Solids Isolation Flashcards
Define polymorphism
Ability to crystallise in more than one form
Define enantiotropic
Interconvertible polymorphs
Define monotropic
polymorphs are incapable of transformation
Crystal Types
- Amorphous
- Polymorphs
- Hydrates
- Solvates
- Salts
- Co-Crystals
Eutectic Point
Mass fraction at which two solids will dissolve together
Congruent melting point
Hydrate can exist in equilibrium wuat a solution of the same composition
Define the critical radius
- Smallest crystal radius that can exist in a solution of a given concentration
(very small pasticles are unstable and will break up)
Size dependent solubility equation
c(r) = c_inf x exp{(2gamma x V_m)/(rRT)}
c_inf = solubility of macroscopic particle Gamma = solid-liquid interfacial tension V_m = Molar volume
Theoretical Nucleation Rate Equation
B = K_B x exp{(-16gamma^3 V_m^2) /(3R^3 T^3 sigma^2)}
Empirical Nucleation Rate Equation
B = K_B x Delta(C)^b
3 Crystal Growth Regimes
- Continuous (many growth sites)
- Surface Nucleation (Several nuclei)
- Spiral growth (single nucleus)
Crystal Habit
- Growth Rates are generally not identical along crystal facets
- Specific adsorption of particular facets can modify crystal growth
Internal vs External Cooling Crystalliser
Internal
- Heat transfer coefficient is connected with the flow regime (Re)
External
- Decouples the hydrodynamic regime from the heat transfer coefficient ar the heat transfer surface
- Can increase Re, heat transfer coefficient and nucleation rate by changingn agitation rate
- Risks deposition of material in the heat exchanger
Mixed-Suspension mixed-product removal (MSMPR) Crystalliser
- Ideally mixed
- Steady-state, continuous operation
- No crystals in feed
- no agglomeration or breakage
- size independent growth rate
