-
[1]缑文娟, 王天源, 刘东明*等. 2024 高重力坝表孔堰面曲线优化数值模拟研究. 水资源与水工程学报(已接收).(中文核心)
-
[2]Ma L., Lian J. and Liu D*. 2024 A GPU-accelerated two-phase flow model for fluid-solid interaction using the sharp interface immersed boundary method. J. Hydrodyn., accepted.(中科院3区,IF=2.5)
-
[3]Liu, D., Jiang X. and Lin P. 2024 Numerical simulation of interfacial resonant Faraday waves between two immiscible liquids. Phys. Fluids 36, 022123.(中科院2区,IF=4.6)
-
[4]Lian J., Xiao T., Liu D.*, Ye F. and Xiong D. 2023 The offshore prefabrication and semi-wet towing of a bucket foundation for offshore wind turbines. Ocean Eng. 285, 115354.(中科院2区TOP,IF=5.0)
-
[5]Lian J., Wang X., Liu D*. 2023 Closure to "Air demand prediction and air duct design optimization method for spillway tunnel" by JIJIAN LIAN, XIAOQUN WANG and DONGMING LIU, J. Hydraulic Res. 59(3), 2021, 448–461. J. Hydraul. Res. 61(2), 300-301.(中科院3区,IF=2.3)
-
[6]马斌, 李会平, 刘东明等. 2023 窄深河谷库岸滑坡坝前涌浪特性及浪高影响因素. 南水北调与水利科技 21(2), 362-370.(中文核心)
-
[7]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)
-
[8]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,WOS被引15次)
-
[9]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,WOS被引15次)
-
[10]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)
-
[11]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)
-
[12]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=5.0)
-
[13]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.
-
[14]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)
-
[15]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=5.0,WOS被引25次)
-
[16]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.
-
[17]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)
-
[18]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)
-
[19]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25次)
-
[20]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210次)
-
[21]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300次)
