Flash calculations with specified entropy and stagnation enthalpy

Finding the properties of a stream leaking from a pressure vessel, assuming it is in thermodynamic equilibrium, requires the solution of a phase equilibrium problem with known values of component amounts, entropy, and stagnation enthalpy. If part of dynamic simulations of leaking vessels, these calc...

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Vydané v:Fluid phase equilibria Ročník 408; s. 196 - 204
Hlavní autori: Castier, Marcelo, Kanes, Rym, Véchot, Luc N.
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier B.V 01.01.2016
Predmet:
Algorithms
Dynamics
Enthalpy
Entropy
Flash calculation
Isentropic process
Leaks
Mathematical analysis
Nested loops
Phase boundaries
Stagnation
Stagnation enthalpy
Venting
Venting
Isentropic process
Flash calculation
Stagnation enthalpy
Leaks
ISSN:0378-3812, 1879-0224
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Shrnutí:Finding the properties of a stream leaking from a pressure vessel, assuming it is in thermodynamic equilibrium, requires the solution of a phase equilibrium problem with known values of component amounts, entropy, and stagnation enthalpy. If part of dynamic simulations of leaking vessels, these calculations need to be executed hundreds or thousands of times. Ideally, they should be fast and never fail, even when executed for difficult conditions, such as high pressure systems close to phase boundaries or to critical points. This paper proposes a single loop algorithm to solve flash problems with specified values of entropy and stagnation enthalpy. The results show that it is much faster than a nested loop algorithm for the same purpose, but occasionally fails to converge especially very close to phase boundaries. The nested loop algorithm succeeded in these situations however at large computational cost because of multiple phase additions and removals during the course of the iterations. A satisfactory balance of speed and reliability was obtained by favoring the single loop algorithm but, when it fails, using the nested loop algorithm as a backup procedure.
Bibliografia:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0378-3812
1879-0224
DOI:10.1016/j.fluid.2015.09.006