Scaling-Up Eutectic Freeze Crystallization

A novel crystallization technology, Eutectic Freeze Crystallization (EFC) has been investigated and further developed in this thesis work. EFC operates around the eutectic temperature and composition of aqueous solutions and can be used for recovery of (valuable) dissolved salts (and/or or acids) an...

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Bibliographic Details
Main Author: Genceli, F.E. (author)
Other Authors: Witkamp, G.J. (promotor)
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: 2008
Subjects:
eutectic freeze crystallization
magnesium sulfate
mgso4.11h2o
meridianiite
inline supersaturation determination
inline conductivity measurement
inline refractive index measurement
epsomite
xrd
x-ray diffraction
negative crystal
micro raman spectroscopy
antarctic ice
saroma lake
sea ice
mineral
coupled heat and mass transfer
non-equilibrium thermodynamics
onsager relations
irreversible thermodynamics
crystal growth on a cold surface
cyclic innovation model
cim
cooled disc column crystallizer
cdcc
interface
skid mounted unit
scale-up
crystallization
waste water treatment
aqueous process stream treatment
thermogravimetric analysis
tga
Antarctic
Antarc*
Sea ice
Online Access:http://resolver.tudelft.nl/uuid:c64d84d8-6552-4d3c-9c02-1d511c689c43
Description
Summary:A novel crystallization technology, Eutectic Freeze Crystallization (EFC) has been investigated and further developed in this thesis work. EFC operates around the eutectic temperature and composition of aqueous solutions and can be used for recovery of (valuable) dissolved salts (and/or or acids) and water from a wide variety of aqueous process streams. Using EFC, processes producing large quantities of saline solutions could be carried out in an ecologically and economically attractive way. An introduction and a brief summary of earlier work are given in Chapter 1. The experimental study on pilot scale Cooled Disc Column Crystallizer (CDCC-2) designed for continuous EFC operation is presented in Chapter 2. CDCC-2 was tested for an industrial MgSO4 stream and evaluated in terms of heat transfer, ice and salt sizes, production and growth rates. Application of conductivity and refractive index measurement techniques for inline concentration and supersaturation measurements of MgSO4 solution was studied in Chapter 3. Chapter 4 presents the CDCC-3 and Skid Mounted Unit, designed and constructed for 130 ton/year MgSO4.7H2O and water production capacities. MgSO4 salt crystal structure at eutectic conditions was studied and reported in Chapter 5. The MgSO4 crystal hydrate formed below approximately 0 oC was proven to be MgSO4.11H2O instead of the common reported MgSO4.12H2O. Crystal structure analysis and the molecular arrangement of these crystals were determined using single crystal X-ray diffraction. Raman spectroscopy was used for characterizing MgSO4.11H2O and for comparing the vibrational spectra with MgSO4.7H2O. Thermo gravimetric analysis confirmed the stochiometry of MgSO4.11H2O. Additionally the Miller indices of the major faces of MgSO4.11H2O crystals were defined. Chapter 6 covers the discovery of the natural occurrence of the MgSO4.11H2O new mineral -Meridianiite- as salt inclusions in sea ice from Saroma Lake-Japan and in Antarctic ice. In Chapter 7 nucleation and crystal growth of MgSO4 aqueous solution ...

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