Scale-up and viscosity effects on gas-liquid mass transfer rates in unbaffled stirred tanks

Franco Grisafi, Alberto Brucato, Francesca Scargiali, Giuseppe Caputo, Libor Labík, Radim Petricříček, Radim Petricříček, Tomáš Moucha

Risultato della ricerca: Article

3 Citazioni (Scopus)

Abstract

The interest in the process industry on unbaffled stirred tanks has greatly expanded in the last years because they may bring about significant advantages in a number of applications, including biochemical, food and pharmaceutical processes where the presence of baffles is undesirable for several reasons. Despite their application potential, unbaffled vessels still lack fundamental information, due to the fact that only recently their capabilities have started being dug out. The lack of information on scale up effects is possibly the main reason hindering practical applications. In this work the influence of vessel size and liquid viscosity on the mass transfer performance in unbaffled stirred vessels, is investigated. As regards the first issue (scale-up) quite surprisingly results show that comparable mass transfer coefficients may be obtained in larger vessels, for a given power input per unit volume, with typical kLa values up to 2 Ã 10â3sâ1in ungassed conditions and of 2 Ã 10â2sâ1in gassed conditions. This is opposite to expectations based on the fact that the exchange surface in subcritical conditions only grows with D2while volume grows with D3. Notably, the same result is obtained at an increased liquid viscosity (a feature often exhibited by biological cultivation broths) and confirms that unbaffled stirred tanks should be regarded as a strong candidate for industrial applications. Finally, also at the larger scale, in the super-critical regime unbaffled tanks are found to provide a performance comparable with that of standard (baffled & sparged) stirred tanks, hence resulting in a viable alternative to baffled tanks for all gasâliquid processes and bio-processes.
Lingua originaleEnglish
pagine (da-a)584-592
Numero di pagine9
RivistaCHEMICAL ENGINEERING RESEARCH & DESIGN
Volume132
Stato di pubblicazionePublished - 2018

All Science Journal Classification (ASJC) codes

  • Chemistry(all)
  • Chemical Engineering(all)

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