Crystallization Process and Simulation Calculation

As an important unit operation, crystallization is a process in which nucleation, growth, agglomeration, and breakage are regulated to produce high-quality crystals and achieve efficient separation as well as purification. Since a crystallization process often presents the characteristics of strong...

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Izdano: MDPI - Multidisciplinary Digital Publishing Institute 2023
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collection Directory of Open Access Books
description As an important unit operation, crystallization is a process in which nucleation, growth, agglomeration, and breakage are regulated to produce high-quality crystals and achieve efficient separation as well as purification. Since a crystallization process often presents the characteristics of strong coupling, nonlinearity, and large lagging, it is a challenge to rationally design a robust, well-characterized process to efficiently crystallize and prepare a high-quality crystalline product. The development of process analytical technology that can provide fast and accurate inline or online measurement is of great importance in the design and control of crystallization processes. Simulation technology, e.g., molecular dynamics simulation and hydrodynamics simulation, can provide time- or location-dependent insight into the process on multiple scales. These experimental and simulation tools can greatly help to further investigate crystallization processes. This Special Issue served to provide a platform for researchers to report results and findings in crystallization process technologies, simulation and process analytical technologies, and relevant crystallization studies.
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language eng
publishDate 2023
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1287012024-04-09T23:16:24Z Crystallization Process and Simulation Calculation Chen, Mingyang Ouyang, Jinbo Han, Dandan crystals metal-organic frameworks Cu(II) ion 2D layer structural evolvement electronic polysilicon flow field temperature field boundary layer coupled furnaces florfenicol solubility binary solvent system cosolvency correlation model nanocrystals combinative technology aqueous solubility stability dissolution rate nucleation growth mesoscale precursor EMMS model vanadium pentoxide cathode doping rate performance crystal image analysis deep learning size measurement crystal growth rate silicon single crystals floating zone effective segregation coefficient numerical modelling Czochralski growth silicon crucible oxygen concentration calcium carbonate foreign salts antiscalants crystallization struvite fertilizer phosphorus ammonium wastewater stirring turbulence alumina hydrate boehmite ammonioalunite evolutionary process reaction crystallization thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues As an important unit operation, crystallization is a process in which nucleation, growth, agglomeration, and breakage are regulated to produce high-quality crystals and achieve efficient separation as well as purification. Since a crystallization process often presents the characteristics of strong coupling, nonlinearity, and large lagging, it is a challenge to rationally design a robust, well-characterized process to efficiently crystallize and prepare a high-quality crystalline product. The development of process analytical technology that can provide fast and accurate inline or online measurement is of great importance in the design and control of crystallization processes. Simulation technology, e.g., molecular dynamics simulation and hydrodynamics simulation, can provide time- or location-dependent insight into the process on multiple scales. These experimental and simulation tools can greatly help to further investigate crystallization processes. This Special Issue served to provide a platform for researchers to report results and findings in crystallization process technologies, simulation and process analytical technologies, and relevant crystallization studies. 2023-11-30T20:44:42Z 2023-11-30T20:44:42Z 2023 book ONIX_20231130_9783036591544_153 9783036591544 9783036591551 https://directory.doabooks.org/handle/20.500.12854/128701 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/8165 https://mdpi.com/books/pdfview/book/8165 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-9155-1 10.3390/books978-3-0365-9155-1 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036591544 9783036591551 198 Basel open access
spellingShingle crystals
metal-organic frameworks
Cu(II) ion
2D layer
structural evolvement
electronic polysilicon
flow field
temperature field
boundary layer
coupled furnaces
florfenicol
solubility
binary solvent system
cosolvency
correlation model
nanocrystals
combinative technology
aqueous solubility
stability
dissolution rate
nucleation
growth
mesoscale
precursor
EMMS model
vanadium pentoxide
cathode
doping
rate performance
crystal image analysis
deep learning
size measurement
crystal growth rate
silicon single crystals
floating zone
effective segregation coefficient
numerical modelling
Czochralski growth
silicon
crucible
oxygen concentration
calcium carbonate
foreign salts
antiscalants
crystallization
struvite
fertilizer
phosphorus
ammonium
wastewater
stirring
turbulence
alumina hydrate
boehmite
ammonioalunite
evolutionary process
reaction crystallization
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Crystallization Process and Simulation Calculation
title Crystallization Process and Simulation Calculation
title_full Crystallization Process and Simulation Calculation
title_fullStr Crystallization Process and Simulation Calculation
title_full_unstemmed Crystallization Process and Simulation Calculation
title_short Crystallization Process and Simulation Calculation
title_sort crystallization process and simulation calculation
topic crystals
metal-organic frameworks
Cu(II) ion
2D layer
structural evolvement
electronic polysilicon
flow field
temperature field
boundary layer
coupled furnaces
florfenicol
solubility
binary solvent system
cosolvency
correlation model
nanocrystals
combinative technology
aqueous solubility
stability
dissolution rate
nucleation
growth
mesoscale
precursor
EMMS model
vanadium pentoxide
cathode
doping
rate performance
crystal image analysis
deep learning
size measurement
crystal growth rate
silicon single crystals
floating zone
effective segregation coefficient
numerical modelling
Czochralski growth
silicon
crucible
oxygen concentration
calcium carbonate
foreign salts
antiscalants
crystallization
struvite
fertilizer
phosphorus
ammonium
wastewater
stirring
turbulence
alumina hydrate
boehmite
ammonioalunite
evolutionary process
reaction crystallization
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet crystals
metal-organic frameworks
Cu(II) ion
2D layer
structural evolvement
electronic polysilicon
flow field
temperature field
boundary layer
coupled furnaces
florfenicol
solubility
binary solvent system
cosolvency
correlation model
nanocrystals
combinative technology
aqueous solubility
stability
dissolution rate
nucleation
growth
mesoscale
precursor
EMMS model
vanadium pentoxide
cathode
doping
rate performance
crystal image analysis
deep learning
size measurement
crystal growth rate
silicon single crystals
floating zone
effective segregation coefficient
numerical modelling
Czochralski growth
silicon
crucible
oxygen concentration
calcium carbonate
foreign salts
antiscalants
crystallization
struvite
fertilizer
phosphorus
ammonium
wastewater
stirring
turbulence
alumina hydrate
boehmite
ammonioalunite
evolutionary process
reaction crystallization
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20231130_9783036591544_153