PRINCIPY ZAMYKANIYa TERMODINAMIKI LENNARD-DZhONSOVSKIH FLYuIDOV

D'yakonov G S; Dinmuhametova R A; Klinov A V; D'yakonov S G

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PRINCIPY ZAMYKANIYA TERMODINAMIKI LENNARD-DZHONSOVSKIH FLYUIDOV

Journal: HERALD OF TECHNOLOGICAL UNIVERSITY Volume 16 № 4 , 2025

Rubrics: STRUKTURA VESCHESTVA I TEORIYA HIMICHESKIH PROCESSOV

UDC 541.12.011

D'yakonov G S ¹

Dinmuhametova R A ²

Klinov A V ³

D'yakonov S G ⁴

Author and publication information

Authors:

1. AN RT; KNITU

2. KNITU

3. KNITU

4. AN RT; KNITU

Type:

Article

eLocation:

Status:

Published

Received:

19.04.2023

Accepted:

01.08.2025

Published:

01.08.2025

Subject area:

UDC 541.12.011

Language:

Russian

Keywords:

замыкание термодинамики, принципы замыкания термодинамики, самоподобие при приближении к хаотическому поведению, closure of thermodynamics, the principles of thermodynamics closure, self-similarity at the approach to the chaotic behavior

Abstract and keywords

Abstract (English):
We consider the third law, together with the first law and the principle of reversibility to define the analytical closure of Lennard-Jones fluids. The research is based on the methods of nonlinear dynamics with a simple mathematical model for self-similarity found under approaching the chaotic behavior, including the condition quite far from the critical point.

Keywords:
замыкание термодинамики, принципы замыкания термодинамики, самоподобие при приближении к хаотическому поведению, closure of thermodynamics, the principles of thermodynamics closure, self-similarity at the approach to the chaotic behavior

References

1. A.V. Klinov, S.A. Kazancev, G.S. D'yakonov, S.G. D'yakonov, Vestn. Kazan. tehnol. un-ta, 13, 1, 10-17 (2010);

2. M. Shreder, Fraktaly, haos, stepennye zakony. RHD, Izhevsk, 2001. 528 s.;

3. S. de Groot, P. Mazur, Neravnovesnaya dinamika. Mir, Moskva, 1964. 456 s.;

4. R. Kubo, Statisticheskaya mehanika. Mir, Moskva, 1967. 452 s.;

5. G.K. D'yakonov, Voprosy teorii podobiya v oblasti fiziko-himicheskih processov. Akademiya nauk, Moskva, 1956. 206 s.;

6. S.P. Kuznecov, Dinamicheskiy haos. Fizmalit, Moskva, 2001. 296 s.;

7. J. Johnson , J. Zollweg, K. Gubbins, Mol. Phys., 78, 3, 591-618 (1993).

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