APT-2.0 Spray dryer
APT-2.0 Spray dryer - a compact equipment with an increased evaporation capacity developed specifically for small productions or scale-up activities.
Evaporative capacity max.: 2 kg/h (distilled water)
Max. inlet temperature: 220 °C
Heating capacity: 4.0 kW
Fan capacity max.: 60 m³/h
Accepted nozzle: Two-fluids
Weight: 200 kg (depending on options)
Filters: antistatic polyester needlefelt microporous PTFE or antistatic polyester fabric scoured
A high-potency version of the APT 2.0 Spray dryer model is available.
The APT-2.0 Spray dryer is equipped with a precise humidity monitoring system embedded in the software. All parameters are controlled and monitored via the touchscreen HMI, which is mounted on board next to the spray tower. This feature enables end users to record real-time drying performance and seamlessly develop DoE models.
Features
- Air heater: Effectively raises the temperature of the drying medium, preparing it for its role in evaporating the solvent from the atomized feed in the spray dryer.
- Drying tower: Entirely made of borosilicate glass 3.3, where the liquid is mixed with heated air or nitrogen and atomized while solvents are evaporated.
- Cyclone separator: Ensures that the dried product is efficiently separated and collected, minimizing product loss and ensuring cleaner exhaust air.
- Nozzle atomizer: Designed to convert a liquid feed into fine droplets.
- Product inlet: A mix-blend, solution, or suspension in liquid form. An inlet container (not included in the scope of supply) ensures constant suction of raw material and subsequent transfer into the heating tower.
- Dust collector: Located between the cyclone separator and the HEPA filtration system (if present). It is used to recover ultrafine particles not captured by the cyclone separator. The pressure inside is continuously monitored by the PLC.
Upon request, the inlet can be customized to adapt to different source containers.
Various model configurations are available. Please ask our specialists for more information.