Alpine AFG
Alpine AHM
Alpine AL
Alpine AS
Alpine Circoplex ZPS
Alpine Contraplex CW
Alpine PDD Twin Screw Volumetric
Alpine UPZ
Hosokawa Bepex Bexmill
Hosokawa Bepex Bextruder Extruder/Granulator
Hosokawa Bepex Flake Crusher
Hosokawa Bepex Gear Pellitizer
Hosokawa Bepex Pharmapaktor
Micron Agglomaster AGM
Micron Air Jet Sieve
Micron Drymeister
Micron Powder Characteristics Tester Model PT-S
Micron Separator
Mikro ACM Air Classifying Mill
Mikro High Efficiency Cyclone
Mikro LPM
Mikro Pneumatic Vibratory Feeder PF
Mikro UMP High Speed Impact Mill
Stott Glove Boxes / Isolators
Stott Hygienic Bulk Packaging Systems
Stott Laminar Flow booth
Vitalair Downflow Booths
Vrieco-Nauta Active Freeze Dryer
Vrieco-Nauta Centro Screw Mixer (CM-Series)
Vrieco-Nauta Conical Screw Mixers
Vrieco-Nauta Cyberjet
Vrieco-Nauta Cyclomix
Vrieco-Nauta Isem Ball Segment Valves
Vrieco-Nauta Mixing Sensors
Vrieco-Nauta Modulomix
Vrieco-Nauta Silo Mixer
Vrieco-Nauta Vacuum Dryers
The Alpine AFG fluidized-bed jet mill is suitable for fine and ultrafine size reduction of any material up to a Moh's hardness of 10 that can be fluidized by the expanded compressed gas in the grinding chamber. The addition of an internal forced vortex classifier is capable of controlling particle top sizes (D97) as low as 3 microns.
The key to maintaining a consistent particle size distribution is the integral air classifier. Air classification is defined as the separation of bulk material according to the settling velocity in a gas. In this type of jet mill two opposing forces act on the particle, the mass force and the drag force. The particle size at which the mass force and the drag force act equally on the particle is defined as the cut point. If the mass force (or weight of the particle) exerts a greater influence on the particles coarser than the cut point, they are returned to the grinding zone of the jet mill and reduced further. If the drag force (or airflow through the classifier) acts upon particles finer than the cut size, they are carried through the classifier wheel and recovered as product.
By changing the parameter of classifier wheel speed, airflow, and grind pressure, a wide variety of particle size cut points can be achieved. Achievable particle size ranges include D97 as low as 3 microns to as high as 60 microns.
Features of the Pharmaceutical Design Fluidized Bed Jet Mill
- Monoblock easy clean construction
- Bearing assembly designs which can be CIP and /or sterilized in place (SIP)
- Explosion Containment design in 10 Bar G construction
- Modified designs which can be completely enclosed in isolation enclosures or gloveboxes
The Alpine AFG fluidized bed jet mill is capable of handling sample sizes as low as 150 grams up to production capacities of 120 kg/hour. This type of mill offers the following key advantages over other types of jet mills in the pharmaceutical industry:
- Steep particle size distributions with defined top sizes , ideal for DPI (Dry Powder Inhalers), and parenterals
- Low heat generation due to the cooling expansion which takes place in the milling chamber
- Low noise (less than 80 dB)
- Elimination of scaling or sticking that often occurs with spiral jet mills due to the lack of impact against the mill wall
Alpine AFG fluidized bed jet mills can also be integrated into Stott isolators. This arrangement provides a completely integrated system capable of containment levels as low as 1 microgram/cubic meter.