| Internal waves in a two‐layer system using fully nonlinear internal‐wave equations K Nakayama, T Kakinuma International Journal for Numerical Methods in Fluids 62 (5), 574-590, 2010 | 82 | 2010 |
| Residual circulation due to internal waves shoaling on a slope K Nakayama, J Imberger Limnology and Oceanography 55 (3), 1009-1023, 2010 | 77 | 2010 |
| The environment in Asia Pacific harbours E Wolanski Springer, 2006 | 76 | 2006 |
| Residual currents over a uniform slope due to breaking of internal waves in a two‐layer system K Nakayama, T Shintani, K Kokubo, T Kakinuma, Y Maruya, K Komai, ... Journal of Geophysical Research: Oceans 117 (C10), 2012 | 65 | 2012 |
| Horizontal and residual circulations driven by wind stress curl in Tokyo Bay K Nakayama, T Shintani, K Shimizu, T Okada, H Hinata, K Komai Journal of Geophysical Research: Oceans 119 (3), 1977-1992, 2014 | 56 | 2014 |
| Effects of spatial grid resolution on river flow and surface inundation simulation by physically based distributed modelling approach D Dutta, K Nakayama Hydrological Processes: An International Journal 23 (4), 534-545, 2009 | 49 | 2009 |
| Stochastic characterization of the onset of and recovery from hypoxia in Tokyo Bay, Japan: Derived distribution analysis based on “strong wind” events K Nakayama, M Sivapalan, C Sato, K Furukawa Water resources research 46 (12), 2010 | 48 | 2010 |
| Comparisons of CIP, compact and CIP‐CSL2 schemes for reproducing internal solitary waves K Nakayama International Journal for Numerical Methods in Fluids 51 (2), 197-219, 2006 | 47 | 2006 |
| Classification of internal solitary wave breaking over a slope K Nakayama, T Sato, K Shimizu, L Boegman Physical Review Fluids 4 (1), 014801, 2019 | 45 | 2019 |
| Hydroclimate projections for Panama in the late 21st Century J Fábrega, T Nakaegawa, R Pinzón, K Nakayama, O Arakawa, T SOUSEI Hydrological Research Letters 7 (2), 23-29, 2013 | 39 | 2013 |
| Hydroclimate projections for Panama in the late 21st Century J Fábrega, T Nakaegawa, R Pinzón, K Nakayama, O Arakawa, T SOUSEI Hydrological Research Letters 7 (2), 23-29, 2013 | 39 | 2013 |
| Influence of freshwater input and bay reclamation on long‐term changes in seawater residence times in Tokyo Bay, Japan T Okada, K Nakayama, T Takao, K Furukawa Hydrological Processes 25 (17), 2694-2702, 2011 | 35 | 2011 |
| Reversal of secondary flows in a sharp channel bend K Nakayama, DH Nguyen, T Shintani, K Komai Coastal Engineering Journal 58 (02), 1650002, 2016 | 33 | 2016 |
| Contributions of wind and river effects on DO concentration in Tokyo Bay C Sato, K Nakayama, K Furukawa Estuarine, Coastal and Shelf Science 109, 91-97, 2012 | 30 | 2012 |
| Mechanism responsible for fortnightly modulations in estuarine circulation in Tokyo Bay K Nakayama, T Okada, M Nomura Estuarine, Coastal and Shelf Science 64 (2-3), 459-466, 2005 | 29 | 2005 |
| Effects of topography and Earth's rotation on the oblique interaction of internal solitary‐like waves in the A ndaman S ea K Shimizu, K Nakayama Journal of Geophysical Research: Oceans 122 (9), 7449-7465, 2017 | 27 | 2017 |
| Evaluation of entrainment velocity induced by wind stress in a two-layer system Y Maruya, K Nakayama, T Shintani, M Yonemoto Hydrological Research Letters 4, 70-74, 2010 | 27 | 2010 |
| Integration of Submerged Aquatic Vegetation Motion Within Hydrodynamic Models K Nakayama, T Shintani, K Komai, Y Nakagawa, JW Tsai, D Sasaki, ... Water Resources Research 56 (8), 2020 | 24 | 2020 |
| Terrestrial loads of dissolved organic matter drive inter-annual carbon flux in subtropical lakes during times of drought CY Chiu, JR Jones, JA Rusak, HC Lin, K Nakayama, TK Kratz, WC Liu, ... Science of the Total Environment 717, 137052-137052, 2020 | 24 | 2020 |
| Modeling dissolved inorganic carbon considering submerged aquatic vegetation K Nakayama, K Komai, K Tada, HC Lin, H Yajima, S Yano, MR Hipsey, ... Ecological Modelling 431, 109188-109188, 2020 | 22 | 2020 |
