The NIST ThermoData Engine (TDE) is a large electronic database containing experimental data with detailed descriptions of relevant metadata and uncertainties that incorporates expert-system software to automatically generate dynamically evaluated data and on-demand equations of state. In this study, we demonstrate how the concept of dynamic data evaluation within the NIST TDE can be used to generate equations of state (EOS) on demand, and give an example where the resulting EOS formulations for pure chemical compounds are used to develop a surrogate mixture model to represent the volatility behavior, as expressed by the distillation curve, of a synthetic paraffinic aviation fuel derived from biomass.
Description
Equations of State on Demand: Application for Surrogate Fuel Development - Springer
%0 Journal Article
%1 huber2011equations
%A Huber, MarciaL.
%A Bruno, ThomasJ.
%A Chirico, RobertD.
%A Diky, Vladimir
%A Kazakov, AndreiF.
%A Lemmon, EricW.
%A Muzny, ChrisD.
%A Frenkel, Michael
%D 2011
%I Springer US
%J International Journal of Thermophysics
%K 2011 NIST development equation-of-state
%N 3
%P 596-613
%R 10.1007/s10765-010-0909-3
%T Equations of State on Demand: Application for Surrogate Fuel Development
%U http://dx.doi.org/10.1007/s10765-010-0909-3
%V 32
%X The NIST ThermoData Engine (TDE) is a large electronic database containing experimental data with detailed descriptions of relevant metadata and uncertainties that incorporates expert-system software to automatically generate dynamically evaluated data and on-demand equations of state. In this study, we demonstrate how the concept of dynamic data evaluation within the NIST TDE can be used to generate equations of state (EOS) on demand, and give an example where the resulting EOS formulations for pure chemical compounds are used to develop a surrogate mixture model to represent the volatility behavior, as expressed by the distillation curve, of a synthetic paraffinic aviation fuel derived from biomass.
@article{huber2011equations,
abstract = {The NIST ThermoData Engine (TDE) is a large electronic database containing experimental data with detailed descriptions of relevant metadata and uncertainties that incorporates expert-system software to automatically generate dynamically evaluated data and on-demand equations of state. In this study, we demonstrate how the concept of dynamic data evaluation within the NIST TDE can be used to generate equations of state (EOS) on demand, and give an example where the resulting EOS formulations for pure chemical compounds are used to develop a surrogate mixture model to represent the volatility behavior, as expressed by the distillation curve, of a synthetic paraffinic aviation fuel derived from biomass.},
added-at = {2012-12-26T13:02:07.000+0100},
author = {Huber, MarciaL. and Bruno, ThomasJ. and Chirico, RobertD. and Diky, Vladimir and Kazakov, AndreiF. and Lemmon, EricW. and Muzny, ChrisD. and Frenkel, Michael},
biburl = {https://www.bibsonomy.org/bibtex/22c41cea152fceaff8214b13931ce0489/thorade},
description = {Equations of State on Demand: Application for Surrogate Fuel Development - Springer},
doi = {10.1007/s10765-010-0909-3},
interhash = {390ae0cf49ed1a9fbdaa124ce5b24028},
intrahash = {2c41cea152fceaff8214b13931ce0489},
issn = {0195-928X},
journal = {International Journal of Thermophysics},
keywords = {2011 NIST development equation-of-state},
language = {English},
number = 3,
pages = {596-613},
publisher = {Springer US},
timestamp = {2012-12-26T13:02:07.000+0100},
title = {Equations of State on Demand: Application for Surrogate Fuel Development},
url = {http://dx.doi.org/10.1007/s10765-010-0909-3},
volume = 32,
year = 2011
}