Abstract: This invention was designed to condense, separate and collect volatile compounds from the vapor steam as they exit the dehydrator. Bulk condensate is allowed to accumulate and separate in a separator vessel under vacuum. The undesirable water phase condensate is periodically drained into a water vessel, which is also held under vacuum instead of atmospheric pressure to avoid agitation and mixing of the contents of the separator vessel arising from purging the separator vessel to atmosphere. The separated and desirable oily condensates can then be easily recovered from the separator vessel.

Abstract: This invention was designed to condense, separate and collect volatile compounds from the vapor steam as they exit the dehydrator. Bulk condensate is allowed to accumulate and separate in a separator vessel under vacuum. The undesirable water phase condensate is periodically drained into a water vessel, which is also held under vacuum instead of atmospheric pressure to avoid agitation and mixing of the contents of the separator vessel arising from purging the separator vessel to atmosphere. The separated and desirable oily condensates can then be easily recovered from the separator vessel.

Abstract: A method for producing foams containing biological materials is described. A solid or semi-solid paste is formed by combining biologically active material with a protecting agent in an aqueous solvent. The paste formed is allowed to set, and may optionally then be apportioned into the desired shape. The paste may be frozen to allow formation of ice crystals to act as porogens. Subsequently, the paste is exposed to travelling wave radiant energy under vacuum (t-REV) for drying. This causes the solvent to boil off, leaving dried material containing the biologically active material, the protecting agent, and a relatively low water content. Biologically active materials which can be used include cells, microbial cultures, live attenuated microbes, probiotics, yeasts, enzymes, vaccines, proteins, and any heat-sensitive biological material. By directing energy via a travelling wave through a sample, good control of temperature and process conditions can be achieved.

Abstract: A process for the isolation and separation of lysozyme and avidin from egg white is carried out by:step (a) contacting egg white with a weakly acidic cation exchange resin whereby lysozyme and avidin are adsorbed on to the resin; separating the resin from the egg white and washing the resin to remove residual egg white therefrom; and contacting the washed resin with a low ionic strength eluting buffer whereby lysozyme is eluted from the resin while avidin remains adsorbed on the resin; andstep (b) repeating the complete procedure defined in step (a) for two or more times; andstep (c) finally contacting the resin containing accumulated adsorbed avidin with a high ionic strength eluting buffer whereby avidin is eluted from the resin.Lysozyme and avidin are both commercial products useful, for example, in pharmaceutical applications.