Precipitation of L-Glutamic Acid: Determination of Nucleation Kinetics

This work presents a new procedure to determine the nucleation kinetics during the reactive precipitation of an organic substance. The new method has been applied to the pH‐shift precipitation of L‐glutamic acid upon mixing of an aqueous monosodium glutamate solution with hydrochloric acid. The indu...

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Veröffentlicht in:	Chemical engineering & technology 2006-02, Vol.29 (2), p.257-264
Hauptverfasser:	Schöll, J., Vicum, L., Müller, M., Mazzotti, M.
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Schlagworte:	Applied sciences Chemical engineering Exact sciences and technology Kinetics Nucleation Precipitation Reactors
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creator	Schöll, J. Vicum, L. Müller, M. Mazzotti, M.
description	This work presents a new procedure to determine the nucleation kinetics during the reactive precipitation of an organic substance. The new method has been applied to the pH‐shift precipitation of L‐glutamic acid upon mixing of an aqueous monosodium glutamate solution with hydrochloric acid. The induction time has been measured precisely in a stirred batch reactor by the combination of two in‐situ measurement techniques, namely ATR‐FTIR spectroscopy (attenuated total reflection Fourier Transform technique) and Focused Beam Reflectance Measurement (FBRM). It is shown that ATR‐FTIR is a suitable tool to measure the concentrations of the different L‐glutamic acid ions, and can be used to determine the starting time of the process when the desired supersaturation is established in the reactor. The onset of particle formation is detected through FBRM. The precipitated polymorph is identified using in‐situ Raman spectroscopy and Particle Vision & Measurement (PVM). Finally, the induction time is used together with the independently measured growth kinetics to determine the nucleation rate. A new procedure to determine the nucleation kinetics during reactive precipitation to the pH‐shift precipitation of L‐glutamic has been applied. The induction time has been measured precisely in a stirred batch reactor by the combination of ATR‐FTIR spectroscopy and Focused Beam Reflectance Method. The precipitated polymorph is identified using in situ Raman spectroscopy and Particle Volume Monitor. The induction time is used together with the independently measured growth kinetics to determine the nucleation rate.
doi_str_mv	10.1002/ceat.200500369
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The new method has been applied to the pH‐shift precipitation of L‐glutamic acid upon mixing of an aqueous monosodium glutamate solution with hydrochloric acid. The induction time has been measured precisely in a stirred batch reactor by the combination of two in‐situ measurement techniques, namely ATR‐FTIR spectroscopy (attenuated total reflection Fourier Transform technique) and Focused Beam Reflectance Measurement (FBRM). It is shown that ATR‐FTIR is a suitable tool to measure the concentrations of the different L‐glutamic acid ions, and can be used to determine the starting time of the process when the desired supersaturation is established in the reactor. The onset of particle formation is detected through FBRM. The precipitated polymorph is identified using in‐situ Raman spectroscopy and Particle Vision & Measurement (PVM). Finally, the induction time is used together with the independently measured growth kinetics to determine the nucleation rate. A new procedure to determine the nucleation kinetics during reactive precipitation to the pH‐shift precipitation of L‐glutamic has been applied. The induction time has been measured precisely in a stirred batch reactor by the combination of ATR‐FTIR spectroscopy and Focused Beam Reflectance Method. The precipitated polymorph is identified using in situ Raman spectroscopy and Particle Volume Monitor. 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Eng. Technol</addtitle><description>This work presents a new procedure to determine the nucleation kinetics during the reactive precipitation of an organic substance. The new method has been applied to the pH‐shift precipitation of L‐glutamic acid upon mixing of an aqueous monosodium glutamate solution with hydrochloric acid. The induction time has been measured precisely in a stirred batch reactor by the combination of two in‐situ measurement techniques, namely ATR‐FTIR spectroscopy (attenuated total reflection Fourier Transform technique) and Focused Beam Reflectance Measurement (FBRM). It is shown that ATR‐FTIR is a suitable tool to measure the concentrations of the different L‐glutamic acid ions, and can be used to determine the starting time of the process when the desired supersaturation is established in the reactor. The onset of particle formation is detected through FBRM. 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subjects	Applied sciences Chemical engineering Exact sciences and technology Kinetics Nucleation Precipitation Reactors
title	Precipitation of L-Glutamic Acid: Determination of Nucleation Kinetics
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