General Method for Predicting the Latent Heat of Vaporization

Fish, L.W.; Lielmezs, J.

doi:10.1021/i160055a019

Cited by 44 publications

(15 citation statements)

References 6 publications

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“…By elimination of H t in Eq. (5), applied at T = T b , we obtained H t = 366.6 kJ/mol, a reasonable value when compared with H b .…”

Section: An Universal Empirical Equation For the Enthalpy Of The Liqusupporting

confidence: 61%

“…The situation is different for enthalpies or entropies along the coexistence curve. Here there are correlations for organic and inorganic fluids and for metal and quantal liquids [4,5]. These quantities are of importance in processes where thermal energies of phase transition are required.…”

Section: Introductionmentioning

confidence: 99%

“…Empirical equations like that of Watson [4] or Fish and Lielmezs [5] use the critical temperature and the boiling temperature to construct different dimensionless temperatures. Following this line of reasoning, in the present work we propose an universal empirical equation for the enthalpy of vaporization that correlates the available experimental data.…”

Section: Introductionmentioning

confidence: 99%

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Universal behavior of the enthalpy of vaporization: an empirical equation

Meyra

Kuz

Zarragoicoechea

2004

Fluid Phase Equilibria

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“…By elimination of H t in Eq. (5), applied at T = T b , we obtained H t = 366.6 kJ/mol, a reasonable value when compared with H b .…”

Section: An Universal Empirical Equation For the Enthalpy Of The Liqusupporting

confidence: 61%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Universal behavior of the enthalpy of vaporization: an empirical equation

Meyra

Kuz

Zarragoicoechea

2004

Fluid Phase Equilibria

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“…T c , T b , h b , and d h b /dT are linked together by the Meyra et al [30] or Watson [31] equations, leading to the following form: On the other hand, Fish and Lielmezs [32] have worked on liquid metals and have extracted from experimental results a correlation which can be presented as follows, after some algebra: (4) where n = 0.20957 and m = -0.17464.…”

Section: Enthalpy Of Vaporizationmentioning

confidence: 99%

The Critical Temperature of Aluminum

2009

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The critical temperature, T c , of metals is a fundamental point when vaporization due to high energy exchanges occurs. Although aluminum is a metal often studied as a benchmark for theories, its critical temperature is not known with a high degree of accuracy. Its determination by experiment is difficult as a result of its high value. This paper reviews the existing data and proposes new ones resulting from recent measurements of particular physical properties and recent theoretical approaches. These new estimates lead to the recommended value of T c = (6700 ± 800) K.

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“…Because the boiling points of most of the alkali metals have been reliably determined, we feel that this relationship has a definite advantage over that used by Watson [10], Fish and Lielmezs [11], Meyra [12], Cordfunke,or Konings [13], where the critical temperatures must be used. Our equation is able to correlate the enthalpy of vaporization ( H v ) with less dispersion than that of Watson, Fish, or Meyra.…”

Section: Universal Behavior Of Enthalpy Of Vaporizationmentioning

confidence: 99%

Corresponding states theory and thermodynamic properties of liquid alkali metals

Mousazadeh

Khanchi

Marageh

2006

JICS

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According to phenomenological scaling and the law of corresponding states, reduced coordinates F * -T * , where F * represents the reduced thermodynamic properties (enthalpy of vaporization, speed of sound, surface tension, saturated liquid density) and T * is the reduced temperature, are introduced for the prediction of the thermodynamic properties of alkali metals. Values of the thermodynamic properties from the melting point up to boiling point are correlated. It has been shown that the correlation between reduced thermodynamic properties, as well as with the reduced temperature, can be expressed as a unique straight-line plot with a linear correlation coefficient of 0.9998. The proposed correlation has a simple form for easy calculation, requires only the melting and boiling point parameters, which are usually easy to acquire, and can predict the thermodynamic properties from the melting temperature up to the boiling temperature accurately.

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General Method for Predicting the Latent Heat of Vaporization

Cited by 44 publications

References 6 publications

Universal behavior of the enthalpy of vaporization: an empirical equation

Universal behavior of the enthalpy of vaporization: an empirical equation

The Critical Temperature of Aluminum

Corresponding states theory and thermodynamic properties of liquid alkali metals

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