D. Benizri, N. Dietrich, and G. Hébrard, Experimental characterization of multi-405 component absorption in complex liquid: New method and apparatus. Chemical 406 Engineering Science, 13th International Conference on Gas-Liquid and Gas-Liquid-407, 2017.

, , vol.170, pp.116-121

O. Bork, M. Schlueter, and N. Raebiger, The Impact of Local Phenomena on Mass 409 Transfer in Gas-Liquid Systems, Can. J. Chem. Eng, vol.83, pp.658-666, 2005.

,

C. Butler, E. Cid, and A. Billet, Modelling of mass transfer in Taylor flow: 412 Investigation with the PLIF-I technique. Chemical Engineering Research and Design, 413 10th European Congress of Chemical Engineering 115, Part B, pp.292-302, 2016.

,

J. A. Campbell, Kinetics-Early and often, J. Chem. Educ, vol.40, 1963.
DOI : 10.1021/ed040p578

P. V. Danckwerts, Significance of Liquid-Film Coefficients in Gas Absorption, 1951.

. Eng and . Chem, , vol.43, pp.1460-1467

A. Dani, P. Guiraud, and A. Cockx, Local measurement of oxygen transfer around a 420 single bubble by planar laser-induced fluorescence, Chemical Engineering Science, vol.62, pp.421-7245, 2007.

A. De-lamotte, A. Delafosse, S. Calvo, F. Delvigne, and D. Toye, Investigating the 423 effects of hydrodynamics and mixing on mass transfer through the free-surface in 424 stirred tank bioreactors, Chemical Engineering Science, vol.172, pp.125-142, 2017.

,

N. Dietrich, J. Francois, M. Jimenez, A. Cockx, P. Guiraud et al., Fast 427 Measurements of the Gas-Liquid Diffusion Coefficient in the Gaussian Wake of a 428 Spherical Bubble, Chem. Eng. Technol, vol.38, pp.941-946, 2015.

,

N. Dietrich, K. Loubière, M. Jimenez, G. Hébrard, and C. Gourdon, A new direct 431 technique for visualizing and measuring gas-liquid mass transfer around bubbles 432 moving in a straight millimetric square channel, Chemical Engineering Science, vol.100, pp.433-172, 2013.

N. Dietrich, S. Poncin, and H. Z. Li, Dynamical deformation of a flat liquid-liquid 435 interface, 2011.

N. Dietrich, S. Poncin, S. Pheulpin, and Z. L. Huai, Passage of a bubble through a liquid-437 liquid interface, AIChE Journal, vol.54, pp.594-600, 2008.

A. Falkenroth, K. Degreif, and B. Jähne, Visualisation of Oxygen Concentration Fields in 439 the Mass Boundary Layer by Fluorescence Quenching, p.440, 2007.

D. R. Handler and P. Jähne, Transport at the Air-Sea Interface, p.441

, Environmental Science and Engineering, pp.59-72

J. Francois, N. Dietrich, and A. Cockx, A Novel Methodology to Measure Mass Transfer 443 Around a Bubble, Mod. Phys. Lett. B, vol.25, pp.1993-2000, 2011.

,

J. Francois, N. Dietrich, P. Guiraud, and A. Cockx, Direct measurement of mass transfer 446 around a single bubble by micro-PLIFI. Chemical Engineering Science In Press, vol.447, 2011.

K. Hanyu and T. Saito, Dynamical mass-transfer process of a CO2 bubble measured by 449 using LIF/HPTS visualisation and photoelectric probing, Can. J. Chem. Eng, vol.88, pp.551-450, 2010.

R. Hariz, J. I. Del-rio-sanz, C. Mercier, R. Valentin, N. Dietrich et al., Absorption of toluene by vegetable oil-water emulsion in scrubbing tower: 453 Experiments and modeling, 12th International 454 Conference on Gas-Liquid and Gas-Liquid-Solid Reactor Engineering, vol.157, pp.264-271, 2017.

G. Herlina and G. H. Jirka, Application of LIF to investigate gas transfer near the air-water 457 interface in a grid-stirred tank, Experiments in Fluids, vol.37, pp.341-375, 2004.

R. Higbie, The rate of absorption of a pure gas into a still liquid during short periods of 459 exposure, Transactions, 1935.

J. Huang and T. Saito, Discussion about the differences in mass transfer, bubble motion 461 and surrounding liquid motion between a contaminated system and a clean system 462 based on consideration of three-dimensional wake structure obtained from LIF 463 visualization, 13th International Conference on Gas-464 Liquid and Gas-Liquid-Solid Reactor Engineering, vol.170, pp.105-115, 2017.

,

J. Huang and T. Saito, Influence of Bubble-Surface Contamination on Instantaneous Mass 467 Transfer, Chem. Eng. Technol, vol.38, pp.1947-1954, 2015.

,

M. Jimenez, N. Dietrich, A. Cockx, and G. Hébrard, Experimental study of O2 470 diffusion coefficient measurement at a planar gas-liquid interface by planar laser-471 induced fluorescence with inhibition, AIChE J, vol.59, pp.325-333, 2012.

M. Jimenez, N. Dietrich, A. Cockx, and G. Hébrard, Experimental study of O2 diffusion 474 coefficient measurement at a planar gas-liquid interface by planar laser-induced 475 fluorescence with inhibition, AIChE J, vol.59, pp.325-333, 2013.

M. Jimenez, N. Dietrich, J. R. Grace, and G. Hébrard, Oxygen mass transfer and 477 hydrodynamic behaviour in wastewater: determination of local impact of surfactants 478 by visualization techniques, Water Res, vol.58, pp.111-121, 2014.

,

M. Jimenez, N. Dietrich, and G. Hébrard, Mass transfer in the wake of non-spherical air 481 bubbles quantified by quenching of fluorescence, 11th 482 International Conference on Gas-Liquid and Gas-Liquid-Solid Reactor Engineering 483, vol.100, pp.160-171, 2013.

M. Jimenez, N. Dietrich, and G. Hebrard, A New Method for Measuring Diffusion 485 Coefficient of Gases in Liquids by Plif, Mod. Phys. Lett. B, vol.26, p.1150034, 2012.

S. Kastens, C. Meyer, M. Hoffmann, and M. Schlüter, Experimental Investigation and 488 Modelling of Local Mass Transfer Rates in Pure and Contaminated Taylor Flows, Transport Processes at Fluidic Interfaces, Advances in Mathematical Fluid Mechanics, p.489, 2017.

C. Birkhäuser, , pp.609-637

A. Kherbeche, J. Milnes, M. Jimenez, N. Dietrich, G. Hébrard et al., Multi-492 scale analysis of the influence of physicochemical parameters on the hydrodynamic 493 and gas-liquid mass transfer in gas/liquid/solid reactors, Chemical Engineering 494 Science, vol.100, pp.515-528, 2013.

A. Kherbeche, S. N. Nsakou, B. Lekhlif, G. Hébrard, and N. Dietrich, Study of the initial 496 glycerol concentration effects upon bacterial cells adaptation and biodegradation 497 kinetics on a submerged aerated fixed bed reactor using biocell® packing, Journal of 498 Materials and Environmental Sciences, 2017.

H. Klein and K. Wanders, Congress of the International Astronautical 500 FederationHolographic interferometry near gas/liquid critical points: Results of 501 spacelab D-1, Acta Astronautica, vol.15, pp.90183-90187, 1987.

P. Kováts, D. Thévenin, and K. Zähringer, Characterizing fluid dynamics in a bubble 504 column aimed for the determination of reactive mass transfer, Heat Mass Transfer 1-505 9, 2017.

W. Krieger, J. Lamsfuß, W. Zhang, and N. Kockmann, Local Mass Transfer Phenomena 507 and Chemical Selectivity of Gas-Liquid Reactions in Capillaries, Chem. Eng. Technol, vol.508

A. M. Kutepov, B. G. Pokusaev, D. A. Kazenin, S. P. Karlov, and A. V. Vyaz'min, , p.510, 2001.

, Interfacial Mass Transfer in the Liquid-Gas System: An Optical Study, Theoretical 511 Foundations of Chemical Engineering, vol.35, pp.213-216

,

K. Mühlfriedel and K. Baumann, Concentration measurements during mass transfer 514 across liquid-phase boundaries using planar laser induced fluorescence (PLIF), 2000.

, Experiments in Fluids, vol.28, pp.279-281

T. Munsterer and B. Jahne, LIF measurements of concentration profiles in the aqueous 517 mass boundary layer, Exp. Fluids, vol.25, pp.190-196, 1998.

,

M. Roudet, A. Billet, S. Cazin, F. Risso, and V. Roig, Experimental investigation of 520 interfacial mass transfer mechanisms for a confined high-reynolds-number bubble 521 rising in a thin gap, AIChE J, vol.63, pp.2394-2408, 2017.

M. Roustan, Transferts gaz-liquide dans les procédés de traitement des eaux et des 523 effluents gazeux [WWW Document, vol.524, 2003.

S. Roy and S. R. Duke, Visualization of oxygen concentration fields and measurement of 526 concentration gradients at bubble surfaces in surfactant-contaminated water, Experiments in Fluids, vol.527, pp.654-662, 2004.

T. Saito and M. Toriu, Effects of a bubble and the surrounding liquid motions on the 529 instantaneous mass transfer across the gas-liquid interface, Chemical Engineering 530 Journal, vol.265, pp.164-175, 2015.

S. Someya, S. Bando, Y. Song, B. Chen, and M. Nishio, DeLIF measurement of pH 532 distribution around dissolving CO2 droplet in high pressure vessel, International 533 Journal of Heat and Mass Transfer, vol.48, pp.2508-2515, 2005.

,

M. Stöhr, J. Schanze, and A. Khalili, Visualization of gas-liquid mass transfer and wake 536 structure of rising bubbles using pH-sensitive PLIF, Exp Fluids, vol.47, pp.135-143, 2009.

,

R. Tatin, L. Moura, N. Dietrich, S. Baig, and G. Hébrard, Physical absorption of volatile 539 organic compounds by spraying emulsion in a spray tower: Experiments and 540 modelling, Chemical Engineering Research and Design, vol.104, pp.409-415, 2015.

,

H. L. Toor and J. M. Marchello, Film-penetration model for mass and heat transfer, AIChE, vol.543, issue.4, pp.97-101, 1958.
DOI : 10.1002/aic.690040118

J. W. Walker and W. L. Peirson, Measurement of gas transfer across wind-forced wavy 545 air-water interfaces using laser-induced fluorescence, Exp Fluids, vol.44, pp.249-259, 2007.
DOI : 10.1007/s00348-007-0398-8

J. Wang and H. Langemann, Unsteady two-film model for mass transfer, Chem. Eng, 1994.
DOI : 10.1002/ceat.270170410

. Technol, , vol.17, pp.280-284

W. G. Whitman, Preliminary experimental confirmation of the two-film theory of gas 550 absorption, Chemical and Metallurgical Engineering, pp.146-154, 1923.

K. Wongwailikhit, P. Warunyuwong, N. Chawaloesphonsiya, N. Dietrich, and G. Hébrard, , p.552

P. Painmanakul, Gas Sparger Orifice Sizes and Solid Particle Characteristics in 553 a Bubble Column -Relative Effect on Hydrodynamics and Mass Transfer, 2017.

. Eng,

C. Wylock, S. Dehaeck, T. Cartage, P. Colinet, and B. Haut, Experimental study of gas-556 liquid mass transfer coupled with chemical reactions by digital holographic 557 interferometry, Chemical Engineering Science. Presented at the International 558 Conference on Gas-Liquid and Gas-Liquid-Solid Reactor Engineering, pp.559-3400, 2011.
DOI : 10.1016/j.ces.2011.01.024
URL : https://dipot.ulb.ac.be/dspace/bitstream/2013/92122/10/CES-2011-01-024_PrePrint.pdf

C. Wylock, A. Rednikov, P. Colinet, and B. Haut, Experimental and numerical analysis 561 of buoyancy-induced instability during CO2 absorption in NaHCO3-Na2CO3 562 aqueous solutions, 12th International Conference on 563 Gas-Liquid and Gas-Liquid-Solid Reactor Engineering, vol.157, pp.232-246, 2017.

,

X. Xie, C. Le-men, N. Dietrich, P. Schmitz, and L. Fillaudeau, Local hydrodynamic 566 investigation by PIV and CFD within a Dynamic filtration unit under laminar flow. 567 Separation and Purification Technology, 2017.
DOI : 10.1016/j.seppur.2017.04.009

F. Xu, M. Jimenez, N. Dietrich, and G. Hébrard, Fast determination of gas-liquid 569 diffusion coefficient by an innovative double approach. Chemical Engineering 570 Science, 2017.

L. Yang, N. Dietrich, G. Hébrard, K. Loubière, and C. Gourdon, Optical methods to 572 investigate the enhancement factor of an oxygen-sensitive colorimetric reaction using 573 microreactors, AIChE J, vol.63, pp.2272-2284, 2017.

L. Yang, N. Dietrich, K. Loubière, C. Gourdon, and G. Hébrard, Visualization And 575 Characterization Of Gas-Liquid Mass Transfer Around A Taylor Bubble Right After 576 The Formation Stage In Microreactors, Chemical Engineering Science, vol.577, 2016.

L. Yang, K. Loubière, N. Dietrich, C. Le-men, C. Gourdon et al., Local 579 investigations on the gas-liquid mass transfer around Taylor bubbles flowing in a 580 meandering millimetric square channel, Chemical Engineering Science, vol.165, pp.192-203, 2017.