Acknowledgement
본 결과물은 환경부의 재원으로 한국환경산업기술원 수생태계 건강성 확보 기술개발사업의 지원을 받아 연구되었습니다. (2020003050002)
References
- Choi, G., Kim, K. and Park, Y. 2003. Changes in water depth and velocity by debris around piers. J. Korea Water Resour. Assoc. 36(2): 273-284. (in Korean). https://doi.org/10.3741/JKWRA.2003.36.2.273
- Fritz, H.M., Phillips, D.A., Okayasu, A., Shimozono, T., Liu, H., Mohammed, F., Skanavis, V., Synolakis, C.E. and Takahashi, T. 2012. The 2011 Japan tsunami current velocity measurements from survivor videos at Kesennuma Bay using LiDAR. Geophysical research letters 39: L00G23, doi:10.1029/2011GL050686.
- Global Map Japan. 2021. Available Online: http://cyberjapandata.gsi.go.jp on Sep. 30th, 2021.
- Gotoh, H., Okayasu, A., Watanabe, Y. 2013. Computational wave dynamics. Advanced series on ocean engineering. World Scientific, Singapore, 87.
- Google Earth. 2021. Available Online: https://www.google.com/maps on Sep. 30th, 2021.
- Inagaki, K., Nakaza, E., Iribe, T. and Watanabe, Y. 2012. Distribution of the pine trees drowned by Tohoku Tsunami along Sendai coastal area. Journal of Japan Society of Civil Engineers Ser. B3 (Coastal Engineering), 68(2): I_120-125. (in Japanese). https://doi.org/10.2208/jscejoe.68.I_120
- International River Interface Cooperative (iRIC). 2021. Available Online: http://i-ric.org/en on Sep. 30th, 2021.
- Kang, T. 2018. Studies on morphodynamics in shallow rivers with effects of vegetation and large wood using computational models, Doctoral dissertation., Hokkaido University.
- Kang, T. and Jang, C-L. 2020. An Experiment on flow simulation depending on opening configuration of weir using a numerical model. Journal of Ecology and Resilient Infrastructure 7(3): 218-226, https://doi.org/10.17820/eri.2020.7.3.218. (in Korean)
- Kang, T. and Kimura, I. 2018. Computational modeling for large wood dynamics with root wad and anisotropic bed friction in shallow flows. Advances in Water Resources 121: 419-431. https://doi.org/10.1016/j.advwatres.2018.09.006
- Kang, T., Kimura, I. and Shimizu, Y. 2018. Study on advection and deposition of driftwood affected by root in shallow flows. Journal of Japan Society of Civil Engineers Ser., B1 (Hydraulic Engineering), 74(4): I_757-I_762. https://doi.org/10.2208/jscejhe.74.i_757
- Kang, T., Kimura, I. and Shimizu, Y. 2020. Numerical simulation of large wood deposition patterns and responses of bed morphology in a braided river using large wood dynamics model. Earth Surface Processes and Landforms 45: 962-977, DOI: 10.1002/esp.4789.
- Kang, T., Kimura, I. and Onda, S. 2021. Application of computational modeling for large wood dynamics with collisions on moveable channel beds. Advances in Water Resources 152:103912, doi.org/10.1016/j.advwatres.2021.103912.
- Kimura, I. 2018. NaysCUBE solver manual (updated). Available Online: http://i-ric.org/en on September 30th, 2021.
- Kimura, I. and Kitanozo, K. 2020. Effects of the driftwood Richardson number and applicability of a 3D-2D model to heavy wood jamming around obstacles. Environmental Fluid Mechanics 20: 503-525. https://doi.org/10.1007/s10652-019-09709-6
- Kimura, I., Kang, T., and Kato, K. 2020. Computation on submerged large wood behavior around a driftwood trapping facility. Journal of Japan Society of Civil Engineers (JSCE) Ser. B1 (Hydraulic Engineering), 76(2): I_967-I_972. (in Japanese) https://doi.org/10.2208/jscejhe.76.2_I_967
- Lee, K, Jang, C-L. 2018. Numerical investigation of space effects of serial spur dikes on flow and bed changes by using Nays2D. J. Korea Water Resour. Assoc. 49(3): 241-252, doi: 10.3741/JKWRA.2016.49.3.241. (in Korean)
- Ministry of Land, Infrastructure and Transport. 2016. Korea building code. (in Korean)
- National Disaster Management Institute (NDMI). 2012. Tsunami Hazard Mapping through Characteristic Analysis of Inundation (III). (in Korean)
- Oishi, Y., Imamura, F., and Sugawara, D. 2015. Near-field tsunami inundation forecast using the parallel TUNAMI-N2 model: Application to the 2011 Tohoku-Oki earthquake combined with source inversions. Geophysical research letters 42: 1083-1091, doi:10.1002/2014GL062577.
- Oishi, Y., Imamura, F., Sugawara, D. and Furumura, T. 2016. Investigation of reliable tsunami inundation model in urban areas using a supercomputer. Journal of Japan Society of Civil Engineers (JSCE) Ser. B1 (Hydraulic Engineering), 72(2): I_409-I_414. (in Japanese) https://doi.org/10.2208/jscejhe.72.I_409
- Ruiz-Villanueva, V., Blade, E., Sanchez-Juny, M., Marti-Cardona, B., Diez-Herrero, A., and Bodoque, J.M. 2014. Two-dimensional numerical modeling of wood transport. Journal of Hydroinformatics 16(5): 1077-1096. https://doi.org/10.2166/hydro.2014.026
- Ruiz-Villanueva, V., Gamberini, C., Blade, E., Stoffel, M., Bertoldi, W. 2020. Numerical Modeling of Instream Wood Transport, Deposition, and Accumulation in Braided Morphologies Under Unsteady Conditions: Sensitivity and High-Resolution Quantitative Model Validation. Water Resources Research doi.org/10.1029/2019WR026221.
- Shimizu, Y., Inoue, T., Suzuki, E., Kawamura, S., Iwasaki, T., Hamaki, M., Omura, K., Kakegawa, E. and Yoshida, T. 2015. Nays2D Flood Solver Manual. Available Online: http://i-ric.org/en (accessed in 2021)
- Shimizu, Y., Takebayashi, H., Inoue, T., Hamaki, M., Iwasaki, T. and Nabi, M. 2012. Nays2DH Solver Manual. Available online: http://i-ric.org/en (accessed in 2021)