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Numerical Implementation and Oceanographic Application of the Thermodynamic Potentials of Liquid Water, Water Vapour, Ice, Seawater and Humid Air – Part 2: the Library Routines : Volume 6, Issue 3 (16/07/2010)

By Wright, D. G.

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Book Id: WPLBN0004020472
Format Type: PDF Article :
File Size: Pages 24
Reproduction Date: 2015

Title: Numerical Implementation and Oceanographic Application of the Thermodynamic Potentials of Liquid Water, Water Vapour, Ice, Seawater and Humid Air – Part 2: the Library Routines : Volume 6, Issue 3 (16/07/2010)  
Author: Wright, D. G.
Volume: Vol. 6, Issue 3
Language: English
Subject: Science, Ocean, Science
Collections: Periodicals: Journal and Magazine Collection (Contemporary), Copernicus GmbH
Historic
Publication Date:
2010
Publisher: Copernicus Gmbh, Göttingen, Germany
Member Page: Copernicus Publications

Citation

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Jackett, D. R., Feistel, A., Overhoff, U., Marion, G. M., Wagner, W., Feistel, R.,...Wright, D. G. (2010). Numerical Implementation and Oceanographic Application of the Thermodynamic Potentials of Liquid Water, Water Vapour, Ice, Seawater and Humid Air – Part 2: the Library Routines : Volume 6, Issue 3 (16/07/2010). Retrieved from http://hawaiilibrary.net/


Description
Description: Bedford Institute of Oceanography, Dartmouth, NS, B2Y 4A2, Canada. The SCOR/IAPSO1 Working Group 127 on Thermodynamics and Equation of State of Seawater has prepared recommendations for new methods and algorithms for numerical estimation of the the thermophysical properties of seawater. As an outcome of this work, a new International Thermodynamic Equation of Seawater (TEOS–10) was endorsed by IOC/UNESCO2 in June 2009 as the official replacement and extension of the 1980 International Equation of State, EOS-80. As part of this new standard a source code package has been prepared that is now made freely available to users via the World Wide Web. This package includes two libraries referred to as the SIA (Sea-Ice-Air) library and the GSW (Gibbs SeaWater) library. Information on the GSW library may be found on the TEOS-10 web site (http://www.TEOS-10.org). This publication provides an introduction to the SIA library which contains routines to calculate various thermodynamic properties as discussed in the companion paper. The SIA library is very comprehensive, including routines to deal with fluid water, ice, seawater and humid air as well as equilibrium states involving various combinations of these, with equivalent code developed in different languages. The code is hierachically structured in modules that support (i) almost unlimited extension with respect to additional properties or relations, (ii) an extraction of self-contained sub-libraries, (iii) separate updating of the empirical thermodynamic potentials, and (iv) code verification on different platforms and between different languages. Error trapping is implemented to identify when one or more of the primary routines are accessed significantly beyond their established range of validity. The initial version of the SIA library is available in Visual Basic and FORTRAN as a supplement to this publication and updates will be maintained on the TEOS-10 web site.

1SCOR/IAPSO: Scientific Committee on Oceanic Research/International Association for the Physical Sciences of the Oceans
2IOC/UNESCO: Intergovernmental Oceanographic Commission/United Nations Educational, Scientific and Cultural Organization


Summary
Numerical implementation and oceanographic application of the thermodynamic potentials of liquid water, water vapour, ice, seawater and humid air – Part 2: The library routines

Excerpt
Dauphinee, T. M.: Introduction to the special issue on the Practical salinity Scale 1978, IEEE J. Oceanic Eng., OE-5, 1–2, 1980.; Feistel, R.: A new extended Gibbs thermodynamic potential of seawater, Progr. Oceanogr., 58, 43–115, 2003.; Feistel, R.: Numerical implementation and oceanographic application of the Gibbs thermodynamic potential of seawater, Ocean Sci., 1, 9–16, doi:10.5194/os-1-9-2005, 2005.; Feistel, R.: A Gibbs Function for Seawater Thermodynamics for −6 to 80 °C and Salinity up to 120 g/kg, Deep-Sea Res. Pt. I, 55, 1639–1671, 2008.; Feistel, R.: Extended Equation of State for Seawater at Elevated Temperature and Salinity, Desalination, 250, 14–18, 2010.; Feistel, R. and Wagner, W.: High-pressure thermodynamic Gibbs functions of ice and sea ice, J. Mar. Res., 63, 95–139, 2005.; Feistel, R. and Wagner, W.: A new equation of state for H2O ice Ih, J. Phys. Chem. Ref. Data, 35, 1021–1047, 2006.; Feistel, R. and Wagner, W.: Sublimation pressure and sublimation enthalpy of H2O ice Ih between 0 and 273.16 K, Geochim. Cosmochim. Ac., 71, 36–45, 2007.; Feistel, R., Wagner, W., Tchijov, V., and Guder, C.: Numerical implementation and oceanographic application of the Gibbs potential of ice, Ocean Sci., 1, 29–38, doi:10.5194/os-1-29-2005, 2005.; Feistel, R., Weinreben, S., Wolf, H., Seitz, S., Spitzer, P., Adel, B., Nausch, G., Schneider, B., and Wright, D. G.: Density and Absolute Salinity of the Baltic Sea 2006-�2009, Ocean Sci., 6, 3–24, doi:10.5194/os-6-3-2010, 2010a.; Feistel, R., Wright, D. G., Jackett, D. R., Miyagawa, K., Reissmann, J. H., Wagner, W., Overhoff, U., Guder, C., Feistel, A., and Marion, G. M.: Numerical implementation and oceanographic application of the thermodynamic potentials of liquid water, water vapour, ice, seawater and humid air �- Part 1: Background and equations, Ocean Sci., 6, 633–677, doi:10.5194/os-6-633-2010, 2010b.; Feistel, R., Wright, D. G., Kretzschmar, H.-J., Hagen, E., Herrmann, S., and Span, R.: Thermodynamic properties of sea air, Ocean Sci., 6, 91–141, doi:10.5194/os-6-91-2010, 2010c.; Feistel, R., Wright, D. G., Miyagawa, K., Harvey, A. H., Hruby, J., Jackett, D. R., McDougall, T. J., and Wagner, W.: Mutually consistent thermodynamic potentials for fluid water, ice and seawater: a new standard for oceanography, Ocean Sci., 4, 275–291, doi:10.5194/os-4-275-2008, 2008.; Harvey, A. H. and Huang, P. H.: First-Principles Calculation of the Air-Water Second Virial Coefficient, Int. J. Thermophys., 28, 556–565, 2007.; Hyland, R. W. and Wexler, A.: Formulations for the thermodynamic properties of dry air from 173.15 K to 473.15 K, and of saturated moist air from 173.15 K to 372.15 K, at pressures up to 5 MPa, ASHRAE Transact., 89, 520–535, 1983.; IAPWS: Revised Release on the IAPWS Industrial Formulation 1997 for the Thermodynamic Properties of Water and Steam, The International Association for the Properties of Water and Steam, August 2007, available at: http://www.iapws.org, , Lucerne, Switzerland, 2007.; IAPWS: Release on the IAPWS Formulation 2008 for the Thermodynamic Properties of Seawater, The International Association for the Properties of Water and Steam, September 2008, available at: http://www.iapws.org, , Berlin, Germany, 2008a.; IAPWS: Revised Release on the Pressure along the Melting and Sublimation Curves of Ordinary Water Substance, The International Association for the Properties of Water and Steam, September 2008, available at: http://www.iapws.org, , Berlin, Germany, 2008b.; IAPWS: Revised Release on the IAPWS Formulation 1995 for the Thermodynamic Properties of Ordinary Water Substance for General and Scientific Use, The International Association for the Properties of Water and Steam, September 2009, available at:

 

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