A Process for Separation by Semi-continuous Counter-current Crystallization PDF Download
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Author: Nathan Micheal Aumock
Publisher:
ISBN:
Category :
Languages : en
Pages : 230
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Book Description
A process is proposed to perform separations via crystallization by using multiple tanks and constraining crystal growth to solid surfaces. Multiple tanks allow multiple recrystallizations to improve product purity and to ensure high recovery of the component of interest. Crystal growth on solid surfaces avoids multi-phase flow handling which can cause operational difficulties. A model is developed for this process for solid solution forming systems which is also applied to batch crystallization for comparison. The solid product from the process is found to provide enhanced purity (1-2% increase) at yields approaching the batch yield when a large number of tanks are used; the ratio of incorporation rate constants (?) is significantly less than one; and the surface equilibrium constant (K) is less than order one. The liquid effluent from the process is also a viable product when ?>1 and K is close to or greater than one. The use of a sweep stream entering at a tank up-stream of the feed tank was determined to be undesirable due to diminished yield. Batch experiments performed to validate the proposed model with asparagine as the component of interest and aspartic acid as the impurity in water were found to be inconclusive. Fitting of parameter values to the liquid phase was not successful due to crystal growth on surfaces other than the designated seed. The parameters ? and K fitted to solid phase data were found to be 0.1-3 and 0.4-0.6 respectively which are favorable parameters for use of the semi-continuous process with the solid taken as the product. The presence of crystals on multiple surfaces in the liquid phase indicates that constraint of crystallization to a specific surface was not achieved. The impurity distribution in the solid layer did not match the model prediction throughout the crystal. Non-uniform initial growth behavior or uneven dissolution of the crystal during analysis could cause the observed behavior. Further experiments should be conducted that in-crease the ratio of product to accumulation in the liquid phase and employ solid sampling methods that give more consistent results.
Author: Nathan Micheal Aumock
Publisher:
ISBN:
Category :
Languages : en
Pages : 230
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Book Description
A process is proposed to perform separations via crystallization by using multiple tanks and constraining crystal growth to solid surfaces. Multiple tanks allow multiple recrystallizations to improve product purity and to ensure high recovery of the component of interest. Crystal growth on solid surfaces avoids multi-phase flow handling which can cause operational difficulties. A model is developed for this process for solid solution forming systems which is also applied to batch crystallization for comparison. The solid product from the process is found to provide enhanced purity (1-2% increase) at yields approaching the batch yield when a large number of tanks are used; the ratio of incorporation rate constants (?) is significantly less than one; and the surface equilibrium constant (K) is less than order one. The liquid effluent from the process is also a viable product when ?>1 and K is close to or greater than one. The use of a sweep stream entering at a tank up-stream of the feed tank was determined to be undesirable due to diminished yield. Batch experiments performed to validate the proposed model with asparagine as the component of interest and aspartic acid as the impurity in water were found to be inconclusive. Fitting of parameter values to the liquid phase was not successful due to crystal growth on surfaces other than the designated seed. The parameters ? and K fitted to solid phase data were found to be 0.1-3 and 0.4-0.6 respectively which are favorable parameters for use of the semi-continuous process with the solid taken as the product. The presence of crystals on multiple surfaces in the liquid phase indicates that constraint of crystallization to a specific surface was not achieved. The impurity distribution in the solid layer did not match the model prediction throughout the crystal. Non-uniform initial growth behavior or uneven dissolution of the crystal during analysis could cause the observed behavior. Further experiments should be conducted that in-crease the ratio of product to accumulation in the liquid phase and employ solid sampling methods that give more consistent results.
Author: Peter K'O-Chun Shen
Publisher:
ISBN:
Category : Crystallization
Languages : en
Pages : 266
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Book Description
Author: American Institute of Chemical Engineers
Publisher:
ISBN:
Category : Crystallization
Languages : en
Pages : 31
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Book Description
Author: Raymond Vivian Austin
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Henry Reginald Clive Pratt
Publisher:
ISBN:
Category : Separation (Technology).
Languages : en
Pages : 568
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Book Description
Author: Takashi Aida
Publisher: John Wiley & Sons
ISBN: 0470994177
Category : Science
Languages : en
Pages : 400
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Book Description
Cyclic Separating Reactors is a critical examination of the literature covering periodically operated separating reactors incorporating an adsorbent as well as a catalyst, aiming to establish the magnitude of performance improvement available with this type of reactor compared to systems in which the reactor and separator are separate units. The adequacy of present models is considered by comparison of simulation and experimental studies, and gaps in understanding or experimental verification of model predictions are identified. Separating reactors, including chromatographic reactors and pressure swing reactors, are an expeditious means of process intensification, reducing both capital and operating costs, particularly where reactions are equilibrium limited. For this reason, cyclically operating separating reactors are attracting considerable interest across the range of chemical manufacturing industries, so this book is a timely and valuable summary of the literature available to the engineer. Following an introduction to multifunctional reactors and to periodic reactor operation, Cyclic Separating Reactors covers both chromatographic and pressure swing adsorption reactors, and is written for chemical engineers in both industry and academe. First book to critically examine the literature surrounding Cyclically Operating Separating Reactors providing a straightforward entry to, and detailed appraisal of, the literature, so the reader does not have to engage in an expensive and time consuming literature review Evaluates current models and understanding to give the engineer clear information on what performance can be expected of these reactors and where current information needs to be augmented when designing systems for commercial operation.
Author: Klaus Sattler
Publisher: John Wiley & Sons
ISBN: 3527615466
Category : Science
Languages : en
Pages : 563
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Book Description
This much-needed book presents a clear and very practice-oriented overview of thermal separation processes. An extensive introduction elucidates the physical and physicochemical fundamentals of different unit operations used to separate homogenous mixtures. This is followed by a concise text with numerous explanatory figures and tables referring to process and design, flowsheets, basic engineering and examples of separation process applications. Very helpful guidance in the form of process descriptions, calculation models and operation data is presented in an easy-to- understand manner thereby assisting the practicing engineer in the choosing and evaluation of separation processes and facilitating the modeling and design of innovative equipment. A comprehensive reference list provides further opportunity for the following up of special separation problems. Chemical and mechanical engineers, chemists, physicists and biotechnologists in research and development, plant design and environmental protection, as well as students in chemical engineering and natural sciences will find this all-embracing reference guide of tremendous value and practical use.
Author: Albert Tse-Hsuan Lin
Publisher:
ISBN:
Category :
Languages : en
Pages : 136
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Book Description
Author: Herbert Martin Schoen
Publisher:
ISBN:
Category : Separation (Technology).
Languages : en
Pages : 464
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Book Description
Author: Allan S. Myerson
Publisher: VCH
ISBN:
Category : Science
Languages : en
Pages : 440
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Book Description
Developed from a symposium sponsored by the International Chemical Congress of the Pacific Basin Societies, Honolulu, Hawaii, December 1989, this book presents the current research which will aid in the development, implementation, and improvement of crystallization as a separation and purification process. Sections cover basic studies, including crystal growth, nucleation, impurity-crystal interactions, and solution structure; crystallizer operation and control; crystallization of organic and biomolecules; and crystallization and precipitation of inorganic materials. Annotation copyrighted by Book News, Inc., Portland, OR
