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利用分区ALE算法数值模拟圆柱湍流涡致振动 被引量:2
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作者 任安禄 王焕然 +1 位作者 邵雪明 邓见 《空气动力学学报》 EI CSCD 北大核心 2008年第4期544-548,共5页
用分区算法结合任意拉格朗日-欧拉法(ALE)数值模拟了圆柱湍流涡致振动。求解基于非交错网格系统,压力求解采用压力泊松方程提法,湍流模型采用标准k-ε模型和重整化群(RNG)k-ε模型。计算取中等雷诺数Re=5000、10000、15000、25000、5000... 用分区算法结合任意拉格朗日-欧拉法(ALE)数值模拟了圆柱湍流涡致振动。求解基于非交错网格系统,压力求解采用压力泊松方程提法,湍流模型采用标准k-ε模型和重整化群(RNG)k-ε模型。计算取中等雷诺数Re=5000、10000、15000、25000、50000等,质量系数M=10,阻尼系数ζ=0.00331,自振频率fn=0.18315、0.1628。计算结果表明:湍流涡致振动下圆柱时均阻力系数大于孤立圆柱绕流,而升力系数(振幅)值都小于孤立圆柱绕流。随着雷诺数增大,湍流粘性系数随之增大,但湍动能和湍流耗散率变化趋势不明显。对孤立圆柱绕流,研究结果与前人实验结果基本相符。 展开更多
关键词 湍流 涡致振动 ALE分块耦合法 圆柱绕流 单自由度振动
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黏性非定常圆柱绕流的升阻力研究 被引量:23
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作者 黄钰期 邓见 任安禄 《浙江大学学报(工学版)》 EI CAS CSCD 北大核心 2003年第5期596-601,共6页
对于单圆柱绕流问题,以前的分块耦合法一般将整个流场区域划分为八个子区域,同时每一子块的内部拟边界与相邻块重叠一层网格,且节点数一致,以便实现数据传递.这种分块方法紧贴圆柱面上也会有拟边界点,所以不利于以后的动网格计算.使用... 对于单圆柱绕流问题,以前的分块耦合法一般将整个流场区域划分为八个子区域,同时每一子块的内部拟边界与相邻块重叠一层网格,且节点数一致,以便实现数据传递.这种分块方法紧贴圆柱面上也会有拟边界点,所以不利于以后的动网格计算.使用新的分块耦合求解方法来数值模拟单圆柱以及不同间距下的串列双圆柱绕流情况,克服了过去分块方法造成的边界附近的数值奇性问题.并将该方法扩展用于串列双圆柱绕流的数值模拟,研究分析了改变双圆柱中心间距对上下游圆柱的升阻力系数和脉动频率所产生的影响,为进一步研究涡致振动提供了依据.使用壁面涡量积分法计算升阻力系列化脉动,精确计算出了脉动周期和幅值,计算结果与实验数据符合较好. 展开更多
关键词 黏性非定常圆柱绕流 升阻力 分块耦合法 涡脱落 临界间距 数值模拟
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Generalized Energy-Based Fragmentation Approach for Accurate Binding Energies and Raman Spectra of Methane Hydrate Clusters
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作者 Lei Zhang Zheng Cheng +1 位作者 Wei Li Shuhua Li 《Chinese Journal of Chemical Physics》 SCIE EI CAS CSCD 2022年第1期167-176,I0064,共11页
Methane hydrates(MHs)play important roles in the fields of chemistry,energy,environmental sciences,etc.In this work,we employ the generalized energy-based fragmentation(GEBF)approach to compute the binding energies an... Methane hydrates(MHs)play important roles in the fields of chemistry,energy,environmental sciences,etc.In this work,we employ the generalized energy-based fragmentation(GEBF)approach to compute the binding energies and Raman spectra of various MH clusters.For the GEBF binding energies of various MH clusters,we first evaluated the various functionals of density functional theory(DFT),and compared them with the results of explicitly correlated combined coupled-cluster singles and doubles with noniterative triples corrections[CCSD(T)(F12^(*))]method.Our results show that the two best functionals are B3PW91-D3 and B97D,with mean absolute errors of only 0.27 and 0.47 kcal/mol,respectively.Then we employed GEBF-B3PW91-D3 to obtain the structures and Raman spectra of MH clusters with mono-and double-cages.Our results show that the B3PW91-D3 functional can well reproduce the experimental C-H stretching Raman spectra of methane in MH crystals,with errors less than 3 cm^(-1).As the size of the water cages increased,the C-H stretching Raman spectra exhibited a redshift,which is also in agreement with the experimental“loose cage-tight cage”model.In addition,the Raman spectra are only slightly affected by the neighboring environment(cages)of methane.The blueshifts of C-H stretching frequencies are no larger than 3 cm^(-1) for CH_(4) from monocages to doublecages.The Raman spectra of the MH clusters could be combined with the experimental Raman spectra to investigate the structures of methane hydrates in the ocean bottom or in the interior of interstellar icy bodies.Based on the B3PW91-D3 or B97D functional and machine learning models,molecular dynamics simulations could be applied to the nucleation and growth mechanisms,and the phase transitions of methane hydrates. 展开更多
关键词 Generalized energy-based fragmentation approach Explicitly correlated coupled-cluster Density functional theory Methane hyrdrate Raman spectra
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