Isochoric heat capacity and cluster structure of a simple liquid

 
PIIS004036440003360-0-1
DOI10.31857/S004036440003360-0
Publication type Article
Status Published
Authors
Affiliation: Kursk State University
Address: Russian Federation
Affiliation: Kursk State University
Address: Russian Federation
Affiliation: University of Ulm
Address: Germany
Journal nameTeplofizika vysokikh temperatur
EditionVolume 56 Issue 5
Pages699-703
Abstract

  

Keywords
AcknowledgmentThis work was supported by the grant of the RFF I (No. 16–08–01203А).
Received27.12.2018
Publication date27.12.2018
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1. Stewart R., Jacobson R. Thermodynamic Properties of Argon from the Triple Point to 1200 K with Pressure to 1000 MPa // Phys. Chem. Ref. Data. 1989. V. 18. P. 639.

2. Gladun S. The Specific Heat of Liquid Argon // Cryogenics. 1971. V. 11. № 3. P. 205.

3. Gladun C., Menzel F. The Specific Heat and Some Thermodynamic Properties of Liquid Krypton // Cryogenics. 1970. V. 10. № 3. P. 210.

4. http://webbook.nist.gov/chemistry

5. Friend D. C., Ely J. F., Ingkeim H. Thermodynamical Properties of Methane // J. Phys. Chem. Ref. Data. 1991. V. 18. № 2.

6. Younglove B. A. The Specific Heats, ? and ?V , of Compressed and Liquefied Methane // J. Res. Natl. Bur. Stand., Sect. A. 1974. № 3. V. 78. P. 401.

7. Stewart R. B., Jacobson R. T. Thermodynamic Properties of Oxygen // J. Phys. Chem. Ref. Data. 1991. V. 20. P. 917.

8. Anisimov M. A. Kriticheskie yavleniya v zhidkostyakh i zhidkikh kristallakh. M.: Nauka, 1987. 272 s.

9. Jacobsen R. T., Penoncello S. G., Lemmon E. W. Thermodynamic Properties of Cryogenic Fluids // Springer Science+Business Media. N.Y., 1997. P. 312.

10. Litovits T., Devis K. Strukturnaya i sdvigovaya relaksatsiya v zhidkosti // Fizicheskaya akustika. T. 2. Ch. A / Pod red. Mehzona U. M.: Mir, 1968. S. 298.

11. Eisenstein A., Gingrich N. S. The Diffraction of X-Rays by Argon in the Liquid, Vapor, and Critical Regions // Phys. Rev. 1942. V. 62. P. 261.

12. Fizika prostykh zhidkostej. Ehksperimental'nye issledovaniya / Pod red. Temperli G. i dr. Per s angl. M.: Mir, 1973. 400 c.

13. Sator N. Clusters in Simple Fluids // Phys. Rep. 2003. V. 376. P. 1.

14. Mendeleev D. I. Rastvory. M.: Izd-vo AN SSSR, 1959. 401 s.

15. Shakhparonov M. I. Vvedenie v sovremennuyu teoriyu rastvorov. M.: Vysshaya shkola, 1976. 296 s.

16. Sperkach B. C., Shakhparonov M. I. Teoriya vyazkosti zhidkostej. Ob'emnaya i sdvigovaya vyazkosti zhidkikh argona, kriptona, ksenona, azota, kisloroda // ZhFKh. 1986. T. 64. № 8. S. 2216.

17. Khobza P., Zagradnik R. Mezhmolekulyarnye kompleksy: rol' vandervaal'sovykh sistem v fizicheskoj khimii i biodistsiplinakh. Per. s angl. M.: Mir, 1989. 396 s.

18. Hobza P., Muller-Dethlefs K. Non-covalent Interactions Theory and Experiment. Manchester, UK, 2010. P. 7.

19. Neruchev Yu. A. Diskretno-kontinual'naya model' dlya prognozirovaniya ravnovesnykh svojstv organicheskikh zhidkostej. Kursk: Izd-vo Kursk. gos. ped. unta, 2001. 139 s.

20. Neruchev Yu. A., Bolotnikov M. F. Krossovernye sootnosheniya dlya «prostykh» sistem v kriticheskoj oblasti // TVT. 2008. T. 46. № 1. S. 45.

21. Neruchev Yu. A., Zhdanova E. S., Korotkovskij V. I. Uravnenie sostoyaniya «ideal'noj» kondensirovannoj sistemy // Monitoring. Nauka i Tekhnologii. 2012. № 1 (10). S. 74.

22. Neruchev Yu. A., Bolotnikov M. F., Korotkovskij V. I. Osobennosti mezhmolekulyarnykh sil v zhidkikh uglevodorodakh // Mater. XIV RKTS. Kazan', 2014. T. 1. S. 87.

23. Rabinovich B. A., Vasserman A. A., Nedostup V. I., Veksler V. S. Teplofizicheskie svojstva neona, argona, kriptona i ksenona. M.: Izd-vo standartov, 1976. 638 s.

24. Vargaftik N. B. Spravochnik po teplofizicheskim svojstvam gazov i zhidkostej. M.: Nauka; FML, 1972. 720 s.

25. Robertson D. H., Brown F. B., Navon J. M. Determination of the Structure of Mixed Argon–Xenon Clusters Using a Finite Lattice-based Monte Carlo Method // Chem. Phys. 1989. V. 90. № 6. P. 3221.

26. Vlasiuk M., Sadus R. J. Ab Initio Interatomic Potentials and the Thermodynamic Properties of Fluids // J. Chem. Phys. 2017. V. 147. 024505.

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