Mass-transfer operations are categorized by the phases involved and the method of separation [8, 32]. Phases Involved Basis of Separation Industrial Example Liquid-Vapour Differences in boiling points/volatility Petroleum refining, alcohol recovery Gas Absorption Gas-Liquid Solubility of a gas in a liquid solvent SO2cap S cap O sub 2 from flue gases Extraction Liquid-Liquid Solubility in an immiscible solvent Recovery of aromatics or edible oils Leaching Solid-Liquid Solubility of a solid solute in a solvent Extracting sugar from sugar beets Adsorption Fluid-Solid Selective adherence to a solid surface Air purification using activated carbon Drying Solid/Liquid-Gas Removal of moisture via evaporation Removing water from PVC or food products Membrane Separation Fluid-Fluid Selective permeability through a barrier Desalination (Reverse Osmosis) Design and Calculation Methods
: Assumes the streams leaving a stage (like a tray in a tower) are in thermodynamic equilibrium. The number of "ideal stages" is calculated and then adjusted for efficiency [1, 2, 32]. Mass-transfer operations
exchange in human lungs and waste removal in kidneys (dialysis) are complex mass-transfer processes [14, 16]. exchange in human lungs and waste removal in
Engineers use two primary approaches to design mass-transfer equipment: Mass-transfer operations