Phase Transitions and the Phase Diagrams
DOI: 10.54647/chemistry15237 92 Downloads 5407 Views
Author(s)
Abstract
A phase diagram is a graphical representation of the physical states of a substance under different pressure and temperature conditions based on experimental data. Generally, pressure-temperature (p-T) diagrams under constant volume (V) are preferred for simplicity and easy understanding. The positions of solid, liquid and gas phases, equilibrium lines between phases, the triple point where these lines intersect (trp) and the critical point (Tcr, Pcr, ρcr) where the liquid-gas equilibrium line ends are located in the p-T diagram of one-component substances. The positions of the triple point and the critical point vary depending on the material taken. In contrast, conventional phase diagrams do not have a position showing the plasma phase, which makes up 95-98% of the universe. In other words, the boundary lines between solid, liquid and gas phases and plasma are not determined. In addition, the ending position of the solid-liquid equilibrium curve, whose beginning is known at the triple point, and the uncertainty of the liquid phase continue.
In this study, the metastable state of benzene at high pressure and temperature was examined and a critical pressure point (pcr) was determined on the melting equilibrium curve. In addition, with the application of the thermodynamic geometry system and the evaluation of the axiomatic method, the melting equilibrium curves of many organic and inorganic substances ending with a critical point has been shown. Location of plasma in single component system p-T phase diagram determined and modeled considering benzene atom.
Keywords
Critical temperature, critical pressure, liquid phase, axiogeometry, benzene
Cite this paper
Beycan İbrahimoglu, Beycan İbrahimoglu Jr., Eda Bolayır,
Phase Transitions and the Phase Diagrams
, SCIREA Journal of Chemistry.
Volume 6, Issue 2, April 2021 | PP. 54-73.
10.54647/chemistry15237
References
[ 1 ] | Bedjan İbrahimoğlua;,T. Nejat Veziroğlub , Aydın Huseynovc, Study of thermodynamic parameters of hydrogen gas by grapho-analytic method, International Journal of Hydrogen Energy 30 (2005) 515–519. |
[ 2 ] | B. İbrahimoglu, N. Veziroglu ve A. Hüseynov, Schur, D., (2004), Study of thermodynamic parameters of hydrogen gas by grapho- analytic method. Hydrogen Materials Science and Chemistry of Carbon Nanomaterials, S. 225–232. |
[ 3 ] | Beycan İbrahimoğlu, Çiğdem Kanbeş Dindar, Hazal Erol, Salih Karasarı, Determination of 1/V-T (P, constant) Diagrams of Hydrogen Gases By Graph-Analytical Methods, Journal of Thermal Engineering, Vol. 3, No. 1, pp. 1071-1077, January, 2017, Manuscript Received 29 December. |
[ 4 ] | Beycan Ibrahimoglu, Gözde Tekeli, Zeki Yılmazoglu, Sinem Yurt, "Investigation of Hydrogen Gas with Graphical Method", 4th International Hydrogen Technologies Congress (IHTEC-2019), Edirne, June 20-23, 2019. |
[ 5 ] | B.I.Farzaliev., A.M.Ragimov, A.T. Hajiyev. Graphical definition of the parameters of the triple equilibrium point. UDC 533.77. "OIL AND GAS" 24. June 1985. Baku, Azerbaijan). |
[ 6 ] | Farzaliev B.I, Aliev N.F., Determination of gases by graphical analytic method. Proceedings of a Scientific Conference Az TU, Baku, 1992. P. 21 (Russian). |
[ 7 ] | Ibrahimoglu B., Grafoanalytical of Critical Pressure in Gas. Finding with the method, vol. 17, 2. Ankara: Journal of Turkish Journal of Science and Technology of Turk; 1994. |
[ 8 ] | Ibrahimoglu B.İ, Ataer O.E., Determination of a Node on the Melting Curve, ULIBTK-97,11 th National Congress of Business Science and Technology, Edirne,1997.P.33. |
[ 9 ] | Beycan İbrahimoğlu., Beycan İbrahimoğlu Determination of Liquid Phase Range of Matters by Graphic-Analytical Method. SSRG International Journal of Thermal Engineering (SSRG – IJTE ) Volume 4 Issue 2 May to Aug 2018. |
[ 10 ] | Beycan Ibrahimoglu1 , Gozde Tekeli . Application of graphic and graphic-analytic geometry systems on the liquid and gas phases of matter . Научно-технический сборник · ВЕСТИ ГАЗОВОЙ НАУКИ. 163-171. УДК 544.015:514.12.Moskov. |
[ 11 ] | Guseunov S.O., Farzaliev B.I. Naziyev Y.M. The density and dynamic viscosity of benzonitrile at high pressures and temperatures. Known to universities in the USSR."OİL and GAS" 1978.12.pages 48. |
[ 12 ] | Guseunov S.O.,Farzaliev B.I. Naziyev Y.M. Investigation of dynamic viscosity of O-Methylanil at high pressure and temperature..Known to universities in the USSR. "OIL and GAS" 1979.7. pages 52. |
[ 13 ] | Guseinov S.O., Farzaliev B.I. Investigation of the density and dynamic viscosity of a P-toloudine under high pressures and temperatures.Known universities in the USSR."Oil and Gas" 1981 6.p.65-68. |
[ 14 ] | Naziyev Y.M.Guseynov S.O. und B.İ.Farzaliev. Untersuchungen zur Dichte und dynamischen viskositat dev o-m und p-toluidine bei hohen Drücken und verschiedenen temperaturen. Chemische technik 35Jg. hefr 1.Januar 1983.s.-40 42. |
[ 15 ] | Григорьев Б. А. Теплофизические свойства углеводородов нефти, газовых конденсатов, природного и сопутствующих газов: в 2 т. / Б.А. Григорьев, А.А. Герасимов, И.С. Александров; под общ. ред. Б.А. Григорьева. — М.: Издательский дом МЭИ, 2019. Т. 1. — 735с. |
[ 16 ] | Mustapha Azreg-A¨ınou, Beycan Ibrahimoglu. High-pressure effects on the benzene pre-crystallizationmetastable states. |
[ 17 ] | İbrahimoğlu B., Karakaya F., Gasimova T., ‘Super Phase Transition and Super Metastable State’, Chemical Physics, 2021, https://doi.org/10.1016/j.chemphys.2021.111318 |
[ 18 ] | V. D. Alexandrov,. B.Ibrahimoğlu, A. E. Pokintelitsa, Pressure Falling Effects Accompanying Phase Transitions of Benzene Under The Accesion of Comprehensive Compression 541.64: 542.62: 546.23 Modern Building Materials Edition 2015 1 (111) Ukraina |
[ 19 ] | B.Ibrahimogly, Chidem Kanbesh, I.M.Ahmedov PHASE TRANSFORMATIONS OF BENZENE IN TERMS OF LOW TEMPERATUES AND HIGH PRESSURES23, Chemistry Problems N4-2015,p 367-371 UDK-541,64; 546-13. Baku Azerbaijan |
[ 20 ] | Farzaliev B. I, Aliev N. F On benzene phase transitions at high pressures // Thermodynamic and transport properties. substances. Themed. Science. Work. - Baku, LzPy, 1989. - pp.61-65. |
[ 21 ] | S. Glasstone. (1948) Theoretical Chemistry. Boston College. New York. 632 p.. |
[ 22 ] | Benzen // Encyclopaedic Dictionary of Brockhaus and Ephron: 86 vols.– St.Pb, 1890-1907. [25] L. Ciabini. F.A. Gorelli. M. Santoro. R. Bini. V. Schettino. and M. Mezouar. (2005).Phys. Rev. B 72. 094108-1 . |
[ 23 ] | P.G. Debcnedetli. (1996) Metastable Liquids: Concepts and Principles (Priceton University Press. Priceton. NJ.). |
[ 24 ] | M. Azreg-Aїnou. A. Hüseynov. B. Ibrahimoğlu. (2006).Phase equilibrium and metastability of liquid benzene at high pressures // J. of Chemical Physics. 124. 204505 . |
[ 25 ] | Crystal Growth of Electronic Materials, edited by E. Kaldis _North-Holland, Amsterdam, 1985. [29] B. İbrahimoğlu, Y. M. Naziyev, and N. F. Aliyev, Contribution to the Scientific and Technical Congress on Heat Processes, Baku, Azerbaijan, 1992 unpublished. |
[ 26 ] | V.D.Alexandrov. (2011) Kinetics of Nucleation and Mass Crystallization of an Overcooled Liquid and Amorphous Media. – Donetsk: Donbas – 592 p. |
[ 27 ] | V.D.Alexandrov, V.A.Postnikov. (2004) Investigation of overcoolings in benzene crystallization // Ukr. Chem.J., Vol. 70, No. 10. – P. 98-103. |
[ 28 ] | M. Azreg-Aїnou. A. Hüseynov. B. Ibrahimoğlu. (2006).Phase equilibrium and metastability of liquid benzene at high pressures // J. of Chemical Physics. 124. 204505 . |
[ 29 ] | P.W. Bridgman. (1964). Collected Experimental Papers. Harvard University Press, Cambridge, Massachusetts. |
[ 30 ] | V.P. Skripov. (2002). The concept of metastability and phase transitions. Thermo-physical properties of matter. No.10 |