Junichi Yoshitani
Work Research Institute
21 Papers
272 Citations
Junichi Yoshitani is an academic researcher from Work Research Institute. The author has contributed to research in topics: Hydrological modelling & Watershed. The author has an hindex of 6, co-authored 19 publications.
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Papers
Time-Space Trend Analysis in Pan Evaporation over Kingdom of Thailand
TL;DR: In this article, the temporal and spatial distribution characteristics of the pan evaporation amount in the Chao Phraya River basin, in the Kingdom of Thailand, were analyzed over a period of 19 years, from 1982 to 2000, where data related to the target area were available.
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Watershed Environmental Hydrology (WEHY) Model Based on Upscaled Conservation Equations: Hydrologic Module
M. L. Kavvas,Z. Q. Chen,C. Dogrul,Jaeyoung Yoon,Noriaki Ohara,L. Liang,Hafzullah Aksoy,M. L. Anderson,Junichi Yoshitani,Kazuhiko Fukami,T. Matsuura +10 more
TL;DR: The Watershed Environmental Hydrology model as mentioned in this paper presents a new approach to the modeling of hydrologic processes in order to account for the effect of heterogeneity within natural watersheds by upscaling the point location-scale conservation equations.
105
Geomorphologic and Soil Hydraulic Parameters for Watershed Environmental Hydrology (WEHY) Model
ZhiQiang Chen,M. L. Kavvas,Jaeyoung Yoon,Emin C. Dogrul,Kazuhiko Fukami,Junichi Yoshitani,T. Matsuura +6 more
TL;DR: The upscaled hydrologic conservation equations in the Watershed Environmental Hydrology (WEHY) model are capable of taking into account the effect of heterogeneity within natural watersheds as discussed by the authors.
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Watershed Environmental Hydrology (WEHY) Model: Model Application
TL;DR: In this paper, the Watershed Environmental Hydrology (WEHY) model was applied to the Shiobara-Dam watershed for model validation for four historical events, and good results were obtained when the WEHY model watershed runoff predictions were compared against their observed counterparts for several historical rainfall-runoff events.
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Distributed Hydrologic Modeling in a Partially Urbanized Agricultural Watershed using Water and Energy Transfer Process Model
TL;DR: In this article, the water and energy transfer process (WEP) model is improved for hydrologic modeling in an agricultural watershed by developing a paddy model, which is used to simulate the Yata watershed at 100 m grid size and variable time step.
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