BATEX - Single Solute Batch Extraction

Consider a batch two-phase extraction system, with a single solute. [Pg.527]

As described in Sec. 3.3.1, separate component balances on each phase are expressed by [Pg.528]

Observe the dynamic approach to equilibrium, and note that the driving force for transfer changes. [Pg.529]

Change K over a range of values and observe how this changes the time to reach equilibrium. Is there a relationship between K and the system time constant T [Pg.529]

Vary the equilibrium constant M and study its effect on the resulting dynamic behaviour. [Pg.530]

Consider a batch two-phase extraction system, with a single solute transferring from the feed phase into an immiscible solvent phase. The background to the problem is discussed in Section 3.3.1.1 [Pg.494]

The program includes a Pulse function, which has been added to the X phase. This is used to represent the effect of sudden addition of solute to this phase at TlME=Ts witch. [Pg.495]

Mass transfer capacity coefficient Equilibrium distribution constant Volume [Pg.495]

Refers to equilibrium Refers to L and G phases Refers to the feed condition [Pg.495]

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