In-tube passive heat transfer enhancement in the process industry

L. Liebenberg, J. P. Meyer

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Enhanced heat transfer surfaces are used in heat exchangers to improve performance and to decrease system volume and cost. In-tube heat transfer enhancement usually takes the form of either micro-fin tubes (of the helical micro-fin or herringbone varieties), or of helical wire inserts. Despite a substantial increase in heat transfer, these devices also cause non-negligible pressure drops. By making use of the well-proven Thome flow pattern map for smooth tubes and the new ones of Liebenberg et al. and Tianfu et al. for enhanced tubes, it is shown from the refrigerant condensation data that flow patterns have a strong influence on heat transfer and pressure drop. This is done for data obtained from in-tube condensation experiments for mass fluxes ranging from 300 to 800 kg/m2.s at a saturation temperature of 40°C, for refrigerants R-22, R-134a, and R-407C The flow regimes, pressure drops, heat transfer coefficients, and the overall performance of three different tubes, namely a smooth-, 18° helical micro-fin-, and a herringbone micro-fin tube (each having a nominal diameter of 9.51 mm), are presented and compared to the performance of smooth tubes with helical wire inserts (with pitches of 5 mm, 7.77 mm and 11 mm corresponding to helical angles of 78.2°, 72°, and 65.3° respectively).

Original languageEnglish (US)
Title of host publicationCHISA 2006 - 17th International Congress of Chemical and Process Engineering
StatePublished - 2006
Externally publishedYes
EventCHISA 2006 - 17th International Congress of Chemical and Process Engineering - Prague, Czech Republic
Duration: Aug 27 2006Aug 31 2006

Publication series

NameCHISA 2006 - 17th International Congress of Chemical and Process Engineering

Other

OtherCHISA 2006 - 17th International Congress of Chemical and Process Engineering
Country/TerritoryCzech Republic
CityPrague
Period8/27/068/31/06

ASJC Scopus subject areas

  • General Chemical Engineering

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