Chapter objectivesIntroductionDiffusion accompanied by an irreversible reaction of general orderDiffusion and reaction in series with no reaction in film: Regimes 1 and 2 (very slow and slow reactions), and regimes between 1 and 2Regimes 1 and 2: Very slow and slow reactionsRegimes between 1 and 2Diffusion and reaction in film, followed by negligible or finite reaction in the bulk: Regime 3 (fast reaction), and regime covering 1, 2, and 3Reaction entirely in filmReactions both in film and bulk (regimes 1–2–3)Measurement of mass transfer coefficientsMicrofluidic devicesReactor designA generalized form of equation for all regimesRegime 1: Very slow reactionRegime 2 and regime between 1 and 2: Diffusion in film without and with reaction in the bulkRegime 3: Fast reactionRegime between 2 and 3Regime 4: Instantaneous reactionClassification of gas–liquid contactorsClassification-1 (based on manner of phase contact)Classification-2 (based on the manner of energy delivery)Mass transfer coefficients and interfacial areas of some common contactorsRole of backmixing in different contactorsReactor design for gas–liquid reactionsThe overall strategyCalculation of reactor volumeCase 1: Plug gas, plug liquid, and countercurrent steady stateCase 2: Same as case 1 but with cocurrent flowCase 3: Plug gas, mixed liquid, and steady stateCase 4: Mixed gas, mixed liquid, and steady stateCase 5: Mixed gas, batch liquid, and unsteady stateCommentsReactor choiceThe criteriaVolume minimization criterionGeneral discussionLimitations of volume minimizationSteps in volume minimizationEnergy minimization criteriaCriterion 2(a): Homogeneous regime (regime 1)Criterion 2(b): Heterogeneous regime (regimes 2–4)Comparison of criteriaLiquid–liquid contactorsClassification of liquid–liquid reactorsValues of mass transfer coefficients and interfacial areas for different contactorsCalculation of reactor volume/reaction timeStirred tank reactor: Some practical considerationsReferences