Ricardo Gelves scite author profile

Ricardo Gelves

4Publications

55Citation Statements Received

18Citation Statements Given

How they've been cited

106

How they cite others

Affiliations

Francisco de Paula Santander University, University of Antioquia, University of Stuttgart

Publications

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Modeling of gas–liquid mass transfer in a stirred tank bioreactor agitated by a Rushton turbine or a new pitched blade impeller

Gelves

Dietrich

Takors

2013

Bioprocess Biosyst Eng

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A combined computational fluid dynamics (CFD) and population balance model (PBM) approach has been applied to simulate hydrodynamics and mass transfer in a 0.18 m(3) gas-liquid stirred bioreactor agitated by (1) a Rushton turbine, and (2) a new pitched blade geometry with rotating cartridges. The operating conditions chosen were motivated by typical settings used for culturing mammalian cells. The effects of turbulence, rotating flow, bubbles breakage and coalescence were simulated using the k-ε, multiple reference frame (MRF), Sliding mesh (SM) and PBM approaches, respectively. Considering the new pitched blade geometry with rotating aeration microspargers, [Formula: see text] mass transfer was estimated to be 34 times higher than the conventional Rushton turbine set-up. Notably, the impeller power consumption was modeled to be about 50 % lower. Independent [Formula: see text] measurements applying the same operational conditions confirmed this finding. Motivated by these simulated and experimental results, the new aeration and stirring device is qualified as a very promising tool especially useful for cell culture applications which are characterized by the challenging problem of achieving relatively high mass transfer conditions while inserting only low stirrer energy.

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Applicability of a modified breakage and coalescence model based on the complete turbulence spectrum concept for CFD simulation of gas-liquid mass transfer in a stirred tank reactor

Niño

Gelves

Ali

et al. 2020

Chemical Engineering Science

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Modeling of phycocyanin production from Spirulina platensis using different light-emitting diodes

Rivera

Niño

Gelves

2021

South African Journal of Chemical Engineering

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CFD Prediction of Heterogeneities in the Scale up of Liquid-Liquid Dispersions

Gelves¹,

Niño²

2014

IJCEA

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Ricardo Gelves

Modeling of gas–liquid mass transfer in a stirred tank bioreactor agitated by a Rushton turbine or a new pitched blade impeller

Applicability of a modified breakage and coalescence model based on the complete turbulence spectrum concept for CFD simulation of gas-liquid mass transfer in a stirred tank reactor

Modeling of phycocyanin production from Spirulina platensis using different light-emitting diodes

CFD Prediction of Heterogeneities in the Scale up of Liquid-Liquid Dispersions

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