FUNCTIONUsed mainly for drying of high grade, temperature and oxygen sensitive products. Highly suitable for drying hygroscopic substances, which are dried to very low residual moisture, content
level. Frequently vacuum drying cabinets are the sole possibility for drying lumpy, glutinous products or products of low pomposity.CAPACITYStandard models range from 4 trays to 48 trays.SALIENT
FEATURESBodies may be of cylindrical or rectangular cross section. Both shelves and body are heated (the body to prevent internal condensation) with controlled circulation of hot water, steam or
dia thermic fluid. Vacuum is drawn through large diameter ducts to minimize pressure drops and produce minimum working pressures. Both rotary and static dryers can be supplied with the following
Optional ancillaries.Heater system for either pressurized hot water or dia thermic fluid. Cyclones and sleeve filters for powder recovery (for rotary dryers) Solvent recovery system with condenser
and receiver, vacuum pump and ancillaries, characteristics and dimensions depending on the drying processes.Vacuum Tray dryer is the most commonly used batch dryer. They are box-shaped and loaded
and unloaded via a door (two doors on the larger models). Inside are several heating plates mounted one above the other on which the product is placed in trays. The bottoms of both heating plates
and trays should be as smooth as possible to permit optimal heat transfer between plates and product. The medium flowing through the heating plates is water, steam or thermal oil. The distance
between the heating plates is determined primarily by the surface loading and the foaming of the product. To void retrograde condensation the cabinet walls are indirectly preheated by the heating
plates. Next, the product is introduced and heated at atmospheric pressure. Only after all individual product trays reach the same temperature the cabinet is evacuated and drying can start. The
preheating phase is very important in order that the drying curve and the foaming of the product is identical throughout the cabinet. During the main drying phase the vacuum is in the range of 40
to 80 mbar abs and in the final drying phase vacuums of only few mbar abs are reached. Heating temperatures are normally in the range between 800C and 1100C. Depending on product and surface load,
drying takes from a few hours to 1 to 2 days. For some products the vacuum and temperature profiles are automatically controlled in order to prevent a pass over of the critical product temperature.
The dimensioning of the vacuum system is an important factor in the design of drying cabinet systems. If for example vigorous foaming of the product is desired, evacuation to the operational vacuum
level must take place very quickly. Vapors produced during drying are taken out direct, or via a steam jet compressor to a surface condenser in which the vapors condensate. The non-condensable
vapors are extracted by the vacuum system.On completion of the drying, the product can be cooled by circulating of cooling water through the heating plates.Features: All contact parts are made out
of SS304 / SS316 / SS316L quality material in GMP models and mild steel externals with stainless steel internals in standard model Hollow pad type heating shelves which are easily removable for
maintenance Condenser and condensate receiver fixed on the dryer body or stand alone for remote installation Full welded skirt on vacuum dryer body for flush mounting through the wall. External
fluid heating of dryer with protective panels in stainless steel or mild steel powder coated Dedicated fluid heating and circulating systems. These can be steam or electrically heated. Fluid
heating systems are available for water as well as thermic fluid (for temperature requirements above 95 oC) Validation ports and nitrogen purge nozzles Can be designed to customers specification
requirements Steam sterilisable models available Double door loading available for large models Halar lined internals for corrosive applications