A powder heating assembly of a rapid prototyping apparatus includes a powder feeder and a heating module. The powder feeder includes an accommodation space and a powder falling port in communication with the accommodation space. The heating module is disposed under the powder feeder, and includes a thermally conductive cap and a heat conduction structure. The powder falling port is capped by the thermally conductive cap. The thermally conductive cap includes a powder exhaust port. The powder exhaust port is in communication with the powder falling port. The heat conduction structure is arranged between the accommodation space of the powder feeder and the thermally conductive cap and includes a heater. The heat generated by the heater is transferred to the construction powder within the powder feeder to preheat the construction powder, remove the moisture contained in the construction powder and dry the construction powder.

A vertical seed conditioner may be formed of a plurality of sections that can be individually removed for repair and/or replacement without requiring the entire seed conditioner be permanently decommissioned. For example, the seed conditioner may be formed of a plurality of heat transfer sections stacked vertically with respect to each other to form the conditioning vessel. Each heat transfer section may include an inlet manifold, an outlet manifold, and multiple heat transfer tubes extending from the inlet manifold to the outlet manifold. The multiple heat transfer tubes may be spaced from each other to provide a gap between adjacent tubes through which the granular solid can travel.

An internal staged suppression system for suppressing a hazard occurring in a grain dryer includes a plurality of vertical column sections and at least one spray head positioned radially inward within the interior of the grain dryer. The spray head includes a deflector cap that generates a substantially horizontal spray of water sufficient to reach the walls defining the grain columns.

An internal staged suppression system for suppressing a hazard occurring in a grain dryer includes a plurality of vertical column sections and at least one spray head positioned radially inward within the interior of the grain dryer. The spray head includes a deflector cap that generates a substantially horizontal spray of water sufficient to reach the walls defining the grain columns.

A column deluge suppression system for suppressing a hazard occurring in a grain dryer includes a plurality of vertical column sections and a segmented, annular manifold. The manifold is positioned around the upper section of the grain dryer in proximity to the grain columns. The manifold includes a plurality of elongated deluge drops that extend toward the grain column openings and permit water to drench the grain columns.

A column deluge suppression system for suppressing a hazard occurring in a grain dryer includes a plurality of vertical column sections and a segmented, annular manifold. The manifold is positioned around the upper section of the grain dryer in proximity to the grain columns. The manifold includes a plurality of elongated deluge drops that extend toward the grain column openings and permit water to drench the grain columns.

A torrefaction reactor includes a preheater section and a torrefaction section arranged to receive the biomass material from the preheater section. The preheater section includes a plurality of preheater plates arranged to facilitate the flow of the biomass material between the preheater plates by the force of gravity, each of the preheater plates facilitates a flow of a preheater fluid through the preheater plate for heating the biomass material. The torrefaction section includes a plurality of torrefaction plates arranged to facilitate the flow of the biomass material between the torrefaction plates by the force of gravity, each the torrefaction plates facilitates a flow of a torrefaction fluid through the torrefaction plate for heating the biomass material to the torrefaction temperature, and a first and second torrefaction purge gas openings to facilitate a flow of a torrefaction purge gas for providing an oxygen-depleted environment within the torrefaction section.

A torrefaction reactor includes a preheater section and a torrefaction section arranged to receive the biomass material from the preheater section. The preheater section includes a plurality of preheater plates arranged to facilitate the flow of the biomass material between the preheater plates by the force of gravity, each of the preheater plates facilitates a flow of a preheater fluid through the preheater plate for heating the biomass material. The torrefaction section includes a plurality of torrefaction plates arranged to facilitate the flow of the biomass material between the torrefaction plates by the force of gravity, each the torrefaction plates facilitates a flow of a torrefaction fluid through the torrefaction plate for heating the biomass material to the torrefaction temperature, and a first and second torrefaction purge gas openings to facilitate a flow of a torrefaction purge gas for providing an oxygen-depleted environment within the torrefaction section.