Investigation into the improved axial compressibility of a spinning non-ideal gas

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摘要 Using theoretical analysis and mumerical calculation method,the axial adiabatic compression of a spinning non-ideal gas in a cylinder with a smooth surface is investigated.We show that the axial pressure of a spinning gas will gradually become lower than that of a stationary gas during continuous compression,even though the initial axial pressure of the spining gas is larger than that of the stationary gas at the same initial temperature and average density.This phenomenon indicates that the axial compressibility of gas is improved in a rotating system.In addition,the effect of different forms of virial coefficient B(T)on pressure and temperature changes in spinning and stationary gases are investigated.Research on the axial compressibility of spinning non ideal gas can provide useful references for fields that require high compression of gases,such as laser fusion,laboratory astrophysics,and Z-pinch experiments.

作者 Yi-Wen Zhang Shi-Long Su Shu-Bin Xie Wei-Min Zhou Hao Liu

机构地区 Department of Applied Physics Science and Technology on Plasma Physics Laboratory HEDPS

出处《Frontiers of physics》 SCIE CSCD 2020年第4期25-31,共7页 物理学前沿（英文版）

基金 This work was financially supported by the National Natural Science Foundation of China(Grant No.11805061) the Natural Science Foundation of Hunan Province,China(Grant No.2019JJ50072) the Science Challenge Project(Grant No.TZ2016005) the Fundamental Research Funds for the Central Universities.

关键词 COMPRESSIBILITY spinning system non ideal gas virial EOS

分类号 O35 [理学—流体力学]

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参考文献5

1Zhengfeng Fan,Yuanyuan Liu,Bin Liu,Chengxin Yu,Ke Lan,Jie Liu.Non-equilibrium between ions and electrons inside hot spots from National Ignition Facility experiments[J].Matter and Radiation at Extremes,2017,2(1):3-8. 被引量：7
2Yan-Biao Gan,Ai-Guo Xu,Guang-Cai Zhang,Chuan-Dong Lin,Hui-Lin Lai,Zhi-Peng Liu.Nonequilibrium and morphological characterizations of Kelvin-Helmholtz instability in compressible flows[J].Frontiers of physics,2019,14(4):83-99. 被引量：9
3Hao Liu,Wei Kang,Qi Zhang,Yin Zhang,Huilin Duan,X. T. He.Molecular dynamics simulations of microscopicstructure of ultra strong shock waves in dense helium[J].Frontiers of physics,2016,11(6):197-207. 被引量：8
4Ai-Guo Xu,Guang-Cai Zhang,Yu-Dong Zhang,Pei Wang,Yang-Jun Ying.Discrete Boltzmann model for implosion- and explosion- related compressible flow with spherical symmetry[J].Frontiers of physics,2018,13(5):31-44. 被引量：5
5Ai-Guo Xu,Guang-Cai Zhang,Yan-Biao Gan,Feng Chen,Xi-Jun Yu.Lattice Boltzmann modeling and simulation of compressible flows[J].Frontiers in Biology,2012,7(5):582-600. 被引量：28

二级参考文献66

1S. Succi, The Lattice Boltzmann Equation for Fluid Dynamics and Beyond, New York: Oxford University Press, 2001.
2S. Y. Chen, H. D. Chen, D. Martinez, and W. Matthaeus, Phys. Rev. Lett., 1991, 67(27): 3776.
3G. Vahala, B. Keating, M. Soe, J. Yepezand, and L. Vahala, Comm. Comp. Phys., 2008, 4(3): 624.
4A. J. C. Ladd, J. Fluid Mech., 1994, 271:311.
5A. Gunstensen, D. Rothman, S. Zaleski, and G. Zanetti, Phys. Rev. A, 1991, 43(8): 4320.
6X, Shan and H. Chen, Phys. Rev. E, 1993, 47(3): 1815.
7M. R. Swift, W. R. Osborn, and J. M. Yeomans, Phys. Rev. Lett., 1995, 75(5): 830.
8X. He, S. Chen, and R. Zhang, J. Comput. Phys., 1999, 152(2): 642.
9A. Xu, G. Gonnella, and A. Lamura, Phys. Rev. E, 2003, 67(5): 056105.
10A. Xu, G. Gonnella, and A. Lamura, Phys. Rev. E, 2006, 74(I): 011505.

共引文献36

1Feng Chen,Ai-Guo Xu,Guang-Cai Zhang,Yong-Long Wang.Two-dimensional Multiple-Relaxation-Time Lattice Boltzmann model for compressible and incompressible flows[J].Frontiers of physics,2014,9(2):246-254. 被引量：1
2Raul Machado.On the generalized Hermite-based lattice Boltzmann construction, lattice sets, weights,moments, distribution functions and high-order models[J].Frontiers of physics,2014,9(4):490-510. 被引量：1
3许爱国,张广财,甘延标.相分离过程的离散Boltzmann方法研究进展[J].力学与实践,2016,38(4):361-374. 被引量：11
4张玉东,许爱国,张广财,祝成民.一个高效的离散Boltzmann爆轰模型[J].计算物理,2016,33(5):505-515. 被引量：1
5Feng Chen,Ai-Guo Xu,Guang-Cai Zhang.Viscosity, heat conductivity, and Prandtl number effects in the Rayleigh-Taylor Instability[J].Frontiers of physics,2016,11(6):183-196. 被引量：10
6Hao Liu,Wei Kang,Qi Zhang,Yin Zhang,Huilin Duan,X. T. He.Molecular dynamics simulations of microscopicstructure of ultra strong shock waves in dense helium[J].Frontiers of physics,2016,11(6):197-207. 被引量：8
7张戈,冯程远,龚文波,李英骏.粗糙元对单裂隙渗流影响的格子Boltzmann方法模拟及分析[J].中国科学：物理学、力学、天文学,2017,47(2):62-73. 被引量：7
8刘浩,康炜,段慧玲,张平,贺贤土.流体中强冲击波的微观结构数值模拟研究进展[J].中国科学：物理学、力学、天文学,2017,47(7):13-21. 被引量：2
9闻炳海,张超英,方海平.晶格Boltzmann方法中流体力的计算[J].中国科学：物理学、力学、天文学,2017,47(7):165-186. 被引量：1
10Yu-Dong Zhang,Ai-Guo Xu,Guang-Cai Zhang,Zhi-Hua Chen,Pei Wang.Discrete ellipsoidal statistical BGK model and Burnett equations[J].Frontiers of physics,2018,13(3):149-161. 被引量：4

1Kanti Pandey,Praveen Prakash Pathak.Investigation of Shock Waves in Non-Ideal Gas under the Action of Magnetic Field[J].Advances in Pure Mathematics,2017,7(10):583-596.
2David BAILIE,Cormac HYLAND,Raj L SINGH,Steven WHITE,Gianluca SARRI,Francis P KEENAN,David RILEY,Steven J ROSE,Edward G HILL,Feilu WANG,Dawei YUAN,Gang ZHAO,Huigang WEI,Bo HAN,Baoqiang ZHU,Jianqiang ZHU,Pengqian YANG.An investigation of the L-shell x-ray conversion efficiency for laser-irradiated tin foils[J].Plasma Science and Technology,2020,22(4):48-54. 被引量：1
3Yue-Hui Ma,Hong-Chi Wang,Chong Li,Ji Yang.The column density structure of Orion A depicted by N-PDF[J].Research in Astronomy and Astrophysics,2020,20(4):139-155. 被引量：1
4Nagat A. Hussein,Abdel Nasser A. Osman,Dalia A. Eisa,Ragaa A. Abbas.The quantum thermodynamic functions of plasma in terms of the Green’s function[J].Natural Science,2014,6(2):71-80.
5Zhang Yunling.Attaching Great Importance to New Adjustments of Globalization and Their Impacts[J].China International Studies,2020,65(3):53-60. 被引量：2
6Chong Li,Hong-Chi Wang,Yuan-Wei Wu,Yue-Hui Ma,Liang-Hao Lin.Assessing the performance of molecular gas clump identification algorithms[J].Research in Astronomy and Astrophysics,2020,20(3):62-75.
7SHU GeQun,HUO Xu,TIAN Hua,SUN Rui,CAI JinWen.A lower flammability limit prediction model of alkane-CO2 mixtures based on flame phenomenon simulation[J].Science China(Technological Sciences),2020,63(6):1005-1017. 被引量：1
8Run Xu.The Simulation on Dynamic of Rotary Inertia and Engine’s Inflamer in Light Vehicle[J].Journal of Mechanical Engineering Research,2020,3(2):1-6.
9Explanatory Notes on Main Statistical Indicators[J].中国经济景气月报,2020(6):245-249.
10Ranjan Bera,Antara Seal,A.K.Chatterjee,Pradip Bhattacharyya.Distribution of Forms of Sulphur and Their Relationships with Soil Attributes in Tea Growing Soils under Different Agro-climatic Zones of Northeastern India[J].NASS Journal of Agricultural Sciences,2019,1(1):1-6.

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Investigation into the improved axial compressibility of a spinning non-ideal gas

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