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Resin dryers.


Vacuum and fluid-bed dryers include Rota-Cone tumble vacuum dryers, horizontal rotary vacuum dryers, and Forberg-II fluidizing dryers. Specializes in packaged systems including heaters and vacuum pumps, and high temperature vacuum PET solid-state equipment.


Hot-air dehumidifying drying systems feature off-the-shelf microprocessor-based temperature controls. HA series hot-air dryers (30 to 3000 cfm) for processing non-hygroscopic materials.

WD series electric and gas dehumidifying dryers for drying hygroscopic materials (10 to 3000 cfm) feature -40 F dewpoint (or lower) operation utilizing twin stationary desiccant beds to ensure dependable uninterrupted flow of dehumidified air. WDMR series compact mini-dryers (10 to 50 cfm) designed especially for operation in high humidity environments.

All dryers designed for convenient serviceability and use state-of-the-art controls to monitor drying. SPI and other communication protocols available.

Mass-Flow series drying hoppers from 25- to 16,000-lb capacity feature tank and cone geometry that promotes true mass-flow of all materials, including sheet regrind. Specially designed air distribution system provides true cross-sectional temperature gradient with no channeling or air-flow bypass. Hoppers can be machine-mounted, floor-mounted or mezzanine-mounted. Multiple hopper drying systems available for central drying applications.

T-series (built by Dri-Air Industries) for machine, cart and floor mounting provides high capacity in a small footprint. Two or four desiccant beds are available. More than 25 base models allow for hundreds of different dryer/hopper and multi-hopper configurations. Features include all-stainless-steel construction and optional multi-hopper banks. Units come with choice of two control systems that monitor and control dryer operation based on desiccant-bed temperature versus time or dewpoint. Valves are operated electrically rather than by compressed air. Options include an advanced controller that uses multiple thermocouples that prevent overdrying and material degradation.

Nomad portable drying and conveying cart systems (10-225 cfm) offer maximum flexibility and efficiency and control drying and conveying of materials in a compact design.


Offers six models of hopper dryers with even heat distribution, accurate temperature controller, and capacities from 25 to 880 lb/ hr. Dust-collector attachment available.

Also a double-dessicant, regenerating dehumidifying dryer that reduces moisture to -40 F dewpoint. Unit comes complete with snake cooler and 110-lb double-insulated hopper.


See Universal Dynamics, Inc.


Offers a series of desiccant dryers capable of drying material to -40 F dewpoint with high efficiency blowers. Hopper sizes from 60-100 lb with process temperature to 300 F.


Resin dehumidifiers and hot-air dryers for extrusion, injection and blow molding applications. Desiccant-based dehumidifiers range from 20 to 5000 cfm and include "fluted bed" desiccant technology. Options include digital dewpointers, diagnostics, central drying system, after-cooling coils, and heaters mounted at the hopper for additional energy savings. Larger units include natural gas regeneration and heat recovery coils for energy efficiency. Also dehumidifying powder drying systems in single- or multiple-batch capacities.

Mold dehumidification systems (MDS) are designed to eliminate mold condensation during high humidity periods. Surrounding the mold enclosure with dry, dehumidified air, MDS-3 system allows injection and blow molders to reduce cooling cycle times up to 30%.

BAS "Smart-Dry" diagnostics package is standard on all FDL series resin dryers. Package offers 7-day timer, monitors dew point, process and regeneration temperatures, return air temperatures, process and regeneration blowers, and alarm functions, which may affect the drying process. Monitoring can be done at the dryer or remotely.


Cactus super dryers in five sizes for processing engineering resins to 150 lb/hr within 30 min of start-up. An alternative to batch-type desiccant drying, Cactus system operates on a continuous basis. Small amounts of resin are heated quickly to force moisture to pellet surface. Compressed air-powered venturi creates air flow across resin to transport surface moisture from resin. Low-wattage heater bands reportedly reduce electrical consumption to 80% less than comparable desiccant dryers. With no moving parts, maintenance is virtually eliminated. Microprocessor controls maintain accurate and constant temperature inside dryer for consistent-quality parts. Predrying is not required.


Thermodynamic plastic dryers utilize the application of radiant conducted heat to accelerate the drying process and are intended for use with molding or extrusion machines processing up to 50 lb/hr of material.


For drying various sizes and types of pellets, offers its 12-in. x 15-ft, 1-hp stainless-steel conveyor dryers with unit and hood insulation and low profile to fit together with inline equipment. Air temperature and volume controlled to maintain pellet quality.

For drying PET chips in a bottle recycling process, offers two-zone, stainless-steel, 2 x 10 ft, 2-hp, fluid-bed dryers furnished as a system with auxiliaries, which include steam coils, noise attenuators, dust collectors, slide gates, valves and discharge-drum covers. Air temperatures and volumes controlled to dry chips to specified levels and prevent melting or fusing.


SpinAway centrifugal dryer for cost-effective drying of flakes or pellets. Capacities from 100 to 110,000 lb/hr, drying to moisture levels to less than 0.05%. Dryer has reinforced rotor-lifter-plate design for extended rotor life. Logarithmic lifter-blade spacing in the rotor design increases the pellet resident time, enhancing drying; and horizontal air-flow forces water and air through the screen rather than out the pellet discharge. Unit requires minimal space, low horsepower, and is designed for continuous, uninterrupted production. Accessories include dewatering units, moist-air exhaust fans, air preheaters, internal washdown spray systems, hardened rotors, pellet-free rotors, and low-noise construction.


Series SD dryers for drying resins at a rate of 15-100 lb/hr. Dual desiccant beds provide low dewpoint of -40 F with completely automatic regeneration cycle. Space-saving construction permits on-machine or separate mounting. Solid-state temperature control enhances reliability. Dryers constructed so that all metal that comes in contact with plastic is stainless-steel, thus preventing contamination from corrosion. Also series LTA triple-bed dryers for drying resins at a rate of 250-3500 lb/hr. All dryers available with optional Allen Bradley controls and SPI communications protocol.

Sensi-Dry weigh dryer mounts the drying hopper onto load cells that sense the weight of the hopper and its contents. Allen-Bradley controller periodically polls the load cells for weight information, determining the rate at which material is being removed from the drying hopper. This capacity to control feed rate into the hopper virtually eliminates material degradation by ensuring that material does not remain in the hopper for an extended period. Sensi-Dry is also availabe with Man Machine Interface (MMI). Windows-based 95/98 interface allows operators to set and adjust parameters of both the dryer and conveying system on the spot.

HCD honeycomb matrix dehumidifiers use the principle of a "rotating honeycomb." A rotor slowly turns while a cycle of dehumidification, regeneration and cooling is repeated simultaneously. The "wheel" has a series of air passages or channels that form the matrix. Paassages inside the wheel are coated with molecular sieves and silica gel that are strongly bonded. When the honeycomb matrix wheel contacts damp air, it soaks up moisture; and when the wheel is heated, it releases the moisture. The system has a drying capacity from 50 to 600 lb/hr.

CDH hot-air dryers can be used to dry most hygroscopic materials and are good for nonhygroscopic materials as a preheater. Also designed to dry granules directly at the machine to eliminate contamination or reabsorption of moisture when conveying. Constructed of stainless steel, units have only one blower and one heater and can be connected to existing dehumidifying dryers. Size range is 15 to 200 lb/hr.


Dryers and drying systems feature multiple, carousel-mounted desiccant cartridges and true closed-loop process drying and desiccant cooling.

New line of small dryers aimed at throughput requirements up to 100 lb/hr are compact, require minimal floor space, and small enough to be throat-mounted next to the material hopper. Proprietary microprocessor control is standard, and an optional enhanced version is available to match needs. Backlit LCD alphanumeric display (2 x 20 characters) displays operating status, setup parameters, diagnostics, alarm log, event log and other information.

Medium-sized carousel dehumidifying dryers include value-priced base units with standard off-the-shelf controllers. Options include a deluxe microprocessor controller with 40-character vacuum fluorescent display, real-time clock, and a process protection system that adds an adjustable high-temperature safety shutoff on the process heat circuit. All can deliver throughputs from 100 to 350 lb/hr. Controls allow easy setting of process temperatures from 160 F to 375 F. Dewpoint monitoring and energy-saving capabilities can be also be added.

Carousel dryers can also be configured as a mobile drying/conveyor (MDC) with hopper, dryer and material-conveying blower, all mounted on a mobile platform for flexibility and quick material changes. The D series MDC models convey resin to the process with desiccant-dried air, preventing moisture regain.

Large CD dryers are suitable for high-throughput (450 to 3000 lb/hr) for dedicated and central drying applications. Using patented carousel design with true closed-loop desiccant-drying, CD dryers provide energy-efficient, spike-free drying of hygroscopic plastics to a -40-degree dewpoint. CDG gas-fired dryers can provide up to 70% energy savings compared with similarly sized electric heat dryers. Efficient ceramic fiber matrix, flameless radiant gas burners heat both the process and regeneration air through high efficiency air-to-air heat exchangers. Combustion air never comes in contact with process or regeneration air. A standalone GasTrac gas-fired process air heater can convert any electric dryer to gas heating.

Bringing together drying and conveying technology into one purpose-built package for small- to medium-capacity central central materials handling, ResinWorks system integrates central drying unit, hoppers, loaders, conveying lines and pumps, along with heaters, blowers, filters and a proprietary microprocessor control. All components are designed to work together and are mounted on modular sleds that are easy to transport and easy to install.

Hot-air dryers are suitable for removing surface moisture and preheating nonhygroscopic materials at up to 250 F. Five models available to handle throughputs from 200 to 3000 lb/hr.

Five models of crystallizers are offered for conditioning PET resin. Gas or electric models are available to change material from an amorphous state to crystalline state at rates from 500 to 4000 lb/hr. Modular design allows complete disassembly for cleaning.


Desiccant dryers and drying systems with throughputs from 10 to 500 lb/hr. Arid-X dryer series is an industry standard dual desiccant bed dryer that supplies a continuous -40 F dewpoint. HP4-X series offers a high-performance four desiccant bed dryer that can achieve -60 F dewpoints. Both series include automatic regeneration.

Arid-X and FHP4-X series available in press-mounted, beside-the-press and portable models with one or two hoppers. Portable system features optional closed-loop loading system that includes single bag filter, controls and blower integrated on a common castered floor frame. Press-mounted hoppers are eliminated and replaced with a small, filterless receiver. Dual-hopper systems suitable for quick material changes and on-the-fly processing.

Off-the-press drying/blending systems for virgin, regrind and colorants. Designed for quick changes and on-the-fly ratio changes. Placement of augers under hoppers eliminates hoppers full of premix.

Microprocessor control features Safe-Temp regeneration (temperature based) as well as dewpoint and time based. Built-in -40 F dewpoint monitor and automatic seven-day timer. Also has capability for SPI protocol for machine communication.


Economical Resin Dryer (ERD) is a patented new approach to drying resins, which makes use of the inherently-low dewpoint of compressed air to produce a low-cost and low-maintenance drying system. Because no desiccant regeneration is needed, drying air temperatures do not fluctuate and therefore can be kept close to optimum drying temperature for each resin without over-heating. ERDs are available in three standard size ranges--Baby, Junior, and Senior--for processing from 2 to 3000 lb/hr. Systems use heat recovered from a compressor or exhaust air from a blow molding machine offer additional savings. Systems can be dedicated to one machine or centralized.


Dehumidifying dryers provide a continuous, uniform flow of hot, bone-dry air through the plastic material. Units achieve low-moisture levels, enhance product quality, increase production rates, and are energy-efficient and easy to service.

Hot-air dryers designed to surface dry regrind such as PP and polyurethane. Various hopper sizes are based on throughput needs.

New twin-tower dryers feature separate blowers and filters for processing and regeneration circuit, switch selectable (time/dewpoint) cycle control, standard PLC logic control with digital temperature and dewpoint controllers, sizes from 100-3000 cfm, dewpoint of -40 F or lower, dual-stage process air filter, tubular insulated heaters, full range of hoppers from 100 to 10,000 lb, capacity, and optional high-temperature package with water to air return air aftercooler.


Centrifugal dryers to process up to 150,000 lb/hr of thermoplastics and elastomers. Drying process takes place in three phases. In the dewatering phase 90-95% of water is removed by impact and gravity. Vertical predewatering screens provide a large screen area in a small space. In the impact phase the product is forced spirally upward from the bottom to the top of the rotor area, reducing water content to between 0.5-1.0%. Final phase takes place in the upper part of the rotor area as dry air passes through the spiraling product. Surface moisture of nil to 0.05% can be reached on most smooth, warm products. Dryers feature stainless-stell construction, pellet-free rotors, quick cleanup, low noise, and need only a small area for installation. Options include agglomerate catchers, exhaust blowers, inlet and outlet inspection windows, wear-resistant coating and heavy-duty construction for abrasive polymers, air heaters, safely lock door systems, and pellet water tanks.


Granulate dryers up to 500 F with a uniformity of [+ or -] 9[degrees] F available in truck-load or shelf-load design. Standard stainless-steel interiors, continuously welded liners, and HEPA filtration prevent contamination. Optional explosion-resistant design and customization available.


Accudry dehumidifying dryers for critical drying applications, and the 2000 series hot-air dryers for nonhygroscopic applications.

Ten models of automatic desiccant dryers use a molecular-sieve desiccant to trap moisture within a closed drying system. Several desiccant cartridges are provided, which are periodically indexed to a regeneration cycle. Programmable microprocessor controls provide LCD messages for initial settings and performance data and alarm conditions.

Hot-air dryers come with an integrated, stainless-steel-lined drying hopper that mounts on the processing machine. Floor-mounted models available. Seven models provide drying ranges from a few lb/hr to more than 1000 lb/hr, depending on material type. An air-flow regulator balances blower cfm for drying efficiency.


Four styles of hopper dryers for use at the press include low-cost, hot-air unit for use with nonhygroscopic materials that can serve more than one press. Refrigerant-type dryers suitable for many hygroscopic materials. Desiccant and compressed-air type dryers for consistent low dewpoint. A variety of convection and forced air-type drying ovens also available.


Resin dryers with drying hoppers ensure constant -40 F dewpoint air or lower. Precision air-temperature controls maintain an accuracy of [+ or -] 2[degrees] F. Advance warning systems reduce downtime. Optional dewpoint control systems for dewpoint quality and energy savings.


Desiccant dryer/loaders (DDL) combine loading, desiccant drying, and automatic regeneration in one compact unit. Features a floor-mounted controls panel with functions displayed by graphics and light signals. Residual moisture levels down to 0.02% are achieved. Units operate on low power, have hopper-magnet shut-off slide valve, discharge valve for easy material change, and come in nine sizes. Also DDL-HT for drying PET bottle resins to moisture levels of 0.002%.

Mobile desiccant dryers/loaders (DDM) combine in one mobile unit the dryer, desiccant, automatic regeneration, and automatic conveying of dried material to process machine using predried hot air. Special discharge fitting acts as level control on process machine hopper. DDM can feed two process machines at the same time. Available in three sizes with the Con-Evator three-phase hopper loader.

Desiccant central dryers (DCD) dries one or more granular materials to less than 0.02% moisture in one or more drying hoppers using a central power pack, which comes in six sizes. Hoppers have individual heaters and temperature controllers, making it possible to dry different materials at the same time.

Conti-Crystallizer (CC) designed to be a fully automatic continuous crystallizer for amorphous PET and regrind is compact, easy to operate, and has a built-in conveyor. Unit has PLC controls with a touch-sensitive operations monitor that displays information in easy-to-understand messages. Conveying hopper has a level control, which ensures crystallization of equal amounts of raw materials in each batch. Crystallization hopper is insulated and equipped with air distributor and heavy-duty mixing screw that keeps material constantly moving, ensuring no clogging or blockages.


Dryers and drying systems for resin powders, pigments, pellets and other particulates in conjuction with mixing, blending, processing and reaction. Conical Day Nauta processor/mixer drying systems can handle up to 1400 cu ft/batch. Jacketed, vacuum or pressure designs available.


Three standard electrically heated, resintray drying ovens include Model 1330-1-T3, 12-tray small lab unit with average capacity of 100 lb; Model 1330-2-T3, medium 24-tray unit with 200-lb average capacity; and Model 1330-5-T3, 40-tray unit with capacity to 600 lb.

Standard systems include indication of temperature to 350 F, timer, and high limit. Options to customize ovens to the process include desiccant systems, dewpoint instruments, recorders, chillers and filtration. Custom industrial ovens for drying, PTFE sintering, aging and curing, pre-heating, decorating, annealing, and thermoforming.


Company's new LPD (low pressure drying) vacuum dryer uses vacuum to accelerate resin drying and dries materials in one-sixth the time of a desiccant dryer. Testing has shown a reduction in energy consumption of 70-80% because the vacuum dryer does not rely on desiccant. Other benefits include less filters, less temperature probes, less side channel blowers, and elimination of water coolers and dewpoint probes. Another key benefit of vacuum drying is that the reduced drying time reduces the risk of material degradation.


DMZ drying systems feature desiccant rotor that spins and regenerates continuously, constantly feeding fresh desiccant to process. The resulting supply of stable, low dewpoint air substantially increases dryer performance. Main benefits include short drying times (PC in 1.5 hr), better drying performance, quicker material changes; lifetime desiccant, which eliminates replacement, bad product produced by wornout beds, and costly downtime; and standard high-quality stainless-steel drying hopper, aftercooler, and microprocessor control. Systems reportedly reduce energy consumption by 15% to 45%.

New Thercuum thermal conduction/ vacuum dryer dries resins in under an hour, cuts energy costs by 50%, reduces mold maintenance by eliminating harmful films, and occupies up to 50% less floor space than a conventional desiccant dryer.


PET crystallizers and dehumidifying dryers come on sizes from 500 to over 3000 lb/hr and easily adapt to other resins.

Crystallizer agitators designed and built to reduce agglomeration and fines. Direct-drive, all-helical gearmotor and lubed-for-life superduty shaft bearings give high-energy efficiency and very low maintenance.

Dryers typically run at -70 F to -55 F dewpoint permitting the least time and temperature possible for efficient drying and little or no loss of I.V. Microprocessor PLC logic and PID temperature controls, safety switches for air failure and overheating, and an hour meter are standard. SPI protocol is available.

Extra-heavy duty hoppers feature calibrated air distribution system for uniform drying and resistance to material fouling, thick insulation for low enegy losses, carefully finished interior that promotes consistent material flow and reduces buildup, and RF-type level sensor.


Line of dehumidifying dryers are machine-mounted, portable, or floor-mounted with air-flow ratings of 25 to 2500 cfm. Modular, insulated stainless-steel hoppers sized to the requirement and designed for balanced flow of dry air. Also included are an aluminum mounting casting at the throat and a slide gate. Microprocessor controls feature large digital display of set and actual temperature, alarm codes, and cam-cycle sequence codes. Units utilize solid-bed design with low-watt-density Calrod heaters. Options include high-temperature package (300-400 F), hopper-mounted process-air heater, and precooling coil. Hopper options include drawer magnet, vacuum take-off, and low-level alarm.


Luxor central dryers offer advanced PLC controls with user-friendly operator interface touchscreens. Screen include diagnostic menus and trend graphs. Units utilize dual dessicant beds, dewpoint-controlled bed switching and closed-loop cooldown, allowing for continuous low dewpoints operation. System can operate as many as 20 drying bins.

Drying bins allow materials to be dried independently and utilize pattented ETA technology, providing energy savings and efficiencies. Temperatures controlled independently at each bin or centrally with drying organizer, which offers an intelligently controlled drying process. Under- or over-drying of resin is prevented.

FlexSide press-side drying systems (PLC controlled) range from 30-120 lb/hr and are modularly designed with one, two or three bins on a portable frame. Systems can be ordered with integrated conveying.

Specially drying systems for cleanroom molding applications such as CD/DVD or medical are available in both central and FlexSide offerings.


Compressed-air NovaDrier provides -40 F dewpoint air without desiccants or moving parts. Units provide immediate low dewpoint air and consistent process temperature. Any compressed-air source is acceptable; refrigerated or desiccated air not required.

Wide range of standard desiccant dryer and hopper configurations and custom systems. Electromechanical controls with solid-state PID temperature controller are standard. A choice of the new NovaTouch touch-panel PLC control or microprocessor controllers available as options.

Machine- or floor-mounted microdrying systems with capacities from 15 to 50 lb/hr utilize a dual-tower process with fully automatic regeneration. Modular stainless-steel hoppers are standard in either insulated or noninsulated versions. Optional microprocessor controls available with 40-character alphanumeric LCD display.

Series of self-contained portable drying and conveying systems with closed-loop material conveying and JIT vacuum receivers available in 15-, 25- and 50-lb/hr configurations. Larger units up to 500 lb/hr.

Floor-mounted drying systems with capacities from 50 to 4000 lb/hr and hopper capacities from 200 to over 20,000 lb may be equipped with choice of optional microprocessor or PLC controller. Top-of-the-line microprocessor has an 80-character alphanumeric vacuum flourescent display that monitors and controls 51 drying functions displaying verbal messages and corrective actions. Other features include a "help" key, pass-code access, and a Quick-Set menu, which allows preprogramming of drying parameters for up to 10 different resins.

Complete line of central drying systems from 40 to 4000 lb/hr for custom drying multiple materials at different temperatures and throughputs simultaneously. A central dryer provides guaranteed -40 F dewpoint air via a custom-designed closed-loop air distribution manifold system to a series of multiple hoppers, each equipped with heather/blower assemblies. Each heater/blower supplies individually heated dehumidified process air to a dedicated material hopper, and may be isolated or put in service as desired.


Offers R134 refrigerant-type dehumidifying hopper dryer and accessories. Digital temperature controller provides PID control. Blower switch interlock keeps fan running before heater activates for safety. Rated at 5280 Btu/hr for drying all kinds of material. Pressurized heating chamber baffled to balance filtered air, which keeps heat coils from overheating. Units are full-sized and give continuous air.


Has introduced low-dewpoint desiccant dryers for injections and blow molders.


Dehumidifying dryer has multidrying beds of molecular sieves, which give a clean-drying low dewpoint (-40 F) without the aid of a chiller. Drying beds have a high void ratio and feature low pressure drop. Recirculating vacuum-type system accelerates drying to less than two hours on hygroscopic materials such as polycarbonate.


Now supplies portable and floor-standing dryers and hoppers.


Line of batch vacuum dryers and ancillary equipment includes heating systems, vapor condensers, vacuum pumps, and controls. Conical vacuum reactors used to solid-state PET, PEN, PBT to elevate IV levels with working capacities to 775 cu ft. ISO 9001 certified.


Quick-Dry small-batch dryers can dry up to four materials at a time. Expand output of existing desiccant dryers.


Line of resin dryers matched to hoppers that uniformly expose resin to drying air includes TD series desiccant dryers in 17 models with airflows from 6 to 2000 cfm. Units feature indexing, three-bed design with closed process-air circuit. Design allows in-process cooldown of the regenerated bed with recovery of residual regeneration heat and cooldown with the dry process stream rather than with ambient air.

Optional Tech II microprocessor control has seven-day timer with battery backup, display of operating parameters, alarms, and system-operating diagnostics.

H series hot-air dryers available in 11 sizes with airflows from 12 to 2000 cfm. Units heat and circulate air through the resin, removing any surface moisture, and are for use on nonhygroscopic materials. Often used to remove condensation from materials brought into a warm plant from cold outdoor storage.


DHD and [PCT.sub.2] series dchumidifying hopper dryers with process airflow up to 3000 cfm, low dewpoint to -100 F (average dewpoint -60 F), and pulse cooling technology. Units have a minimum of moving parts; clamps provide easy and quick access to the regeneration heater, process heater, and desiccant beds. Designed for safety and efficiency,heater packages use tubular elements, double-wall construction and insulation, and minimize power consumption. Tubular heaters with low-watt density increase heater life. Multiple electric heater elements provide redundancy and extend heater life. DHD series comes with a PLC controller. Additionally, there are two expanded microprocessor controls available.

All microprocessor controls feature SPI communications protocol capabilities, patented Material Saver, digital dewpoint monitoring, multilevel password protection and more. Most controls are available with electrical power options, which range from 208 to 575 v in 50 or 60 cycle. Hoppers range in capacities from 300 to 25,000 lb. Gas-fired DHD and [PCT.sub.2] dryers are also available.

UDC series dehumidifying hoppers dryers in four models ranging from 30 to 150 cfm. Standard features include microprocessor controls, material saver function with automatic temperature setback to a maintenance level, stainless-steel and aluminum internal components, mirror finish stainless exterior, digital dewpoint monitor, and SPI communications protocol.

Standard configurations include hopper mount, floor mount with process air heater located in dryer enclosure, or floor mount with process air heater mounted remotely on the hopper for optimum efficiency. Drying unites complement modular hoppers and combine to create modular drying systems in a variety of configurations.

GS series of low dewpoint, twin-bed desiccant dryers are operator and maintenance friendly systems with FC microprocessor control that ensures versatility, simplicity and reliability. Dryers designed for quick startup and quick shipment.

GS economical portable drying and dry air conveying system with FC microprocessor control allows for rapid setup and startup. Unit includes seven-day clock and Material Saver functions. All components are easily accessible, and the unit can be stationary as a beside-the-machine dryer or mounted on a frame and beam stand with its five-wheel easy glide system for portability.

TSC drying hopper is all stainless steel, solid cone and seamless interior for quick material change. System is also available with a dry air conveying package using Autoload minimal inventory loaders. Drying capacity ranges from 20 lb/hr to 250 lb/hr, and drying temperature ranges from 1400 F to 3500 F.

AutoDry series hopper dryers have no moving parts and are simple to install and operate. Self-contained units with temperature ranges from 100 F to 375 F, operating at 120 and 230 volts, with hopper sizes from 20 to 120 lb. Units utilize a small amount of plant compressed air to dry the resin.

Gas Pack retrofit kit will convert expensive electric units to low-cost natural gas. Unit is an easy bolt-on system. Metallic burner is designed for extended life span. Operation of the existing dryer is not affected. Gas Packs are available from 200 to 4000 scfm/8kW. The units are available in standard temperature ranges from 175 F to 250 F, and high-temperature units to 375 F.


Dehumidifying desiccant dryers with microprocessor controller feature dew-points of -40 F; electronic temperature control; process-air filter with cyclone and cartridge; cycle rates of 8, 12, and 16/hr; no moving parts except two four-way valves and the blowers; hopper clean-out door and large sightglass; 20 through 4000 cfm size range with hopper capacities to 25,000 lb; direct-drive fans; location of desiccant inside towers and heaters outside in separate boxes; and drawer-type process-air heaters mounted externally.

Microprocessor-based control panel, which controls and monitors all dryer functions, available with graphic presentation. Process-air temperature selected manually and maintained with solid-state electronic temperature control.

Also hot-air dryers and preheater units for use with nonhygroscopic materials from 85 through 4000 cfm. Units have solid-state electronic temperature controls. Process heaters, mounted externally, are drawer-type that slide in and out. All units are compact, accessible from the exterior, and furnished with direct-drive fan.


Vibrating fluid-bed, continuous dryers/ coolers provide rapid drying and/or cooling. Vibration of the dryer, coupled with the fluid-bed design, provides a unit not sensitive to exact air flows or bed depths, while still providing "first-in-first-out" flow.

Other features include ease of cleaning, negligible maintenance, and gentle handling of product with essentially no particle degradation.


Closed-loop dryers equipped with individual, electrically operated switch over valves for each desiccant bed to avoid heat transfer between the drying and regenerationcycle and allow high efficiency of the process, as well as low dewpoint.


Turbo-Dryer has only two moving parts: tray/shelf assembly and fan assembly, both rotating independently in a fixed sealed housing.

Wet feed enters the Turbo-Dryer through a feed chute in the roof of the housing and flows onto the first shelf. Shelves are circular with cut-out center and radial slots and are rigidly mounted on an inner supporting frame, forming a vertical stack, which rotates slowly as a unit.

Material flows onto each shelf from the one above, forming a pile. The rotation of the tray/shelf assembly carries the pile past a stationary blade set to level the pile to fill the tray at a uniform height. At the end of a revolution, the tray segment meets a second stationary blade set to wipe the tray clean of material.

Material is held stationary by the wiper blade, while the tray continues its rotation. It flows through the radial slot onto the shelf below where the cycle is repeated and then progresses downward from shelf to shelf through the dryer and is finally discharged through a chute in the housing bottom.

Air or other drying medium is fed to the Turbo-Dryer through a side-mounted vertical manifold with control dampers. Air moves inside the dryer by centrifugal fans mounted on a single vertical shaft. Fan assembly fits into the shelf assembly, rotating independently of the shelves. Drying medium leaves the dryer through a roof exhaust.

Turbo-Dryer housing, totally sealed, encloses and supports both tray/shelf and fan assemblies; supports stationary parts of the dryer, wipers and levelers; and consists of a metal frame and insulated side panels, roof, and bottom.
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Title Annotation:Product Lines Reviewed
Publication:Plastics Technology
Date:Oct 1, 2003
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