http://www.sklogwiki.org/SklogWiki/index.php?action=history&feed=atom&title=ThermoMLThermoML - Revision history2026-04-26T10:23:32ZRevision history for this page on the wikiMediaWiki 1.41.0http://www.sklogwiki.org/SklogWiki/index.php?title=ThermoML&diff=9399&oldid=prevCarl McBride: New page: '''ThermoML''' is an XML-based IUPAC standard for thermodynamic property data <ref>[http://dx.doi.org/10.1021/je025645o Michael Frenkel, Robert D. Chirico, Vladimir V. Diky, Qian Dong,Svet...2009-12-03T14:03:34Z<p>New page: '''ThermoML''' is an XML-based IUPAC standard for thermodynamic property data <ref>[http://dx.doi.org/10.1021/je025645o Michael Frenkel, Robert D. Chirico, Vladimir V. Diky, Qian Dong,Svet...</p>
<p><b>New page</b></p><div>'''ThermoML''' is an XML-based IUPAC standard for thermodynamic property data<br />
<ref>[http://dx.doi.org/10.1021/je025645o Michael Frenkel, Robert D. Chirico, Vladimir V. Diky, Qian Dong,Svetlana Frenkel, Paul R. Franchois, Dale L. Embry, Thomas L. Teague, Kenneth N. Marsh, and Randolph C. Wilhoit "ThermoMLAn XML-Based Approach for Storage and Exchange of Experimental and Critically Evaluated Thermophysical and Thermochemical Property Data. 1. Experimental Data", Journal of Chemical & Engineering Data '''48''' pp. 2-13 (2003)]</ref><br />
<ref>[http://dx.doi.org/10.1021/je034088i Robert D. Chirico, Michael Frenkel, Vladimir V. Diky, Kenneth N. Marsh, and Randolph C. Wilhoit "ThermoMLAn XML-Based Approach for Storage and Exchange of Experimental and Critically Evaluated Thermophysical and Thermochemical Property Data. 2. Uncertainties", Journal of Chemical & Engineering Data '''48''' pp. 1344-1359 (2003)]</ref><br />
<ref>[http://dx.doi.org/10.1021/je049890e Michael Frenkel, Robert D. Chirico, Vladimir V. Diky, Kenneth N. Marsh, John H. Dymond and William A. Wakeham "ThermoML - An XML-Based Approach for Storage and Exchange of Experimental and Critically Evaluated Thermophysical and Thermochemical Property Data. 3. Critically Evaluated Data, Predicted Data, and Equation Representation", Journal of Chemical & Engineering Data '''49''' pp. 381-393 (2004)]</ref><br />
<ref>[http://dx.doi.org/10.1351/pac200678030541 Michael Frenkel, Robert D. Chiroco, Vladimir Diky, Qian Dong, Kenneth N. Marsh, John H. Dymond, William A. Wakeham, Stephen E. Stein, Erich Königsberger, and Anthony R. H. Goodwin "XML-based IUPAC standard for experimental, predicted, and critically evaluated thermodynamic property data storage and capture (ThermoML) (IUPAC Recommendations 2006)", Pure and Applied Chemistry '''78''' pp. 541-612 (2006)]</ref>. <br />
ThermoML covers essentially all experimentally determined thermodynamic and transport property data (more than 120 properties) for pure compounds, [[Mixtures |multicomponent mixtures]], and chemical reactions (including change-of-state and equilibrium). Although the focus of ThermoML is properties determined by direct experimental measurement, ThermoML does cover key derived property data such as azeotropic properties, [[Henry's law]] constants, [[Virial equation of state |virial coefficients]] (for pure compounds and mixtures), activities and activity coefficients, fugacities and fugacity coefficients, and standard properties derived from high-precision adiabatic [[heat capacity]] calorimetry. <br />
==References==<br />
<references/><br />
==External links==<br />
*[http://old.iupac.org/namespaces/ThermoML/index.html IUPAC ThermoML page]<br />
*[http://trc.nist.gov/ThermoML.html ThermoML page on the NIST TRC Group page]<br />
[[category: miscellaneous]]</div>Carl McBride