Airfoil, 52(1), 53-71, International Journal of Fluid Mechanics Research, Begell House, 2024 |
| 25 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath, Rough bed hydrodynamics under wave-current interactional flow field: double averaging approach, 2371824, Journal of Turbulence, 2024 |
| 26 | P K Raushan, S K Singh, K Debnath, Turbulent anisotropy and length scale variation over multiple shaped structure, 145(6), 061901, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2023 |
| 27 | V K Das, K Debnath, B Sivakumar, On the evolution of turbulent characteristics of an eroding cohesive riverbank, 37(4), Stochastic Environmental Research and Risk Assessment, 2023 |
| 28 | M K Bhukta, S K Singh, K Debnath, S Majumder, Modulation of recirculation zone behind a cubical obstruction by the vertically placed turbulent multijets in the form of shower, 50(1), International Journal of Fluid Mechanics Research, 2023 |
| 29 | A. Mondal, S. Chatterjee, A. McDonald Tariang, L. Prince Raj, K. Debnath, Numerical investigation of on-demand fluidic winglet aerodynamic performance and turbulent characterization of a low aspect ratio wing, 10(2), 107-125, Advances in Aircraft and Spacecraft Science, 2023 |
| 30 | S Hansda, K Debnath, D Pal, Effect of d-type rib roughness on the turbulent structure of side wall boundary layer for wave-current combined flow, Proc IMechE Part M: J Engineering for the Maritime Environment, 2023 |
| 31 | S Sarkar, K Debnath, S K Singh, Near bed flow characteristics over the patch and non-patch zone due to pure wave, 18(9), 1266-1274, Ships and Offshore Structures, Taylor & Francis, 2023 |
| 32 | Vikas Kumar Das, Santosh Kumar Singh, Bellie Sivakumar, Koustuv Debnath, Testing the complexity and chaotic nature of wave-dominated turbulent flows, 285, 115326, Ocean Engineering, 2023 |
| 33 | Jayanta Shounda, Krishnendu Barman, Koustuv Debnath, Spatial-averaged turbulence characteristics over staggered pattern roughness, 1-21, Mechanica, Springer Netherlands, 2023 |
| 34 | S Sarkar, K Debnath, V K Das, B S Mazumder, Formation and migration of ripple pattern due to pure wave, 28(1), 21-33, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2022 |
| 35 | S K Singh, V Das, S Chaudhuri, K Debnath, Spatial variation of mean flow and turbulence characteristics within channel contraction–an experimental approach, ISH Journal of Hydraulic Engineering, Taylor and Francis, 2022 |
| 36 | S K Singh, J Chowdhury, S Ghosh, P K Raushan, K Debnath, P Kumar, Experimental and numerical investigation of flow characteristics in an open rectangular cavity, 28 (Supp 1), 1--13, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2022 |
| 37 | V K Das, K Debnath, B Sivakumar, On the evolution of turbulent characteristics of an eroding cohesive riverbank, 1-23, Stochastic Environmental Research and Risk Assessment, Springer Berlin Heidelberg, 2022 |
| 38 | S Chaudhuri, V K Das, K Debnath, S Hansda, Embankment breaching at Indian Sundarban–an assessment on altered primary sediment index properties and fluvial flow parameters, 28(4), 449-460, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2022 |
| 39 | S Chaudhuri, M Pandey, K Debnath, G Oliveto, A comparative study on equilibrium scour volume around circular cylinders in clay–sand mixed cohesive beds, at near threshold velocity of sand–an experimental approach, 22(8), 6777-6791, Water Supply, IWA Publishing, 2022 |
| 40 | S Sarkar, S Roy, K Barman, V K Das, K Debnath, Turbulence effect on the mechanics of ripple formation under regular wave, 131(2), 1-16, Journal of Earth System Science, Springer, 2022 |
| 41 | S K Singh, K Debnath, Regular wave and turbulent current interaction in free surface flow, 8(2), 153-162, Journal of Ocean Engineering and Marine Energy, Springer, 2022 |
| 42 | D Dutta, A Dasgupta, P R Lawrence Raj, K Debnath, Drag Reduction and Turbulent Characteristics of a Low Aspect Ratio Wing with Fluidic On-Demand Winglet, 16, 01-16-01-0003, SAE International Journal of Aerospace, 2022 |
| 43 | V K Das, K Debnath, B Sivakumar, Does turbulence show fractal structure within a dynamic undercut of an alluvial riverbank?, 157, 111998, Chaos, Solitons & Fractals, Pergamon, 2022 |
| 44 | S Hansda, V K Das, K Debnath, Temporal modulation of turbulence structure over progressive erosion boundary under influence of wave current combined flow, 22, 683–713, Environmental Fluid Mechanics, Springer, 2022 |
| 45 | S Roy, V K Das, K Barman, B Mondal, K Debnath, Coupled dynamics of river bank undercut depth increment due to random velocity field, 21(3), 493-506, Environmental Engineering & Management Journal (EEMJ), 2022 |
| 46 | J Shounda, K Barman, S Roy, K Debnath, Spatial-averaged turbulence statistics over regular arrays of hemispherical roughness, 44(3), 1-19, Journal of the Brazilian Society of Mechanical Sciences and Engineering, Springer, 2022 |
| 47 | V K Das, S Chaudhuri, K Barman, S Roy, K Debnath, Pier scours in fine-grained non-cohesive sediment and downstream siltation, an experimental approach, 43(3), 365-382, Physical Geography, Taylor & Francis, 2022 |
| 48 | S Hansda, K Debnath, Turbulent flow structure over rough side-wall surface under wave-against-current motion, 236(1), 209-227, Proceedings of the Institution of Mechanical Engineers, Part M: Journal of Engineering for the Maritime Environment, 2022 |
| 49 | S Sarkar, V K Das, K Barman, K Debnath, Effect of the Wave on Sediment Suspension and the Morphological Pattern of Ripple Formation, 56(2), 207-223, Ocean Science Journal, Springer, 2021 |
| 50 | S K Singh, A Khait, P K Raushan, K Debnath, Localized and distributed energy in wave-current flow, 143(1), 1-22, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2021 |
| 51 | S K Singh, P K Raushan, K Debnath, Experimental investigation of turbulence produced by stationary grid, 48(2), 69-82, International Journal of Fluid Mechanics Research, 2021 |
| 52 | P K Raushan, S K Singh, K Debnath, Turbulence characteristics of oscillating flow through passive grid, 224, 1-13, Ocean Engineering, 2021 |
| 53 | S K Singh, P K Raushan, P Kumar, K Debnath, Anisotropy of Reynolds stress tensor in combined wave-current flow, 143(5), Journal of Offshore Mechanics and Arctic Engineering, ASME, 2021 |
| 54 | V K Das, S Hansda, K Debnath, S Chaudhuri, Riverbank stabilization based on the modulation of the near bank turbulence scales, 23(10), 15290-15313, Environment, Development and Sustainability, Springer, 2021 |
| 55 | P K Raushan, S K Singh, K Debnath, Turbulence anisotropy with higher-order moments in flow through passive grid under rigid boundary influence, 235(19), 3859-3874, Proc IMechE Part C: J Mechanical Engineering Science, Sage, 2021 |
| 56 | V K Das, S Hansda, K Debnath, S Chaudhuri, B S. Mazumder, Assessing the hydraulic performance of bamboo logs in riverbank stabilization: case study of Sundarbans, India, 66(1), Hydrological Sciences Journal, Taylor & Francis, 2021 |
| 57 | P K Raushan, S K Singh, K Debnath, Role of rigid boundary on the decay of turbulence generated by passive-grid for free surface flow, 235(7), Proceedings of the Institution of Mechanical Engineers, UK, Part C: Journal of Mechanical Engineering Science, Sage, 2021 |
| 58 | S Roy, K Barman, K Debnath, B S Mazumder, Quantification of turbulent structures in and around the boundary region of a turbulent round jet released into counter-flow, 171, 108758, Measurement, 2021 |
| 59 | D Chatterjee, BS Mazumder, S Ghosh, K Debnath, Turbulent flow characteristics over forward-facing obstacle, 22(3), Journal of Turbulence, 2021 |
| 60 | V K Das, K Debnath, S Roy, K Barman, S Hansda, B S Mazumder, Effect of turbulent structures on the riverbank erosion due to tidal influence: A case study from the Rupnarayan River, eastern India, 130(2), Journal of Earth System Science, 2021 |
| 61 | K Barman, S Roy, K Debnath, Characterization of eddy scales over tandem obstacles for surface wave-dominated flow, 118(12), 1922-1929, Current Science, 2020 |
| 62 | P K Raushan, A Paul, S K Singh, K Debnath, Spatially-averaged turbulent flow characteristics over ribbed surface in presence of unidirectional wave over steady current, 100, 102154, Applied Ocean Research, 2020 |
| 63 | VK Das, S Roy, K Barman, S Chaudhuri, K Debnath, Cohesive river bank erosion mechanism under wave-current interaction: A flume study, 129(1), 1-20, Journal of Earth System Science, 2020 |
| 64 | VK Das, K Barman, S Roy, S Chaudhuri, K Debnath, Near bank turbulence of a river bend with self similar morphological structures, 191, CATENA, 2020 |
| 65 | S Roy, K Barman, VK Das, K Debnath, BS Mazumder, Experimental Investigation of Undercut Mechanisms of River Bank Erosion Based on 3D Turbulence Characteristics, 7(1), Environmental Processes, 2020 |
| 66 | S Roy, K Barman, K Debnath, Turbulence properties in and around the mixing region of the round jet against current, 95(3), Physica Scripta, 2020 |
| 67 | SK Singh, PK Raushan, K Debnath, BS Mazumder, Higher order turbulent flow characteristics of oscillatory flow over a wall-mounted obstacle, 26(1), 84-95, ISH Journal of Hydraulic Engineering, 2020 |
| 68 | S K Singh, P K Raushan, K Debnath, B S Mazumder, Higher order turbulent flow characteristics of oscillatory flow over a wall-mounted obstacle, 26(1), 1--12, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2020 |
| 69 | A Paul, P K Raushan, S K Singh, K Debnath, Organized structure of turbulence in wave current combined flow over rough surface using spatio temporal averaging approach, 42(11), 1-17, Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2020 |
| 70 | K Barman, P K Raushan, V K Das, S Roy, S Hansda, K Debnath, Turbulent Flow Characteristics in the Eroded Region of the Side-wall Bank, 19(8), Environmental Engineering and Management Journal, 2020 |
| 71 | P K Raushan, S K Singh, K Debnath, Grid-generated turbulence in pulsating flow under the rigid boundary influence, 78, 291--305, European Journal of Mechanics-B/Fluids, Elsevier, 2019 |
| 72 | V K Das, S Roy, Sayahnya, K Barman, S Chaudhuri, K Debnath, Study of clay--sand network structures and its effect on river bank erosion: an experimental approach, 78, 591, Environmental Earth Sciences, Springer, 2019 |
| 73 | S Hansda, K Barman, S Roy, K Debnath, Quantification of turbulent eddies in time-space and frequency domain for wave-current combined flow over side-wall roughness, 186, 106080, Ocean Engineering, Elsevier, 2019 |
| 74 | S Roy, K Barman K Debnath, Statistical Analysis of Flow Structures around a Circular Cylinder, 6, 773-787, Environmental Processes, Springer, 2019 |
| 75 | S K Singh, P K Raushan, K Debnath, Role of multiple flow stages over submerged structure, 181, 59-70, Ocean Engineering, Elsevier, 2019 |
| 76 | S K Singh, P K Raushan, K Debnath, B S Mazumder, Effect of surface wave on development of turbulent boundary layer over a train of rib roughness., 141(6), 061101, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2019 |
| 77 | V K Das, S Roy, K Barman, K Debnath, S Chaudhuri, B S Mazumder, Investigations on undercutting processes of cohesive river bank, 252(26), 110-124, Engineering Geology, Elsevier, 2019 |
| 78 | S Roy, K Debnath, Impact of Frontal Round Jet on Vortex-synchronization Control around a Cylinder: A Turbulence Perspective, 46(7), Canadian Journal of Civil Engineering, Canadian Science Publishing, 2019 |
| 79 | S Chaudhuri, K Debnath, S Roy, M K Manik, Flume study on contraction scour in clay–sand mixed cohesive bed., 25(1), 79-86, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2019 |
| 80 | K Barman, K Debnath, B S Mazumder, Turbulence Over Chains of Hemispherical Ribs Under Waves in a Current, 55(1), 55-75, Water Resources Research, American Geophysical Union, Wiley, 2019 |
| 81 | S Roy, V K Das, K Debnath, Characteristics of intermittent turbulent structures for river bank undercut depth increment, 172, 356-368, Catena, Elsevier, 2019 |
| 82 | K Barman, S Roy, V K Das, K Debnath, Effect of clay fraction on turbulence characteristics of flow near an eroded bank, 571, 87--102, Journal of Hydrology, Elsevier, 2019 |
| 83 | S K Singh, K Debnath, Discussion of “Boundary layer development over non-uniform sand rough bed channel”, by Anurag Sharma and Bimlesh Kumar (2017), 25 (3), 282--282, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2019 |
| 84 | S Roy, S Ghoshal, K Barman, V K Das, S Ghosh, K Debnath, Modulation of the recirculation region due to magneto hydrodynamic flow, 22 (1), 282--293, Engineering Science and Technology, an International Journal, Elsevier, 2019 |
| 85 | P K Raushan, S K Singh, K Debnath, Grid generated turbulence under the rigid boundary influence, 182, 252--261, Journal of Wind Engineering and Industrial Aerodynamics, Elsevier, 2018 |
| 86 | S K Singh, P K Raushan, P Kuma, K Debnath, Turbulent characteristics of pulsating flow over hydraulically smooth surface, 68, 10--19, European Journal of Mechanics-B/Fluids, Elsevier, 2018 |
| 87 | S Roy, K Debnath, B S Mazumder, Distribution of turbulent eddies behind a monopile for vortex lock-on condition due to wave current combined flow, 131, 70--87, Coastal Engineering, Elsevier, 2018 |
| 88 | S K Singh, P K Raushan, K Debnath, Combined effect of wave and current in rough bed free surface flow, 160, 20--32, Ocean Engineering, Elsevier, 2018 |
| 89 | K Barman, S Roy, K Debnath, Wave-current generated turbulence over hemisphere bottom roughness, 202, 1--17, Estuarine, Coastal and Shelf Science, Elsevier, 2018 |
| 90 | S Roy, S S Samantaray, K Debnath, Study of turbulent eddies for wave against current, 150, 176--193, Ocean Engineering, Elsevier, 2018 |
| 91 | P K Raushan, S K Singh, K Debnath, M Mukherjee, B S Mazumder, Distribution of turbulent energy in combined wave current flow, 167, 310--316, Ocean Engineering, Elsevier, 2018 |
| 92 | S Chaudhuri, S K Singh, K Debnath, M K Manik, Pier scour within long contraction in cohesive sediment bed, 18, 417--441, Environmental Fluid Mechanics, Springer, 2018 |
| 93 | J Li, S S Li, Discussion of “Turbulence over cube-mounted rough bed using spatiotemporal averaging approach”, 46, 67--68, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2018 |
| 94 | S Roy, K Debnath, B S Mazumder, Turbulence statistics and distribution of turbulent eddies for jet flow and rigid surface interaction., 70 (1), 55-88, Archives of Mechanics, 2018 |
| 95 | S K Singh, P K Raushan, K Debnath, M Mukherjee, B S Mazumder, Turbulence characteristics in boundary layers over a regular array of cubical roughness, 27(4), 404-417, ISH Journal of Hydraulic Engineering, Taylor &Francis, 2018 |
| 96 | S K Singh, K Debnath, B S Mazumder, Reply to the discussion by Li and Li on “Turbulence over cube-mounted rough bed using spatiotemporal averaging approach”, 46, 69--71, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2018 |
| 97 | K Barman, K Debnath, Koustuv, B S Mazumder, Turbulence over a pair of submerged hemispheres in presence of surface waves and following current, 140 (3), 031104, Journal of Offshore Mechanics and Arctic Engineering, ASME, 2018 |
| 98 | K Barman, S Roy, K Debnath, Effect of relative spacing on wake turbulence under wave-current flow, 45(6), 489--503, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2018 |
| 99 | S K Singh, V K Pal, K Debnath, A numerical investigation of slip flow through circular micro-channel, 45(5), International Journal of Fluid Mechanics Research, Begell House, 2018 |
| 100 | S Roy, K Debnath, B S Mazumder, Distribution of eddy scales for wave current combined flow, 63, 170--183, Applied Ocean Research, Elsevier, 2017 |
| 101 | S K Singh, K Debnath, B S Mazumder, Turbulence over cube-mounted rough bed using spatiotemporal averaging approach, 44 (7), 504--517, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2017 |
| 102 | S K Singh, K Debnath, Turbulence Characteristics of Flow Under Combined Wave--Current Motion, 139 (2), 021102, Journal of Offshore Mechanics and Arctic Engineering, 2017 |
| 103 | S K Singh, P K Raushan, K Debnath, B S Mazumder, Turbulent oscillatory flow along unidirectional current over square ribs, 45, 248--262, Canadian Journal of Civil Engineering, Canadian Science Publishing, 2017 |
| 104 | S Roy, K Debnath, Vortex-Synchronization Control around a Partially Submerged Cylinder due to Wave-Following Current, 143, 06017003, Journal of Waterway, Port, Coastal, and Ocean Engineering, ASCE, 2017 |
| 105 | S K Singh, K Debnath, Turbulent flow characteristics in a rectangular channel under the influence of cube-mounted rough bed, 23 (2), 167--176, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2017 |
| 106 | K Barman, K Debnath, B S Mazumder, Higher-order turbulence statistics of wave--current flow over a submerged hemisphere, 49 (2), 025504, Fluid Dynamics Research, IOP Science, 2017 |
| 107 | K Barman, K Debnath, B S Mazumder, Turbulence study over submerged obstacles on waves and currents combined flow, 23(3), 246--257, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2017 |
| 108 | K Barman, K Debnath, Turbulent wakes behind bed-mounted hemispheres in co-existing surface wave, 44(2), 169-183, International Journal of Fluid Mechanics Research, Begell House, 2017 |
| 109 | K Barman, K Debnath, B S Mazumder, Turbulence between two inline hemispherical obstacles under wave--current interactions, 88, 32--52, Advances in Water Resources, Elsevier, 2016 |
| 110 | S K Singh, K Debnath, Combined effects of wave and current in free surface turbulent flow, 127, 170--189, Ocean Engineering, Elsevier, 2016 |
| 111 | S K Singh, K Debnath, B S Mazumder, Spatially-averaged turbulent flow over cubical roughness in wave-current co-existing environment, 114, 77--85, Coastal Engineering, Elsevier, 2016 |
| 112 | S K Singh, K Debnath, B S Mazumder, Changes in turbulent flow structure over rough-bed under combined wave-current motions, 22 (3), 305--313, ISH Journal of Hydraulic Engineering, Taylor& Francis, 2016 |
| 113 | S K Singh, K Debnath, B S Mazumder, Turbulence statistics of wave-current flow over a submerged cube, 142, 04015027, Journal of waterway, Port, coastal, and Ocean Engineering, ASCE, 2015 |
| 114 | I Datta, K Debnath, Volume of fluid model of open channel contraction, 95, 251--259, Journal of The Institution of Engineers (India): Series C, Springer, 2014 |
| 115 | K Debnath, S Chaudhuri, M K Manik, Local scour around abutment in clay/sand-mixed cohesive sediment bed, 20 (1), 46--64, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2014 |
| 116 | S Chaudhuri, K Debnath, Observations on initiation of pier scour and equilibrium scour hole profiles in cohesive Sediments, 19 (1), 27--37, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2013 |
| 117 | K Debnath, M K Manik, B S Mazumder, Turbulence statistics of flow over scoured cohesive sediment bed around circular cylinder, 41, 18--28, Advances in Water Resources, Elsevier, 2012 |
| 118 | K Debnath, S Chaudhuri, Local scour around non-circular piers in clay--sand mixed cohesive sediment beds, 151, 1--14, Engineering Geology, Elsevier, 2012 |
| 119 | K Debnath, S Chaudhuri, Effect of suspended sediment concentration on local scour around cylinder for clay--sand mixed sediment beds, 117, 236--245, Engineering Geology, Elsevier, 2011 |
| 120 | K Debnath, S Chaudhuri, Closure to “Bridge Pier Scour in Clay-Sand Mixed Sediments at Near-Threshold Velocity for Sand” by Koustuv Debnath and Susanta Chaudhuri, 137 (10), 1306--1307, Journal of Hydraulic Engineering, ASCE, 2011 |
| 121 | Debnath, K., and Chaudhury, S., Field Measurement and Formulations of Cohesive Sediment Erosion: A Review, 91, 7-15, Journal of the Institution of Engineers (Environmental Engineering Section), 2011 |
| 122 | K Debnath, S Chaudhuri, Laboratory experiments on local scour around cylinder for clay and clay--sand mixed beds, 111(1-4), 51--61, Engineering Geology, Elsevier, 2010 |
| 123 | K Debnath, S Chaudhuri, Bridge pier scour in clay-sand mixed sediments at near-threshold velocity for sand, 136(9), 597--609, Journal of Hydraulic Engineering, ASCE, 2010 |
| 124 | K Debnath, S Chaudhuri, Cohesive sediment erosion threshold: A review, 16 (1), 36--56, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2010 |
| 125 | V Nikora, S Larned, N Nikora, K Debnath, G Cooper, M Reid, Hydraulic resistance due to aquatic vegetation in small streams: field study, 134(9), 1326--1332, Journal of Hydraulic Engineering, ASCE, 2008 |
| 126 | K Debnath, A K Bhattacharya, B Mahato, A Chakrabarti, Volume of Fluid Model for Numerical Simulation of Vegetated Flows, 14 (2), 72--87, ISH Journal of Hydraulic Engineering, Taylor & Francis, 2008 |
| 127 | K Debnath, V Nikora, J Aberle, B Westrich, M Muste, Erosion of cohesive sediments: Resuspension, bed load, and erosion patterns from field experiments, 133(5), 508--520, Journal of Hydraulic Engineering, ASCE, 2007 |
| 128 | K Debnath, V Nikora, A Elliott, Stream bank erosion: In situ flume tests, 133, 256--264, Journal of Irrigation and Drainage Engineering, ASCE, 2007 |
| 129 | A K Bhattacharya, K Debnath, Discussion of “Flow Interaction of Meandering River with Floodplains,” by Kanhu Charan Patra and Srijib K. Kar, 128, 245--245, Journal of Hydraulic Engineering, ASCE, 2002 |
| 130 | S Dey, K Debnath, Sediment pickup on streamwise sloping beds, 127(1), 39--43, Journal of Irrigation and Drainage Engineering, ASCE, 2001 |
| 131 | Dey, S and Debnath, K, Sediment pick-up on stream-wise sloping beds (vol 127, pg 39, 2001), 127, 263--263, Journal of Irrigation and Drainage Engineering, ASCE, 2001 |
| 132 | S Dey, K Debnath, Influence of streamwise bed slope on sediment threshold under stream flow, 126, 255--263, Journal of Irrigation and Drainage Engineering, ASCE, 2000 |
| 133 | S Dey, H K Dey Sarkar, K Debnath, Sediment threshold under stream flow on horizontal and sloping beds, 125 (5), 545--553, Journal of Engineering Mechanics, ASCE, 1999 |
Created: 23 November 2019