Residence time distribution Reversible reactions

Ring-opening metathesis polymerization Residence time distribution Reverse water-gas shift reaction... 

Continuous Multicomponent Distillation Column 501 Gas Separation by Membrane Permeation 475 Transport of Heavy Metals in Water and Sediment 565 Residence Time Distribution Studies 381 Nitrification in a Fluidised Bed Reactor 547 Conversion of Nitrobenzene to Aniline 329 Non-Ideal Stirred-Tank Reactor 374 Oscillating Tank Reactor Behaviour 290 Oxidation Reaction in an Aerated Tank 250 Classic Streeter-Phelps Oxygen Sag Curves 569 Auto-Refrigerated Reactor 295 Batch Reactor of Luyben 253 Reversible Reaction with Temperature Effects 305 Reversible Reaction with Variable Heat Capacities 299 Reaction with Integrated Extraction of Inhibitory Product 280... 

The results of two investigations from two diverse locations provided evidence that this distribution ratio might be due to reversible sorption-desorption reactions. Scientists at Argonne National Laboratory (ANL) equilibrated filtered Lake Michigan water with sediments that had been contaminated with Pu ten years earlier. As many as nine extractions on the same portions of sediment produced essentially identical values(15). Noshkin has observed that the concentrations of plutonium in the waters of Enewetak remain relatively constant although there is a continual replacement of water at an estimated residence time of 144 days (16). The concentration corresponds well with that predicted from the experimental distribution ratio between lagoon sediment and water. 

Carbon number distribution plots also become linear when olefins readsorb very rapidly (large /3r) or when severe intrapellet transport restrictions (large ) prevent their removal from catalysts pellets before they convert to paraffins during chain termination (Fig. 24, jSr = 100). In this case, chain termination to olefins is totally reversed by fast readsorption, even for light olefins. Chain termination occurs only by hydrogen addition to form paraffins, a step that is not affected by secondary reactions and for which intrinsic kinetics depend only on the nature of the catalytic surface. The product distribution again obeys Flory kinetics, but the constant chain termination probability is given by )8h, instead of po + pH- Clearly, bed and pellet residence times above those required to convert all olefins cannot affect the extent of readsorption or the net chain termination rates and lead to Flory distributions that become independent of bed residence time. 

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