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Bingchen Liang
Researcher at Ocean University of China
Publications - 97
Citations - 878
Bingchen Liang is an academic researcher from Ocean University of China. The author has contributed to research in topics: Geology & Significant wave height. The author has an hindex of 14, co-authored 69 publications receiving 602 citations.
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A global climate analysis of wave parameters with a focus on wave period from 1979 to 2018
TL;DR: In this paper, a long-term analysis on the temporal variation and spatial pattern of wave parameters is performed, with a focus on wave period, and the mean and maximal conditions of peak period reflect the dominance of the swell and the region where it generates.
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Numerical study to estimate the wave energy under Wave-Current Interaction in the Qingdao coast, China
TL;DR: In this article, the wave energy resources under wave-current interaction (WCI) in the Qingdao coast were investigated, and the results indicated that the annual mean differences between coupled and uncoupled models are mainly occurred in the nearshore zones.
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Numerical Investigation of the Influence of Water Jumping on the Local Scour beneath a Pipeline under Steady Flow
TL;DR: In this paper, the influence of the rigid-lid assumption on the prediction precision of scour hole in steady flow is studied in a local scour model was constructed based on the open sources Computational Fluid Dynamics (CFD) model OpenFOAM, where both the bed load and suspended load were considered.
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Numerical study of three-dimensional wave-induced longshore current's effects on sediment spreading of the Huanghe River mouth
TL;DR: In this article, a three-dimensional wave radiation stress is introduced into the hydrodynamic sediment coupled model COHERENS-SED, which has been developed through introducing waveenhanced bottom shear stress, wave dependent surface drag coefficient, wave-induced surface mixing, SWAN, damping function of sediment on turbulence, sediment model and depth-dependent wave radiation stressed to COHEREN.
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Initial-condition consideration by transferring and loading reconstruction for the dynamic analysis of linear structures in the frequency domain
TL;DR: In this paper, a new frequency-domain dynamic analysis method that can consider the initial conditions is proposed, where external loadings are decomposed into Prony series, and initial conditions are transferred from the system into the reconstructed loadings, which are combinations of the initial loadings and the corresponding initial conditions in the Laplace domain.