The disclosure includes systems and methods of producing cannabidiol (CBD) isolate. In some embodiments, a method includes dissolving, via an agitated vessel, CBD oil in a solvent to thereby form a slurry comprising CBD isolate and excess solvent, and sending at least a portion of the slurry from the agitated vessel to an agitated Nutsche filter dryer. Some embodiments include pressurizing an internal portion of the agitated Nutsche filter dryer to remove the excess solvent and capture the CBD isolate in a filter of the agitated Nutsche filter dryer.

To improve operating efficiency of a dry grinding machine, the dry grinding machine includes a rotating shaft; a first blade that is rotationally driven by the rotating shaft; a grinding chamber that houses the first blade; a feed-in section that feeds material to be processed, which is transported by hot wind into the grinding chamber from a direction intersecting the rotating shaft; and a discharging section that is arranged on a side of the first blade opposite the feed-in section, in an axial direction of the rotating shaft, and discharges from the grinding chamber, along with the hot wind, the material to be processed that has been ground by the first blade while being dried by the hot wind fed in from the feed-in section.

The invention relates to a pellet dryer (1) comprising: a housing (2), an inlet for feeding fluid flushed pellets and two separate outlets (3, 10) for discharging the dried pellets and the fluid, a vertical bladed rotor (4) for separation of the fluid by a screen (5) toward outside of the screen (5) surrounding the bladed rotor (4) and for a vertical acceleration and separation of the pellets by the blades (6) of the bladed rotor (4) and for continuously drying the vertically accelerated pellets inside the screen (5) of the housing (2), wherein an additional blower (18) is provided comprising a fan on top of the housing (2) positioned in the periphery of the bladed rotor (4) and connected with a ductwork (20) inside the housing (2) between an inner surface (16) of the housing (2) and an outer surface (38) of a framework (39) of the screen (5), wherein the rotational speed of the additional blower (18) is controlled by a central controller unit of the pellet dryer (1) independently of the rotational speed of the bladed rotor (4).

A device (1) for drying and sanitising organic waste materials, comprising a container body (10) for housing the waste materials to be dried and provided with an inlet (16) for the materials to be dried and an outlet (17) for the dried materials, mixing elements (20) located in the container body (10) and provided with at least a blade (21) able to mix the materials to be dried and sanitised, projectingly supported by a rotating shaft (23), a ventilation circuit (30) able to generate a forced ventilation of air internally of the container body (10), and comprising generator means (33) of an air flow located externally of the container body (10) communicating with at least a dispenser nozzle (34) located internally of the container body (10), in which the at least a dispenser nozzle (34) is associated to the at least a blade (21) able to mix the waste materials located in the container body (10) wherein it comprises at least a temperature sensor (42) configured such as to measure a temperature internally of the container body (10) and in that it comprises a control system which receives a signal from the at least a temperature sensor (42) and is able to control the air flow injected into the container body (10) by the ventilation circuit (30) as a function of the signal received from the temperature sensor (42).

A device (1) for drying and sanitising organic waste materials, comprising a container body (10) for housing the waste materials to be dried and provided with an inlet (16) for the materials to be dried and an outlet (17) for the dried materials, mixing elements (20) located in the container body (10) and provided with at least a blade (21) able to mix the materials to be dried and sanitised, projectingly supported by a rotating shaft (23), a ventilation circuit (30) able to generate a forced ventilation of air internally of the container body (10), and comprising generator means (33) of an air flow located externally of the container body (10) communicating with at least a dispenser nozzle (34) located internally of the container body (10), in which the at least a dispenser nozzle (34) is associated to the at least a blade (21) able to mix the waste materials located in the container body (10) wherein it comprises at least a temperature sensor (42) configured such as to measure a temperature internally of the container body (10) and in that it comprises a control system which receives a signal from the at least a temperature sensor (42) and is able to control the air flow injected into the container body (10) by the ventilation circuit (30) as a function of the signal received from the temperature sensor (42).

A drying apparatus of porous material includes a reduced-pressure fermentation dryer configured to: store porous material containing water in an airtight container; heat and stir the porous material under reduced pressure so that a temperature of the porous material is within a predetermined temperature range; feed microorganisms into the airtight container so that the microorganisms enter pores of the porous material; and evaporate the water contained in the porous material by fermentation heat by the microorganisms so as to dry the porous material.

A drying apparatus of porous material includes a reduced-pressure fermentation dryer configured to: store porous material containing water in an airtight container; heat and stir the porous material under reduced pressure so that a temperature of the porous material is within a predetermined temperature range; feed microorganisms into the airtight container so that the microorganisms enter pores of the porous material; and evaporate the water contained in the porous material by fermentation heat by the microorganisms so as to dry the porous material.

A desolventizer for processing solvent-wet solid material may include a thermal recirculation loop to increase thermal performance. In some examples, the desolventizer includes a housing, an ejector, and a vent. The housing contains a first tray and a second tray vertically elevated above the first tray to define a processing space. The ejector has an inlet located between the first tray and the second tray and an outlet also located between the first tray and the second tray. The vent has an inlet located between the first tray and the second tray. In operation, the ejector can draw gas from the processing space via the inlet and discharge the gas through the outlet back into the processing space, creating a recirculation loop.

The present invention relates to an improved food waste dryer utilizing waste heat, which includes a main frame, a dryer drum with an access door, to be positioned in the main frame, and an agitator positioned in the dryer drum. The improved food waste dryer comprises: a waste heat supply unit, a heating jacket positioned on the outer surface of the dryer drum, with a hot-air inlet to receive the waste heat from the waste heat supply unit and a hot-air outlet to discharge the waste heat inside the dryer drum, and a condensation system positioned in the main frame, to remove moisture included in the interior air of the dryer drum to increase the drying efficiency of the food waste dryer utilizing waste heat.

The present invention relates to an improved food waste dryer utilizing waste heat, which includes a main frame, a dryer drum with an access door, to be positioned in the main frame, and an agitator positioned in the dryer drum. The improved food waste dryer comprises: a waste heat supply unit, a heating jacket positioned on the outer surface of the dryer drum, with a hot-air inlet to receive the waste heat from the waste heat supply unit and a hot-air outlet to discharge the waste heat inside the dryer drum, and a condensation system positioned in the main frame, to remove moisture included in the interior air of the dryer drum to increase the drying efficiency of the food waste dryer utilizing waste heat.