### Skapa referens, olika format (klipp och klistra)

**Harvard**

Karlsson, T. (2005) *Comparison of flow fields of a pure fluid and a zeotropic mixture for condensation in a shell-and-tube condenser*.

** BibTeX **

@conference{

Karlsson2005,

author={Karlsson, Tord},

title={Comparison of flow fields of a pure fluid and a zeotropic mixture for condensation in a shell-and-tube condenser},

booktitle={Proceedings of International energy agency heat pump conference, May 30 to June 2 2005, Ceasars Palace, Las Vegas, USA},

pages={Paper P6-5},

abstract={Condensation of a pure refrigerant and a zeotropic refrigerant mixture in a shell-and-tube condenser is investigated in an advanced calculation model based on a developed condensation routine coupled to a commercial CFD program. The aim of the investigation is to make a three-dimensional calculation model for mixture condensation, and to see if previous results from 2D calculations also can be seen in 3D calculations, namely a significant difference between the flow fields of a pure fluid and a mixture. The calculation results presented here show the same tendencies as 2D calculations in the earlier work. The flow field of the mixture is much more complex than that of the pure refrigerant. Large vortexes arise, starting at the top of the shell, going down along the shell and into the tube bundle from below. Vapour is therefore mainly fed from below, causing a counterflow between vapour and condensate. A well-mixed condensate, which here is an unfavourable situation, results in a performance 30 % lower compared to the case where the condensate phase is unmixed. The latter is normally considered to be the inferior case.},

year={2005},

keywords={condensation, zeotropic, mixture, flow field, CFD, shell-and-tube.},

}

** RefWorks **

RT Conference Proceedings

SR Print

ID 10838

A1 Karlsson, Tord

T1 Comparison of flow fields of a pure fluid and a zeotropic mixture for condensation in a shell-and-tube condenser

YR 2005

T2 Proceedings of International energy agency heat pump conference, May 30 to June 2 2005, Ceasars Palace, Las Vegas, USA

SP 6

AB Condensation of a pure refrigerant and a zeotropic refrigerant mixture in a shell-and-tube condenser is investigated in an advanced calculation model based on a developed condensation routine coupled to a commercial CFD program. The aim of the investigation is to make a three-dimensional calculation model for mixture condensation, and to see if previous results from 2D calculations also can be seen in 3D calculations, namely a significant difference between the flow fields of a pure fluid and a mixture. The calculation results presented here show the same tendencies as 2D calculations in the earlier work. The flow field of the mixture is much more complex than that of the pure refrigerant. Large vortexes arise, starting at the top of the shell, going down along the shell and into the tube bundle from below. Vapour is therefore mainly fed from below, causing a counterflow between vapour and condensate. A well-mixed condensate, which here is an unfavourable situation, results in a performance 30 % lower compared to the case where the condensate phase is unmixed. The latter is normally considered to be the inferior case.

LA eng

OL 30