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Search Publications by: Eric W. Lemmon (Fed)

Displaying 126 - 143 of 143

An International Standard Formulation for the Thermodynamic Properties of 1,1,1-Trifluoroethane (HFC-143a) for Temperatures from 161 to 450 K and Pressures to 50 Mpa

July 1, 2000

Author(s)

Eric W. Lemmon, R. T. Jacobsen

A new formulation is presented for the thermodynamic properties of refrigerant 143a (1,1,1-trifluoroethane, CH 3-CF 3) based upon available experimental data. The formulation can be used for the calculation of density, heat capacity, speed of sound, energy

Thermodynamic Properties of Air and Mixtures of Nitrogen, Argon, and Oxygen From 60 to 2000 K at Pressures to 2000 Mpa

May 1, 2000

Author(s)

Eric W. Lemmon, R. T. Jacobsen, S G. Penoncello, Daniel G. Friend

A thermodynamic property formulation for standard dry air based upon available experimental p-p-T, heat capacity, speed of sound, and vapor-liquid equilibrium data is presented. This formulation is valid for liquid, vapor, and supercritical air at

Critical Properties and Vapor Pressure Equation for Alkanes C n H 2n+2 : Normal Alkanes With {less then or equal to}36 and Isomers for n=4 Through n=9

February 1, 2000

Author(s)

Eric W. Lemmon, A R. Goodwin

A correlation for estimating the vapor pressure of normal alkanes from methane through n-hexatriacontane and isomers of butane to nonane is reported. This work extends the correlation for normal alkanes (C nH 2n+2 with n{less then or equal to} 20, reported

A Generalized Model for the Thermodynamic Properties of Mixtures|

December 1, 1999

Author(s)

Eric W. Lemmon, R T. Jacobsen

Thermodynamic Properties of Air from 60 to 2000 K at Pressures up to 2000 MPa

December 1, 1999

Author(s)

M D. Panasiti, Eric Lemmon, S G. Penoncello, R T. Jacobsen, Daniel G. Friend

Thermodynamic Properties of Mixtures of Refrigerants R-32, R-125, R-134a, and R-152a

December 1, 1999

Author(s)

Eric W. Lemmon, R T. Jacobsen

Thermodynamic Properties of Air from 60 to 2000 K at Pressures up to 2000 Mpa

October 1, 1999

Author(s)

M D. Panasiti, Eric Lemmon, S G. Penoncello, R. T. Jacobsen, Daniel G. Friend

A thermodynamic property formulation for standard dry air based upon experimental P-p-T, heat capactiy, and speed of sound data and predicted values, which extends the range of prior formulations to higher pressures and temperatures, is presented.

Thermophysical Property Computer Packages from NIST of Interest to the Natural Gas Industry

July 1, 1999

Author(s)

Marcia L. Huber, Daniel G. Friend, Eric W. Lemmon

We discuss three computerized databases distributed by the Standard Reference Data (SRD) program of NIST, which are of interest to the natural gas industry.

Review of Modeling Vapor-Liquid Equilibria - Cubic Equations of State and Their Mixing Rules by H. Orbey and S. Sandler for Cambridge University Press

March 1, 1999

Author(s)

Eric W. Lemmon

This is a book review. No abstract is available.

A Reference Quality Equation of State for Nitrogen

December 1, 1998

Author(s)

R. Span, Eric Lemmon, R T. Jacobsen, Wolfgang Wagner

Thermodynamic Properties for the Alternative Refrigerants

December 1, 1998

Author(s)

Mark O. McLinden, Eric W. Lemmon, R T. Jacobsen

NIST Standard Reference Database 23: NIST Thermodynamic and Transport Properties of Refrigerants and Refrigerant Mixtures-REFPROP, Version 6.0

September 1, 1998

Author(s)

Mark O. McLinden, S. A. Klein, Eric W. Lemmon, Adele P. Peskin

Thermodynamic Properties of Air at Pressures to 2000 MPa

August 1, 1998

Author(s)

William M. Haynes, Eric W. Lemmon, Daniel G. Friend, R Jacobsen

A new formulation for the thermodynamic properties of standard dry air at pressures to 2000 MPa has been developed. This formulation, which can be used at temperatures from the freezing liquid line to 2000 K, is based on comprehensive experimental

A Reference Quality Equation of State for Nitrogen

July 1, 1998

Author(s)

R Span, Eric Lemmon, R. T. Jacobsen, Wolfgang Wagner

A new formulation describing the thermodynamic properties of nitrogen has been developed. New data sets are now available which have been used to improve the representation of the 0-0-T surface of gaseous, liquid and supercritical nitrogen, including the

Thermodynamic Properties for the Alternative Refrigerants

June 1, 1998

Author(s)

Mark O. McLinden, Eric W. Lemmon, R. T. Jacobsen

Models commonly used to calculate the thermodynamic properties of refrigerants are summarized. For pure refrigerants, the virial, cubic, Martin-Hou, Benedict-Webb-Rubin, and Helmholtz equations of state and the extended corresponding states model are

Evaluation of Thermodynamic Property Models for Mixtures of R-32, R-125 and R-134a

January 1, 1998

Author(s)

Eric W. Lemmon

Five mixture models have been developed for calculating thermodynamic properties of refrigerant mixtures containing R-32, R-125m and R-134a. The models may be used to calculate thermodynamic properties of the mixtures over all compositions and single phase

A Formulation for the Static Permittivity of Water and Steam at Temperatures from 238 to 873 K at Pressures up to 1200 MPa, Including Derivatives and Debye-Hhckel Coefficients

December 1, 1997

Author(s)

D P. Fernandez, A R. Goodwin, Eric Lemmon, Jan V. Sengers

NIST Standard Reference Database 72: NIST Thermophysical Properties of Air and Air Component Mixtures, Version 1.0

December 1, 1997

Author(s)

Eric W. Lemmon

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