Yang Yang
Johns Hopkins University
14 Papers
8 Citations
Yang Yang is an academic researcher from Johns Hopkins University. The author has contributed to research in topics: Topology optimization & Nusselt number. The author has an hindex of 9, co-authored 13 publications. Previous affiliations of Yang Yang include Corning Inc. & Syracuse University.
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Papers
Overview of Computational Fluid Dynamics Simulation of Reactor-Scale Biomass Pyrolysis
Qingang Xiong,Yang Yang,Fei Xu,Yaoyu Pan,Jingchao Zhang,Kun Hong,Giulio Lorenzini,Shurong Wang +7 more
TL;DR: In this paper, the state-of-the-art progress in computational fluid dynamics (CFD) modeling of reactor-scale biomass pyrolysis was summarized and discussed, and the theoretical basis and practical applications of three main CFD modeling approaches, i.e., porous media model, multifluid model, and discrete particle model, were presented.
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3-D phononic crystals with ultra-wide band gaps
TL;DR: In this article, a gradient-based topology optimization (TO) algorithm is used to discover 3D phononic structures that exhibit ultra-wide normalized all-angle all-mode band gaps.
Major trends and roadblocks in CFD-aided process intensification of biomass pyrolysis
Qingang Xiong,Fei Xu,Yaoyu Pan,Yang Yang,Zhiming Gao,Shuli Shu,Kun Hong,François Bertrand,Jamal Chaouki +8 more
TL;DR: In this article, the major trends and roadblocks with respect to CFD-aided process intensification of biomass pyrolysis are discussed, such as multiscale coupling, fast parametric analysis and design, and coupling between CFD and process modeling.
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Topology optimization for linear stationary stochastic dynamics: Applications to frame structures
TL;DR: In this paper, the authors developed some foundations of topology optimization for the robust design of structural systems subjected to general stationary stochastic dynamic loads and derived variable sensitivities analytically.
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Three-Dimensional Force Flow Paths and Reinforcement Design in Concrete via Stress-Dependent Truss-Continuum Topology Optimization
TL;DR: In this article, a two-dimensional hybrid truss-continuum topology optimization scheme was developed to overcome these challenges with the goal of reconfiguring traditional reinforcement layouts to automatically follow principal tensile stresses, reducing cracking at service loads and increasing strength and ductility at an ultimate limit state.
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