laboratory Foam separation Foam sep

laboratory Foam separation Foam separation controls accumulation of dis- solved organic wastes. It is accomplished here by passing finely divided air bubbles through a column o culture medium. Surface-active compounds are con centrated on large amounts of gas-liquid interfaces. They are removed at the top in solute-enriched foam, or are filtered from the column effluent as formed particles. Removal of complex organic molecules from seawater by foaming has been well documented (BAYLOR and SUTCLIFFE, 1963; BAYLOR et al., 1962 BRUNNER and STEPHAN, 1965; RILEy et al., 1964), although qualitative investigation of foam products has only recently been attempted. Working with filtrates of natural seawater and pure phytoplankton cultures, wALLACE and WILsON (1969) found evidence which indicates the presence of proteins and/or humic acid, fatty acids, poly-saccharides,and possibly phospholipids and steroids in in saccharides, and collapsed foam (foamate). Also they recovered 27 lys essentially all bovine serum albumin from initial con as low as 5 ug/l in artificial seawater. me Efficiency of the foam separation process depends ref upon design and operation of the foam tower. WALLAC in th and WILSON (1969) discuss parameters of column dimensions, bubble size, gas flow rate, liquid turbu fo lence, foam stability, and foam drainage in con- to siderable detail The tower used here is a straight glass tube, pa 123 cm long by 8.8 cm in diameter Air is supplied at to 400 l/h through a 40 mm diameter, fritted glass disc located at the base of the tower. Culture effluent also enters and leaves the tower at the base through 1 cm diameter glass tubes. Height of the tubes is adjusted so that medium enters about 2/a the way up the a liquid-filled section and drains at the bottom below the level of air input. An external manometer tube main tains the liquid level 12 cm below the top of the column. The medium enters at a rate of 250 ml/min. The gravity drain is opposed by rising air bubbles, thus creating a counterflow which insures adequate processing of the culture effluent. Liquid residence time in the tower is 27 min. In similar columns, used for removal of surfactants from municipal waste treatment plant effluents BRUNNER and STEPHAN (1965) found that liquid residence times as short as 5 min had no significant effect on separation results.