Detail publikačního výsledku

Solving Practical Industrial Problems in Two Phase Multicomponent Mixture Flow - Critical Velocity

STEHLÍK, P.; ZACHOVAL, J.; ODSTRČIL, M.; KOHOUTEK, J.

Originální název

Solving Practical Industrial Problems in Two Phase Multicomponent Mixture Flow - Critical Velocity

Anglický název

Solving Practical Industrial Problems in Two Phase Multicomponent Mixture Flow - Critical Velocity

Druh

Článek recenzovaný mimo WoS a Scopus

Originální abstrakt

A method for an evaluation of the critical velocity in case of two (vapor-liquid) phase mixtures transported in pipelines was developed. This method is based on a theoretical background of complex hydrocarbon mixture thermodynamics with respect to the application in petrochemical industry. Methods published so far are focused on applications in power industry where water-steam two-phase system is considered. The method presented allows to calculate pressure drop, velocity and temperature profiles for two-phase complex hydrocarbon systems and to identify the critical flow presence. In this method the critical condition means a singular discontinuity where the finite pressure and/or velocity change corresponds to an infinitesimal change in space coordinate. An example of applying the method in case of furnace-to-distillation column transfer line is shown. It can be observed that using this method can be considered as a contribution to solving practical industrial cases. This method was verified in the industrial practice for a long time, and satisfying results were obtained.

Anglický abstrakt

A method for an evaluation of the critical velocity in case of two (vapor-liquid) phase mixtures transported in pipelines was developed. This method is based on a theoretical background of complex hydrocarbon mixture thermodynamics with respect to the application in petrochemical industry. Methods published so far are focused on applications in power industry where water-steam two-phase system is considered. The method presented allows to calculate pressure drop, velocity and temperature profiles for two-phase complex hydrocarbon systems and to identify the critical flow presence. In this method the critical condition means a singular discontinuity where the finite pressure and/or velocity change corresponds to an infinitesimal change in space coordinate. An example of applying the method in case of furnace-to-distillation column transfer line is shown. It can be observed that using this method can be considered as a contribution to solving practical industrial cases. This method was verified in the industrial practice for a long time, and satisfying results were obtained.

Klíčová slova v angličtině

Critical velocity, Two-phase Multicomponent Mixture Flow

Autoři

STEHLÍK, P.; ZACHOVAL, J.; ODSTRČIL, M.; KOHOUTEK, J.

Vydáno

01.01.2001

Nakladatel

Taylor & Francis

ISSN

0145-7632

Periodikum

HEAT TRANSFER ENGINEERING

Svazek

22

Číslo

1

Stát

Spojené státy americké

Strany od

32

Strany do

40

Strany počet

9

BibTex

@article{BUT40581,
  author="Petr {Stehlík} and Jiří {Zachoval} and Miloslav {Odstrčil} and Josef {Kohoutek}",
  title="Solving Practical Industrial Problems in Two Phase Multicomponent Mixture Flow - Critical Velocity",
  journal="HEAT TRANSFER ENGINEERING",
  year="2001",
  volume="22",
  number="1",
  pages="32--40",
  issn="0145-7632"
}