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泥炭分子化石记录气候变迁和生物演替的信息 被引量:46
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作者 谢树成 R.P.Evershed +1 位作者 LIU Xiang wang buxuan 《科学通报》 CAS CSCD 北大核心 2001年第10期863-866,共4页
以一个40cm长泥炭岩芯的气相色谱(GC)和气相色谱-质谱(GC-MS)分析为基础,结合现有的湖相记录资料,提出苔藓植物C23正构烷烃主峰标志了一种寒冷气候的信息.现代苔藓植物化学成分与气候关系的分析,以及生态学上有... 以一个40cm长泥炭岩芯的气相色谱(GC)和气相色谱-质谱(GC-MS)分析为基础,结合现有的湖相记录资料,提出苔藓植物C23正构烷烃主峰标志了一种寒冷气候的信息.现代苔藓植物化学成分与气候关系的分析,以及生态学上有关气候影响生物生长方式的资料,支持了泥炭中仅在第2个小冰期出现 C23正构烷烃呈指数形式变化的现象与寒冷气候有关这一结论,显示了这一相当常见的分子化石可以高精度地记录气候变迁的非常信息.酮/酯比值、C24正构单烯烃/C24正构烷烃比值,与生物分布具有很好的对应关系,标记了苔鲜植物与单子叶被子植物之间的取代关系. 展开更多
关键词 苔藓植物 分子化石 正构烷烃 古气候 泥炭 气候变化 生物演替 分子地层学
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Internal heat transfer coefficients in microporous media with rarefaction effects 被引量:4
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作者 XU RuiNa HUANG YuLi +1 位作者 JIANG PeiXue wang buxuan 《Science China(Technological Sciences)》 SCIE EI CAS 2012年第10期2869-2876,共8页
The internal heat transfer of different gases in microporous media was investigated experimentally and numerically.The experimental test section had a sintered bronze porous media with average particle diameters from ... The internal heat transfer of different gases in microporous media was investigated experimentally and numerically.The experimental test section had a sintered bronze porous media with average particle diameters from 11 μm to 225 μm.The Knudsen numbers at the average inlet and outlet pressures of each test section varied from 0.0006 to 0.13 with porosities from 0.16 to 0.38.The particle-to-fluid heat transfer coefficients of air,CO 2 and helium in the microporous media were determined experimentally.The results show that the Nusselt numbers for the internal heat transfer in the microporous media decrease with decreasing the particle diameter,d p,and increasing Knudsen number for the same Reynolds number.For Kn>0.01,the rarefaction affects the internal heat transfer in the microporous media.A Nusselt number correlation was developed that includes the influence of rarefaction.The computational fluid dynamics(CFD) numerical simulation was carried out to do the pore scale simulation of internal heat transfer in the microporous media considering the rarefaction effect.Pore scale three-dimensional numerical simulations were also used to predict the particle-to-fluid heat transfer coefficients.The numerical results without slip-flow and temperature jump effects for Kn<0.01 corresponded well with the experimental data.The numerical results with slip-flow and temperature jump effects for 0.01<Kn<0.13 are lower than the numerical results without rarefaction effects,but closer to the experimental data.The numerical results with rarefaction effects can accurately simulate the unsteady heat transfer in the microporous media. 展开更多
关键词 internal heat transfer coefficients microporous media RAREFACTION Knudsen number
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