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Phase Diagram of the Xe–H2O System up to 15 kbar (1997)

Dyadin, Yu A. ; Larionov, E.G. ; Mirinskij, D.S. ; [et al.]

Springer

Journal of inclusion phenomena and macrocyclic chemistry 28 (1997), S. 271-285

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ISSN: 1573-1111

Keywords: Xenon hydrate ; high pressure ; phase diagram ; clathrate hydrate ; gas hydrate

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The phase equilibria in the Xe–H2O system have been studied by the DTA technique under hydrostatic pressures up to 15 000 bar in a temperature range from -25 °C to 100 °C. We have shown that the cubic structure I xenon hydrate forming at ambient pressure does not undergo any phase transitions under the conditions studied. The temperature of its decomposition into water solution and gas (fluid) increases from 27 °C at 25 bar to 78.2 °C at 6150 bar. At higher pressures the hydrate decomposes into water solution and solid xenon. In the temperature range from 6800 to 9500 bar the decomposition temperature (79.0–79.5 °C) is practically independent of pressure, while further pressure increase results in a slow decrease to 67 °C at 15 000 bar.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1007911123739

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Clathrate formation in binary aqueous systems with CH2Cl2, CHCl3 and CCl4 at high pressures (1990)

Dyadin, Yu. A. ; Zhurko, F. V. ; Mikina, T. V. ; [et al.]

Springer

Journal of inclusion phenomena and macrocyclic chemistry 9 (1990), S. 37-49

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ISSN: 1573-1111

Keywords: High pressure ; clathrate formation ; clathrate hydrate ; phase diagrams

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract P,T,X phase diagrams of the CH2Cl2-H2O, the CHCl3-H2O and the CCl4-H2) systems have been studied by DTA in the pressure range 10−3 to 5.0 kbar. Under pressure the cubic structure II (CS-II) hydrates forming in all the systems are replaced by hydrates with the composition M·7.3 H2O whose stoichiometry and positive dT/dP values of melting lead us to believe that they are CS-I hydrates. In the CH2Cl2 and CHCl3 systems the nonvariant point coordinates of the hydrate transformationQ 2 h (l1h17h7l2, where l1 and l2 are liquid phases abundant in water and hydrate former, respectively, h17 and h7 are hydrates with hydrate numbers 17 and 7, respectively) areP = 0.6 kbar, T = −1.5°C andP =2.65 kbar,T = −10.5°C, respectively. In the CCl4 system the 4-phaseQ 3 h point (l1h17h7s, where ‘s’ is crystalline CCl4) has coordinatesP = 0.75 kbar and T = 0.4°C. The main obstacle of the present study, the very slow achievement of equilibrium, has been eliminated by adding small amounts (0.25% by mass) of surfactants followed by ultrasonic mixing. We have shown that this accelerates the achievement of equilibrium without changing its position.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01133502

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