An agricultural incline conveyor having belt guards extending longitudinally through a curvilinear portion from a tail inlet to a head outlet. The belt guards protect linear edges of a belt within the curvilinear portion during mixing operations. A plurality of mixing baffles positioned within the curvilinear portion induce turbulent backflow of a metered stream of seed being transported through the curvilinear portion. The longitudinal guards prevent the loss of transported seed from entering between the belt and a trough of the curvilinear portion.

Spray drying method and systems are disclosed that include one or more single-use components. Single-use spray drying systems can include a drying chamber with an inner surface formed of a polymeric material. The single-use components can be pre-sterilized and sterile packaged to provide improved efficiencies and greater flexibility in spray drying systems.

Spray drying method and systems are disclosed that include one or more single-use components. Single-use spray drying systems can include a drying chamber with an inner surface formed of a polymeric material. The single-use components can be pre-sterilized and sterile packaged to provide improved efficiencies and greater flexibility in spray drying systems.

A stacking support that has a plurality of sidewalls extending along a longitudinal axis that define an open ended longitudinally extending channel. The sidewalls may define a substantially square cross-sectional shape. Tubes and/or angled corner braces may be positioned at the corners of the substantially square cross-sectional shape. The stacking support may be constructed entirely of aluminum or an aluminum alloy. One or more items may be stacked upon two or more stacking supports. Optionally, the stacking support may be supported by at least one a slider, roller, or caster on a support surface. The stacking support may be coupled to an underside of a platform along with one or more like stacking supports to create a stacking assembly. One or more items may be stacked upon the stacking assembly.

A stacking support that has a plurality of sidewalls extending along a longitudinal axis that define an open ended longitudinally extending channel. The sidewalls may define a substantially square cross-sectional shape. Tubes and/or angled corner braces may be positioned at the corners of the substantially square cross-sectional shape. The stacking support may be constructed entirely of aluminum or an aluminum alloy. One or more items may be stacked upon two or more stacking supports. Optionally, the stacking support may be supported by at least one a slider, roller, or caster on a support surface. The stacking support may be coupled to an underside of a platform along with one or more like stacking supports to create a stacking assembly. One or more items may be stacked upon the stacking assembly.

An electrode drying device is disclosed herein. In some embodiments, a device includes a chamber having an entry port for receiving an electrode and an exit port for dispensing the electrode from the chamber, a guide roll, one or more heating rolls that are spaced apart from the guide roll, the guide roll and the one or more heating rolls provide a path between the entry port and the exist port through which the electrode moves during drying; and a heater disposed between the guide roll and the one or more heating rolls and configured to the electrode to a first temperature, wherein the heating roll is configured to heat to a second temperature, and the device is capable of maintaining the temperature of the electrode at a temperature equal to or higher than the first temperature and lower than the second temperature while the electrode is on the path.

An electrode drying device is disclosed herein. In some embodiments, a device includes a chamber having an entry port for receiving an electrode and an exit port for dispensing the electrode from the chamber, a guide roll, one or more heating rolls that are spaced apart from the guide roll, the guide roll and the one or more heating rolls provide a path between the entry port and the exist port through which the electrode moves during drying; and a heater disposed between the guide roll and the one or more heating rolls and configured to the electrode to a first temperature, wherein the heating roll is configured to heat to a second temperature, and the device is capable of maintaining the temperature of the electrode at a temperature equal to or higher than the first temperature and lower than the second temperature while the electrode is on the path.

An ink drying method and device is provided for injection energy to overheated dry vapor in which saturated moisture vapor is heated and dried so as to miniaturize and cluster particles of the overheated dry vapor; apply impact energy to the clustered overheated dry vapor so as to further miniaturize the clustered particles of the overheated dry vapor and generate nano-size overheated dry vapor; and supply the nano-size overheated dry vapor in a supersaturated state into a chamber in which a substrate is placed to form an anoxic atmosphere within the chamber, infuse the nano-size overheated dry vapor into ink molecules and molecular boundaries in the anoxic atmosphere, and apply the energy of the nano-sized overheated dry vapor to the ink, so as to evaporate the moisture of the ink and degraded or reduced the organic solvent of the ink.

An ink drying method and device is provided for injection energy to overheated dry vapor in which saturated moisture vapor is heated and dried so as to miniaturize and cluster particles of the overheated dry vapor; apply impact energy to the clustered overheated dry vapor so as to further miniaturize the clustered particles of the overheated dry vapor and generate nano-size overheated dry vapor; and supply the nano-size overheated dry vapor in a supersaturated state into a chamber in which a substrate is placed to form an anoxic atmosphere within the chamber, infuse the nano-size overheated dry vapor into ink molecules and molecular boundaries in the anoxic atmosphere, and apply the energy of the nano-sized overheated dry vapor to the ink, so as to evaporate the moisture of the ink and degraded or reduced the organic solvent of the ink.

A conveyor having a conveyance structure, mixing components, belt, and gas manifold. The gas manifold disposed within or on an exterior portion of the structure. The gas manifold having one or more manifold outlet ports to dry, condition, or treat a metered stream of seed within the conveyor. The manifold may be operably connected to a recirculating air system providing the vacuum source and pressurized air source of atmospheric or conditioned air. A filter and vacuum port may extract debris or humidity from the metered stream of seed within the conveyor. A plurality of mixing baffles may be longitudinally spaced apart through the conveyor in a laterally alternating manner to mix the metered stream of seed. The conveyor may be used to transfer, mix, dry, condition and treat the metered stream of seed between multiple stages of treatment.