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Fileset for "The role of residence time distribution in the continuous steady-state MSMPR crystallization of glycine"

dataset
posted on 2018-11-21, 09:21 authored by Iyke Onyemelukwe, Anna R. Parsons, Helen P. Wheatcroft, Amy Robertson, Zoltan NagyZoltan Nagy, Chris RiellyChris Rielly
These are the supporting data files for the article "The role of residence time distribution in the continuous steady-state MSMPR crystallization of glycine".

Abstract:
In this work, a vacuum-driven intermittent transfer technique has been implemented to solve transfer line blockage issues and facilitate steady-state cooling crystallization studies of 𝛼-glycine in a single- and 2-stage MSMPR crystallizer. Experimental residence time distribution (RTD) analysis of the stirred tank MSMPR cascade is performed using an imperfect pulse method of the axial dispersion model to benchmark the mixing performance against that of tubular crystallizers and determine the influence of RTD on steady-state size distribution of 𝛼-glycine product. Process analytical technology (PAT) is used to monitor and understand crystallization process dynamics, and the effect of MSMPR operating temperature, mean residence time, and number of MSMPR stages on mean particle size, crystal size distribution, and yield is studied. Results show the significance of nucleation and growth mechanisms alongside RTD in determining steady-state size distribution, and the need for optimum control of supersaturation to benefit from improved RTDs provided by multistage MSMPR crystallizers.

Funding

Doctoral Training Centre in Continuous Manufacturing and Crystallisation

Engineering and Physical Sciences Research Council

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EPSRC Centre for Innovative Manufacturing for Continuous Manufacturing and Crystallisation

Engineering and Physical Sciences Research Council

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History

School

  • Aeronautical, Automotive, Chemical and Materials Engineering

Department

  • Chemical Engineering