New global communication process in thermodynamics and its impact on quality of published experimental data
Frenkel, M., Chirico, R.D., Diky, V.V., Muzny, C.D., Dong, Q., Marsh, K.N., Dymond, J.H., Wakeham, W.A., Stein, W.A., Königsberger, E., Goodwin, A.R.H., Magee, J.W., Thijssen, M.S., Haynes, W.M., Watanasiri, S., Satyro, M., Schmidt, M., Johns, A.I. and Hardin, G.R. (2007) New global communication process in thermodynamics and its impact on quality of published experimental data. In: 233rd ACS National Meeting, 25 - 29 March, Chicago, IL.
Thermodynamic data are a key resource in the search for new relationships between properties of chemical systems that constitutes the basis of the scientific discovery process. In addition, thermodynamic information is critical for development and improvement of all chemical process technologies. Historically, peer-reviewed journals are the major source of this information obtained by experimental measurement or prediction. Technological advances in measurement science have propelled enormous growth in the scale of published thermodynamic data (almost doubling every 10 years). This expansion has created new challenges in data validation at all stages of the data delivery process. Despite the peer-review process, problems in data validation have led, in many instances, to publication of data that are grossly erroneous and, at times, inconsistent with the fundamental laws of nature. A new global data communication process in thermodynamics and its impact in addressing these challenges, as well as in streamlining the delivery of the thermodynamic data from “data producers” to “data users” will be discussed.
|Publication Type:||Conference Paper|
|Murdoch Affiliation:||School of Chemical and Mathematical Science|
|Publisher:||American Chemical Society|
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