Tabulations at 1 K intervals from 1 K to 6000 K of the partition function and standard-state isobaric heat capacity, entropy, and enthalpy for the 12 natural isotopologues of CO2, along with their standard uncertainties. Calculations performed with a partition function constructed from spectroscopic and theoretical data as described in the Appendix of the paper by A.H. Harvey, S.A. Tashkun, and E.W. Lemmon, to be submitted to J. Phys. Chem. Ref. Data. Note that the model does not account for dissociation of the CO2 molecule, making the results incomplete above approximately 3500 K. Text files have numbers for the corresponding isotopologue, where 6, 7, and 8 stand for the oxygen isotopes 16-O, 17-O, and 18-O, and where 2 and 3 stand for the carbon isotopes 12-C and 13-C. Thus, 626 refers to the most abundant isotopologue with two 16-O atoms and one 12-C atom. The file CO2-total.txt has values of the isobaric heat capacity, entropy, and enthalpy, and their standard uncertainties, calculated by averaging the 12 isotopologues according to the natural isotopic abundances as given by IUPAC. These heat capacities were used for the CO2 equation of state presented in the abovementioned paper.
About this Dataset
Title | Ideal-gas Thermochemical Properties for Carbon Dioxide and its Isotopologues Calculated from Partition Functions |
---|---|
Description | Tabulations at 1 K intervals from 1 K to 6000 K of the partition function and standard-state isobaric heat capacity, entropy, and enthalpy for the 12 natural isotopologues of CO2, along with their standard uncertainties. Calculations performed with a partition function constructed from spectroscopic and theoretical data as described in the Appendix of the paper by A.H. Harvey, S.A. Tashkun, and E.W. Lemmon, to be submitted to J. Phys. Chem. Ref. Data. Note that the model does not account for dissociation of the CO2 molecule, making the results incomplete above approximately 3500 K. Text files have numbers for the corresponding isotopologue, where 6, 7, and 8 stand for the oxygen isotopes 16-O, 17-O, and 18-O, and where 2 and 3 stand for the carbon isotopes 12-C and 13-C. Thus, 626 refers to the most abundant isotopologue with two 16-O atoms and one 12-C atom. The file CO2-total.txt has values of the isobaric heat capacity, entropy, and enthalpy, and their standard uncertainties, calculated by averaging the 12 isotopologues according to the natural isotopic abundances as given by IUPAC. These heat capacities were used for the CO2 equation of state presented in the abovementioned paper. |
Modified | 2021-02-17 00:00:00 |
Publisher Name | National Institute of Standards and Technology |
Contact | mailto:[email protected] |
Keywords | carbon dioxide , heat capacity , enthalpy , entropy , ideal-gas properties , equation of state , partition function , thermochemistry |
{ "identifier": "ark:\/88434\/mds2-2364", "accessLevel": "public", "contactPoint": { "hasEmail": "mailto:[email protected]", "fn": "Allan H. Harvey" }, "programCode": [ "006:045" ], "landingPage": "https:\/\/data.nist.gov\/od\/id\/mds2-2364", "title": "Ideal-gas Thermochemical Properties for Carbon Dioxide and its Isotopologues Calculated from Partition Functions", "description": "Tabulations at 1 K intervals from 1 K to 6000 K of the partition function and standard-state isobaric heat capacity, entropy, and enthalpy for the 12 natural isotopologues of CO2, along with their standard uncertainties. Calculations performed with a partition function constructed from spectroscopic and theoretical data as described in the Appendix of the paper by A.H. Harvey, S.A. Tashkun, and E.W. Lemmon, to be submitted to J. Phys. Chem. Ref. Data. Note that the model does not account for dissociation of the CO2 molecule, making the results incomplete above approximately 3500 K. Text files have numbers for the corresponding isotopologue, where 6, 7, and 8 stand for the oxygen isotopes 16-O, 17-O, and 18-O, and where 2 and 3 stand for the carbon isotopes 12-C and 13-C. Thus, 626 refers to the most abundant isotopologue with two 16-O atoms and one 12-C atom. The file CO2-total.txt has values of the isobaric heat capacity, entropy, and enthalpy, and their standard uncertainties, calculated by averaging the 12 isotopologues according to the natural isotopic abundances as given by IUPAC. These heat capacities were used for the CO2 equation of state presented in the abovementioned paper.", "language": [ "en" ], "distribution": [ { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_737.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (13C)(17O)2", "mediaType": "text\/plain", "title": "737" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_738.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 738" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_738.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (13C)(17O)(18O)", "mediaType": "text\/plain", "title": "738" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_828.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 828" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_828.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (12C)(18O)2", "mediaType": "text\/plain", "title": "828" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_838.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 838" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_838.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (13C)(18O)2", "mediaType": "text\/plain", "title": "838" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/CO2-total.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for CO2-total" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/CO2-total.txt", "format": "Tab-separated text", "description": "Calculated ideal-gas thermochemical functions for CO2 of natural isotopic composition tabulated at 1 K intervals.", "mediaType": "text\/plain", "title": "CO2-total" }, { "accessURL": "https:\/\/doi.org\/10.18434\/mds2-2364", "title": "DOI Access for Ideal-gas Thermochemical Properties for Carbon Dioxide and its Isotopologues Calculated from Partition Functions" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_626.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 626" }, { "format": "tab-separated text file", "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_626.txt", "description": "Partition function and thermochemical functions for (12C)(16O)2", "mediaType": "text\/plain", "title": "626" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_627.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 627" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_627.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (12C)(16O)(17O)", "mediaType": "text\/plain", "title": "627" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_628.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 628" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_628.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (12C)(16O)(18O)", "mediaType": "text\/plain", "title": "628" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_636.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 636" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_636.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (13C)(16O)2", "mediaType": "text\/plain", "title": "636" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_637.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (13C)(16O)(17O)", "mediaType": "text\/plain", "title": "637" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_637.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 637" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_638.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 638" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_638.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (13C)(16O)(18O)", "mediaType": "text\/plain", "title": "638" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_727.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 727" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_727.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (12C)(17O)2", "mediaType": "text\/plain", "title": "727" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_728.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 728" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_728.txt", "format": "Tab-separated text", "description": "Partition function and thermochemical functions for (12C)(17O)(18O)", "mediaType": "text\/plain", "title": "728" }, { "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/mds2-2364\/tcfun_737.txt.sha256", "mediaType": "text\/plain", "title": "SHA256 File for 737" } ], "bureauCode": [ "006:55" ], "modified": "2021-02-17 00:00:00", "publisher": { "@type": "org:Organization", "name": "National Institute of Standards and Technology" }, "theme": [ "Chemistry:Theoretical chemistry and modeling", "Chemistry:Thermochemical properties", "Chemistry:Chemical thermodynamics and chemical properties" ], "keyword": [ "carbon dioxide", "heat capacity", "enthalpy", "entropy", "ideal-gas properties", "equation of state", "partition function", "thermochemistry" ] }