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[1]Liu, D., Wu, Y. and Lin, P. 2022 The interfacial swirling motion of two-layer liquids in a tank under orbital excitations. Phys. Fluids 34, 112109.(中科院2区TOP,IF=4.980)
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[2]Liu, D. and Lin, P. 2022 Interface instabilities in Faraday waves of two-layer liquids with free surface. J. Fluid Mech. 941, A33. (中科院2区TOP,IF=4.245)
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[3]Liu, D., Wu, Y. and Lin, P. 2022 An experimental study of two-layer liquid sloshing under pitch excitations. Phys. Fluids 34, 052112.(中科院2区TOP,IF=4.980)
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[4]练继建, 任盼红, 刘东明*等. 2022 明渠完全掺气水流水力特性数值模拟研究. 水力发电学报 41, 1-8.(中文核心)
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[5]练继建, 任盼红, 刘东明*等. 2022 基于混合-浓度模型的泄洪洞内水流掺气数值模拟研究. 水资源与水工程学报 33, 93-100.(中文核心)
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[6]Yan, D., Liu, D.* and Lian, J. 2022 Generation of internal waves in a two-layered stratified system with a free surface by coupled mass sources. Ocean Eng. 243, 110234.(中科院2区TOP,IF=4.372)
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[7]马斌, 刘永玺, 李会平, 刘东明, 姚烨 2021 窄深河谷近坝库岸滑坡涌浪特性及传播规律. 水利水运工程学报 2021(5), 120-128.
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[8]Lian, J., Wang, X. and Liu, D.* 2021 Air demand prediction and air duct design optimization method for spillway tunnel. J. Hydraul. Res. 59, 448-461.(中科院3区,IF=2.590)
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[9]Liu, D., Lin, P., Xue, M., Cheng, L. and Lian, J. 2021 Numerical simulation of two-layered liquid sloshing in tanks under horizontal excitations. Ocean Eng. 224, 108768.(中科院2区TOP,IF=4.372,WOS被引15次)
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[10]Liu, D., Lian, J., Liu, F., Liu, D., Ma, B. and Shi, J. 2020 An Experimental Study on the Effects of Atomized Rain of a High Velocity Waterjet to Downstream Area in Low Ambient Pressure Environment. Water 12, 397.
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[11]Lian, J., Wang, X., Ma, B. and Liu, D. 2018 Improvement to the sources selection to identify the low frequency noise induced by flood discharge. Mech. Syst. Signal Proc. 110, 139-151.(中科院1区TOP,IF=8.934)
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[12]Lian, J., Wang, X., Zhang, W., Ma, B. and Liu, D. 2017 Multi-Source Generation Mechanisms for Low Frequency Noise Induced by Flood Discharge and Energy Dissipation from a High Dam with a Ski-Jump Type Spillway. Int. J. Env. Res. Pub. He. 14, 1482.(中科院3区,IF=4.614)
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[13]Lin, P., Cheng, L. and Liu, D. 2016 A two-phase flow model for wave–structure interaction using a virtual boundary force method. Comput. Fluids 129, 101-110.(中科院3区,IF=3.077,WOS被引19次)
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[14]Liu, D. and Lin, P. 2009 Three-dimensional liquid sloshing in a tank with baffles. Ocean Eng. 36, 202-212.(中科院2区TOP,IF=4.372,WOS被引180次)
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[15]Liu, D. and Lin, P. 2008 A numerical study of three-dimensional liquid sloshing in tanks. J. Comput. Phys. 227, 3921-3939.(中科院2区TOP,IF=4.645,WOS被引270次)