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Speeds of Sound and Excess Isentropic Compressibilities of Butyl Acetate+Aromatic Hydrocarbons 被引量:2

Speeds of Sound and Excess Isentropic Compressibilities of Butyl Acetate+Aromatic Hydrocarbons
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摘要 为丁基 acetate+benzene 的健全数据的速度,或甲苯,或 o 二甲苯,或 m 二甲苯,或 p 二甲苯二进制代码混合物在 308.15 K 在鼹鼠部分的全部范围上被测量了。过量 isentropic 压缩的可能性(KES ) 从声音和密度数据的速度被计算,源于臼齿的过量音量数据。KES 价值被使用图分析理论途径。KES 价值由与他们的相应试验性的价值相当作比较很好的图理论评估了。KES 数据也以 Redlich-Kister 多项式方程被表示导出系数和标准差。 Speed of sound data for butyl acetate+benzene, or toluene, or o-xylene, or m-xylene, or p-xylene binary mixtures have been measured over the entire range of mole fraction at 308.15 K. The excess isentropic compressibilities ( Ks^E ) were computed from speed of sound and density data, derived from molar excess volume data. The Ks^E values were analyzed by using graph theoretical approach. The Ks^E values evaluated by graph theory compared reasonably well with their corresponding experimental values. The Ks^E data were also expressed in terms of Redlich-Kister polynomial equation to derive the coefficients and the standard deviation.
作者 Bal Raj Deshwal Anu Sharma Krishan Chander Singh
机构地区 Department of Chemistry Department of Chemistry
出处 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2008年第4期599-604,共6页 中国化学工程学报(英文版)
关键词 乙酸丁酯-芳香烃 混合液 声速 超额等熵压缩系数 speed of sound, isentropic compressibilities, graph theory, butyl acetate, aromatic hydrocarbon
分类号 O6 [理学—化学]
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参考文献20

  • 1Patterson, D., "Effects of molecular size and shape in solution thermodynamics", Pure Appl. Chem., 47, 305-314 (1976).
  • 2Ortega, J., Espiau, E, Toledo, EJ., "Thermodynamic properties of (an ester+an alkane). ⅩⅣ. Experimental Hm^E and Vm^E values and a new correlation method for (an alkyl ethanoate+an n-alkane) at 318.15 K", J. Chem. Thermodyn., 36, 193-209 (2004).
  • 3Chaar, M., Ortega, J., Toledo-Marante, EJ., Gonzalez, C., "Thermodynamic properties of (a pentyl ester+an n-alkane). XIV. The Hm^E and Vm^E for (an ester+an n-alkane)", J. Chem. Thermodyn., .:33, 689-711 (2001).
  • 4Toledo-Marante, EJ., Ortega, J., Chaar, M., Vidal, M., "Thermodynamic properties of (a butyl ester+an n-alkane). ⅩⅢ. Hm^E and Vm^E for {xCH3(CH2)u-1CO2(CH2)3CH3+(1-x)CH3(CH2)2v+1CH3}, where u= 1 to 3 and v= 1 to 7", J. Chem. Thermodyn., 32, 1013-1036 (2000).
  • 5Maken, S., Deshwal, B.R., Chadha, R., Anu Singh, K.C, Kim, H., Park, J.W., “Topological and thermodynamic investigations of molecular interactions in binary mixtures: Molar excess volumes and molar excess enthalpies”, Fluid Phase Equilib., 35, 42 -49 (2005).
  • 6Iloukhani, H., Reddy, K.D., Rao, M.V.E. "Excess volumes of the binary mixtures of substituted benzenes with ethyl acetate and butyl acetate", J. Chem. Eng. Data, 29, 474- 476 (1984).
  • 7Ramachandran, D., Rambabu, K., Krishnan, K.M., Venkateswarlu, R, Raman, GK., "Volume of mixing, speed of sound, and viscosity of butyl acetate with xylenes at 303.15K", J. Chem. Eng. Data, 40, 815 -817 (1995).
  • 8Nayak, J.N., Aralaguppi, M.I., Aminabhavi, T.M., "Density, viscosity, refractive index, and speed of sound in the binary mixtures of ethyl chloroacetate with aromatic liquids at 298.15,303.15, and 308.15K", J. Chem. Eng. Data, 47, 964-969 (2002).
  • 9Riddick, J.A., Bunger, W.B., Sakano, T.K., Techniques of Chemistry, Vol. II, Organic Solvents: Physical Properties and Methods of Purification, John Wile,/& Sons, New York (1986).
  • 10Vogel, A.I., A Text Book of Practical Organic Chemistry, 4th edition, ELBS, Longman, London (1978).

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Chinese Journal of Chemical Engineering
2008年 第4期

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