Flooding process analysis by 13C cryogenic separation column

Flooding process analysis by 13C cryogenic separation column

The applications of stable isotopes from different chemical elements are well-known. Based on specific properties, a great diversity of isotope concentration (separation) methods have been developed, one of them being the cryogenic separation for ( 13 C). After a short description of the separation...

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Hauptverfasser: Festila, C., Pop, C.I., Dulf, E.H., Baldea, A., Gligan, M.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Boilers
cryogenic isotope separation
Distillation equipment
Equations
Evolution (biology)
flooding analysis and simulation
Floods
hydrodynamic model
Isotopes
Mathematical model
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creator Festila, C.
Pop, C.I.
Dulf, E.H.
Baldea, A.
Gligan, M.
description The applications of stable isotopes from different chemical elements are well-known. Based on specific properties, a great diversity of isotope concentration (separation) methods have been developed, one of them being the cryogenic separation for ( 13 C). After a short description of the separation equipment (separation column), the authors deal with the arising of the flooding process. Based on simplified equations, the evolution of an intended flooding is studied, divided in more stages: normal mode of operation, pre-flooding, ldquodischargerdquo period, flooding period and flooding damping. The next step of study will analyze the possibilities to avoid the flooding process.
doi_str_mv 10.1109/AQTR.2008.4588801
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Based on specific properties, a great diversity of isotope concentration (separation) methods have been developed, one of them being the cryogenic separation for ( 13 C). After a short description of the separation equipment (separation column), the authors deal with the arising of the flooding process. Based on simplified equations, the evolution of an intended flooding is studied, divided in more stages: normal mode of operation, pre-flooding, ldquodischargerdquo period, flooding period and flooding damping. The next step of study will analyze the possibilities to avoid the flooding process.</abstract><pub>IEEE</pub><doi>10.1109/AQTR.2008.4588801</doi></addata></record>
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source IEEE Electronic Library (IEL) Conference Proceedings
subjects Boilers
cryogenic isotope separation
Distillation equipment
Equations
Evolution (biology)
flooding analysis and simulation
Floods
hydrodynamic model
Isotopes
Mathematical model
title Flooding process analysis by 13C cryogenic separation column
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