A method of processing products in a retort having a length includes arranging products in at least one product carrier for movement along at least a portion of the length of the retort and reciprocating the at least one product carrier along at least a portion of the length of retort in a non-sinusoidal pattern of movement.

A retort agitation system (100) for thermal processing of products includes product carriers 102a and 102b mounted on a low friction support system 104 for reciprocal movement of the carriers along the interior of a retort. The product carriers are driven in reciprocating motion by a drive actuator system 106 that can be positioned between the carriers 102a and 102b or endwise of the two carriers 102a and 102b. A drive actuator system 106 is linked to the carriers to cause the carriers to move along opposite reciprocating paths lengthwise of the retort. Reaction actuators 108 act on the carriers in opposition to the drive actuator system 106 to apply forces on the carriers for accelerating the carriers along the reciprocating paths of travel when such carriers reach the distal and proximal ends of the reciprocating travel paths.

A retort agitation system (100) for thermal processing of products includes product carriers 102a and 102b mounted on a low friction support system 104 for reciprocal movement of the carriers along the interior of a retort. The product carriers are driven in reciprocating motion by a drive actuator system 106 that can be positioned between the carriers 102a and 102b or endwise of the two carriers 102a and 102b. A drive actuator system 106 is linked to the carriers to cause the carriers to move along non-sinusoidal paths lengthwise of the retort. Reaction actuators 108 act on the carriers in opposition or in supplement to the drive actuator system 106 to apply forces on the carriers for accelerating the carriers along their non-sinusoidal paths of travel.

The present invention includes a method for enhancing the taste of a food product, which includes the steps of culturing a submerged mycelial liquid tissue culture in a media, collecting the supernatant fluid of the submerged mycelial liquid tissue culture, and adding the collected supernatant fluid to a food product in an amount sufficient to enhance the food product's taste. In one embodiment, the mycelial liquid tissue culture comprises C. sinensis, and the culture step is carried out for between about one and sixty days. The food products include quinoa, amaranth, whole wheat, stevia plant parts, steviol glycoside, aspartame, acesulfame-K, sucralose, carbohydrates, salt substitutes such as potassium chloride, monk fruit, cacao, cacao liquor, tea, ginseng, pea protein, sugar alcohol, coffee, cranberry, grapefruit, pomegranate, coconut, wine, beer, liquor and spirits. The present invention also includes products made by the disclosed methods.