A media sifter is provided that is operable to separate cleaning media from casings. The sifter has components configured to selectively prevent rotation and allow rotation of a sifting drum rotatably mounted in a housing. The housing has both a cover and a media collection base.

A media sifter is provided that is operable to separate cleaning media from casings. The sifter has components configured to selectively prevent rotation and allow rotation of a sifting drum rotatably mounted in a housing. The housing has both a cover and a media collection base.

A foodstuff sieve station includes a hopper to pour floury foodstuff and an electrically-operated sifting assembly to sift it for separating impurities from still-usable foodstuff. The sifting assembly includes a hopper-shaped with bell-shaped, rotatable sieve housed/recessed inside the casing. The sieve has-an axis tilted with respect to the vertical and an upward mouth underneath an outlet of the hopper to receive foodstuff therefrom. An electric motor assembly rotates the sieve about the axis. The sieve prevents the foodstuff having a grain size higher that a threshold value to flow through, and has an inwardly protruding assembly that projects from the inner surface and extends on a helical-shaped path from the bottom of the sieve to the mouth of the sieve.

A foodstuff sieve station includes a hopper to pour floury foodstuff and an electrically-operated sifting assembly to sift it for separating impurities from still-usable foodstuff. The sifting assembly includes a hopper-shaped with bell-shaped, rotatable sieve housed/recessed inside the casing. The sieve has-an axis tilted with respect to the vertical and an upward mouth underneath an outlet of the hopper to receive foodstuff therefrom. An electric motor assembly rotates the sieve about the axis. The sieve prevents the foodstuff having a grain size higher that a threshold value to flow through, and has an inwardly protruding assembly that projects from the inner surface and extends on a helical-shaped path from the bottom of the sieve to the mouth of the sieve.

A rotary separation apparatus is deployed in a process for separating resinous trichomes rich in flavoring, aromatic and/or medicinal components produced in plant trichome glands from unwanted plant matter. A liquid freezing agent is introduced into a container of the plant matter to fragment the undesirable matter while the desired portion rich in trichome remain intact.

A rotary separation apparatus is deployed in a process for separating resinous trichomes rich in flavoring, aromatic and/or medicinal components produced in plant trichome glands from unwanted plant matter. A liquid freezing agent is introduced into a container of the plant matter to fragment the undesirable matter while the desired portion rich in trichome remain intact.

A conditioner for filtering and drying recyclable abrasive media, such as steel grit, garnet, or other abrasive media used for abrasive blasting operations for steel structures, such as bridges, tanks, and marine vessels that are being repainted. The conditioner may include a pre-classifier (e.g., a trommel) to separate or filter the abrasive media from larger debris that may be vacuumed with the abrasive media during resurfacing operations. A dryer may use radiation elements (e.g., infrared (IR) lamps) positioned above a conveyor (e.g., vibration tray) that moves the abrasive media beneath the radiation elements. Vacuum airflow may bypass the dryer except for a portion of the vacuum airflow used to remove moisture from the dryer while drying the abrasive media. The conditioner may have a drying portion or the entirety under negative pressures.

A conditioner for filtering and drying recyclable abrasive media, such as steel grit, garnet, or other abrasive media used for abrasive blasting operations for steel structures, such as bridges, tanks, and marine vessels that are being repainted. The conditioner may include a pre-classifier (e.g., a trommel) to separate or filter the abrasive media from larger debris that may be vacuumed with the abrasive media during resurfacing operations. A dryer may use radiation elements (e.g., infrared (IR) lamps) positioned above a conveyor (e.g., vibration tray) that moves the abrasive media beneath the radiation elements. Vacuum airflow may bypass the dryer except for a portion of the vacuum airflow used to remove moisture from the dryer while drying the abrasive media. The conditioner may have a drying portion or the entirety under negative pressures.

An apparatus for removing sand from a well fluid includes a pressure vessel having an inlet and an outlet. The well fluid flows into the pressure vessel through the inlet and flows out of the pressure vessel through the outlet. A screen is positioned at least partially within the pressure vessel and configured to remove the sand from the well fluid. At least a portion of the sand that is removed from the well fluid at least partially obstructs one or more openings in the screen. A cleaning assembly is positioned at least partially between the pressure vessel and the screen and configured to remove the sand that is obstructing the one or more openings in the screen during a screen-cleaning operation.

An apparatus for removing sand from a well fluid includes a pressure vessel having an inlet and an outlet. The well fluid flows into the pressure vessel through the inlet and flows out of the pressure vessel through the outlet. A screen is positioned at least partially within the pressure vessel and configured to remove the sand from the well fluid. At least a portion of the sand that is removed from the well fluid at least partially obstructs one or more openings in the screen. A cleaning assembly is positioned at least partially between the pressure vessel and the screen and configured to remove the sand that is obstructing the one or more openings in the screen during a screen-cleaning operation.