Retort agitation system and method

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A system for agitating products in a longitudinal retort, comprising: a reciprocating assembly, comprising: a reciprocating drive member with a reciprocating drive axis in substantially coaxial alignment with a longitudinal axis of the retort, the reciprocating drive member moveable linearly along the longitudinal axis of the retort such that it is configured to apply linear forces on at least one product carrier for a reciprocal non-sinusoidal pattern of movement of the at least one product carrier along a length of the retort; and a variable input first drive mechanism configured to move the reciprocating drive member linearly back and forth along the reciprocating drive axis by alternating between first and second drive directions of the variable input first drive mechanism; a clamping assembly defined on the reciprocating drive member, comprising: a first clamping subassembly having a first carrier stop configured to selectively impose a first clamping force on a first end of the at least one product carrier; and a second clamping subassembly having a second carrier stop including a bore, wherein the reciprocating drive member passes through the bore such that the second carrier stop is slidable axially on the reciprocating drive member by a second drive mechanism and configured to selectively impose a second opposing clamping force on a second end of the at least one product carrier. 2. The system of claim 1 , wherein the second carrier stop is moveable axially along the reciprocating drive member between a first position, where the second carrier stop is disengaged from the second end of the at least one product carrier, and a second position, where the second carrier stop is engaged with the second end of the at least one product carrier for linear movement with the reciprocating drive member. 3. The system of claim 1 , wherein the first clamping subassembly is configured as a tailgate mechanism with the first carrier stop configured to selectively engage the first end of the at least one product carrier when the reciprocating drive member is moved in a first direction and disengage the first end of the at least one product carrier when the reciprocating drive member is moved in a second direction, wherein the first clamping subassembly includes a pivot arm pivotally secured to a first end portion of the reciprocating drive member and the first carrier stop is defined on the pivot arm such that the first carrier stop is configured to engage the first end of the at least one product carrier when the reciprocating drive member is moved in the first direction. 4. The system of claim 1 , wherein the variable input first drive mechanism is a hydraulic actuator having a position feedback device configured to output one or more signals to a controller indicative of a linear position of the reciprocating drive member, and wherein the controller is configured to process the one or more signals from the position feedback device and output one or more signals to the variable input drive mechanism for activating and controlling at least one of a speed, acceleration, stroke length, frequency, pause time between strokes, and direction of the reciprocating drive member, wherein a stroke is a movement of the at least one product carrier by the reciprocating drive member along at least a portion of the length of the retort. 5. The system of claim 1 , wherein, the non-sinusoidal pattern of movement is defined when the variable input first drive mechanism moves the reciprocating drive member to define a pattern of movement with at least one of: a plurality of strokes of the at least one product carrier in a first direction before movement of the at least one product carrier back in an opposite second direction, wherein a stroke is a movement of the at least one product carrier by the reciprocating drive member along at least a portion of the length of the retort; and a plurality of strokes of the at least one product carrier in a first direction before movement of the at least one product carrier back in an opposite second direction with a pause in movement between each of the plurality of strokes, wherein a stroke is a movement of the at least one product carrier by the reciprocating drive member along at least a portion of the length of the retort. 6. The system of claim 1 , wherein the variable input first drive mechanism of the reciprocating assembly is configured to vary at least one of a speed, stroke length, frequency, acceleration, pause time between strokes, direction of the reciprocating drive member, and G-force to move the at least one product carrier along a length of the retort in a non-sinusoidal pattern of movement, wherein a stroke is a movement of the at least one product carrier by the reciprocating drive member along at least a portion of the length of the retort. 7. The system of claim 1 , wherein an output drive member of the second drive mechanism is coupled to the second carrier stop for moving the second carrier stop between the first and second positions, wherein the second drive mechanism moves linearly with the reciprocating drive member. 8. The system of claim 1 , wherein the second drive mechanism is one of an electric linear actuator, a servo motor, a pneumatic piston, and a hydraulic piston having a drive member that is moveable in response to signals received from a controller to correspondingly move the second carrier stop. 9. The system of claim 1 , wherein an output drive member of the second drive mechanism is coupled to the second carrier stop through a first attachment member, and wherein the second drive mechanism is coupled to the reciprocating drive member through a second attachment member moveable with the reciprocating drive member such that the second drive mechanism moves linearly with the reciprocating drive member. 10. The system of claim 9 , wherein a clamping rod extends between the first attachment member and the second carrier stop, the clamping rod having a bore, wherein the reciprocating drive member passes through the bore of the clamping rod such that the clamping rod is slidable axially on the reciprocating drive member by the second drive mechanism. 11. A system for agitating products in a longitudinal retort, comprising: a reciprocating assembly comprising: a reciprocating drive member configured to apply linear forces on at least one product carrier for a reciprocal non-sinusoidal pattern of movement of the at least one product carrier along a length of the retort by alternating between first and second drive directions of a first drive mechanism; a clamping assembly configured to selectively secure at least one product carrier to the reciprocating drive member, the clamping assembly comprising: a first clamping subassembly configured to secure a first end of the at least one product carrier to a first portion of the reciprocating drive member when a first carrier stop engages the first end of the at least one product carrier to impose a first clamping force on the first end of the at least one product carrier, and a second clamping subassembly configured to secure a second end of the at least one product carrier to a second portion of the reciprocating drive member when a second carrier stop engages the second end of the at least one product carrier to impose a second opposing clamping force on the second end of the at least one product carrier, the second carrier stop including a bore, wherein the reciprocating drive member passes through the bore such that the second carrier stop is slidable axially on the reciprocating drive member by