A system for drying plant material comprising an enclosed space having a ceiling, a wall, an enclosed space first portion, and an enclosed space second portion. An air supply provides tempered air into the enclosed space proximate to enclosed space first portion. The system includes at least one air mover, positioned proximate to the ceiling at the enclosed space first portion, having an air mover inlet and an air mover outlet. The system further includes a duct horizontally arranged and having an elongated body, a duct open first end portion, and a duct closed second end portion. A plurality of openings is spaced apart in a predefined pattern on the elongated body. A dehumidifier is positioned proximate to the enclosed space first portion.

A system for drying plant material comprising an enclosed space having a ceiling, a wall, an enclosed space first portion, and an enclosed space second portion. An air supply provides tempered air into the enclosed space proximate to enclosed space first portion. The system includes at least one air mover, positioned proximate to the ceiling at the enclosed space first portion, having an air mover inlet and an air mover outlet. The system further includes a duct horizontally arranged and having an elongated body, a duct open first end portion, and a duct closed second end portion. A plurality of openings is spaced apart in a predefined pattern on the elongated body. A dehumidifier is positioned proximate to the enclosed space first portion.

A seed flow chamber for handling seed and grain commodity, especially for use with a seed treatment applicator. Seed flow is received through an upper inlet opening configured to receive a flow of seed and discharged through a lower discharge opening. A diverging guide member splits the seed flow. A converging guide member disposed below the diverging guide member reunites the seed flow prior to discharge. The converging member has a downward sloping surface and an air vent, such as a plurality of airflow apertures connected to a plenum. The air vent is configured to communicate with an air supply. A vacuum vent—disposed below the diverging guide member—is configured to communicate with a vacuum source. A fan system recirculates air between the air vent and the vacuum vent. Dehumidifier may condition the air supply to assist with drying.

A seed flow chamber for handling seed and grain commodity, especially for use with a seed treatment applicator. Seed flow is received through an upper inlet opening configured to receive a flow of seed and discharged through a lower discharge opening. A diverging guide member splits the seed flow. A converging guide member disposed below the diverging guide member reunites the seed flow prior to discharge. The converging member has a downward sloping surface and an air vent, such as a plurality of airflow apertures connected to a plenum. The air vent is configured to communicate with an air supply. A vacuum vent—disposed below the diverging guide member—is configured to communicate with a vacuum source. A fan system recirculates air between the air vent and the vacuum vent. Dehumidifier may condition the air supply to assist with drying.

Provided are methods for drying and sterilizing cannabis plant material comprising providing feed cannabis plant material having a water content of M0, wherein M0 is greater than 45%; partially drying the feed cannabis plant material to form a partially dried cannabis plant material having a water content of M1, wherein M1 is in the range of between 12% wt and 40% wt; sterilizing the partially dried cannabis plant material to form sterilized partially dried cannabis plant material having a water content of M3; and when said M3 is less than 8% wt or greater than 16% wt, adjusting said M3 to provide a water content of M2, wherein said M2 is between 8% wt and 16% wt. Further provided are methods and systems for drying of cannabis plant material.

A drying system includes: drying furnaces connected in series; an air supply system including an air supply pipe, the air supply system being configured to supply dry air into the furnaces, and an air exhaust system including an air exhaust pipe, the air exhaust system being configured to exhaust wet air in the furnaces, wherein the air supply system and the air exhaust system are being alternately connected between the drying furnaces; a first flow rate regulation valve provided to the air supply system; and a second flow rate regulation valve provided to the air exhaust system.

A drying system includes: drying furnaces connected in series; an air supply system including an air supply pipe, the air supply system being configured to supply dry air into the furnaces, and an air exhaust system including an air exhaust pipe, the air exhaust system being configured to exhaust wet air in the furnaces, wherein the air supply system and the air exhaust system are being alternately connected between the drying furnaces; a first flow rate regulation valve provided to the air supply system; and a second flow rate regulation valve provided to the air exhaust system.

A vacuum dryer not requiring a vacuum pump according to an embodiment of the present invention comprises: a drying chamber in which a drying rack is installed, and an exhaust valve communicating with the interior is provided on the outside of the other side; a steam generator located outside the drying chamber, having a water tank, and connected to a steam inlet; and a heat pump interlocked with the inside and outside of the drying chamber and configured by including a condenser provided in a high-temperature area, a first heat exchanger connected to the condenser outside the drying chamber, an evaporator provided in a low-temperature area, a second heat exchanger connected to the evaporator outside the drying chamber, a compressor connecting the first heat exchanger and the second heat exchanger, and an expansion valve connecting the condenser and the evaporator.

A vacuum dryer not requiring a vacuum pump according to an embodiment of the present invention comprises: a drying chamber in which a drying rack is installed, and an exhaust valve communicating with the interior is provided on the outside of the other side; a steam generator located outside the drying chamber, having a water tank, and connected to a steam inlet; and a heat pump interlocked with the inside and outside of the drying chamber and configured by including a condenser provided in a high-temperature area, a first heat exchanger connected to the condenser outside the drying chamber, an evaporator provided in a low-temperature area, a second heat exchanger connected to the evaporator outside the drying chamber, a compressor connecting the first heat exchanger and the second heat exchanger, and an expansion valve connecting the condenser and the evaporator.

A dehumidifier system is provided. The dehumidifier system may include a condensate tank and a dehumidifier. The dehumidifier may be positionable between at least one deployed position and at least one stowed position relative to the condensate tank. The condensate tank and the dehumidifier may telescope relative to each other. The dehumidifier system, or portions thereof, may include one or more stacking structures.