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PUBLICATIONS

Correlation of the Thermal Conductivity of Normal and Parahydrogen from the Triple Point to 1000 K and up to 100 MPa

Published

Author(s)

Marc J. Assael, John-Alexander Assael, Marcia L. Huber, Richard A. Perkins, Yasayuki Takata

Abstract

The paper contains new, representative equations for the thermal conductivity of normal and parahydrogen. The equations are based in part upon a body of experimental data that has been critically assessed for internal consistency and for agreement with theory whenever possible. Although there are a sufficiently large number of data at normal temperatures, data at very low or very high temperatures as well as near the critical region are scarce. In the case of the zero-density thermal conductivity, a new theoretically based correlation was adopted, as it agreed very well with the existing data. Moreover in the critical region, the experimentally observed enhancement of the thermal conductivity is well represented by theoretically based equations containing just one adjustable parameter. The correlations are applicable for the temperature range from the triple point to 1000 K and pressures up to 100 MPa for normal hydrogen and parahydrogen.
Citation
J. Phys. & Chem. Ref. Data (JPCRD) -
Volume
40
Issue
3
NIST Pub Series
J. Phys. & Chem. Ref. Data (JPCRD)
Pub Type
NIST Pubs

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Keywords

hydrogen, critical phenomena, parahydrogen, thermal conductivity, transport properties
Thermochemical properties and Alternative energy

Citation

Assael, M. , Assael, J. , Huber, M. , Perkins, R. and Takata, Y. (2011), Correlation of the Thermal Conductivity of Normal and Parahydrogen from the Triple Point to 1000 K and up to 100 MPa, J. Phys. & Chem. Ref. Data (JPCRD), National Institute of Standards and Technology, Gaithersburg, MD, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=907928 (Accessed April 19, 2024)

Created July 25, 2011, Updated October 12, 2021