Energy Efficient RCD Series Cycling Refrigerated Dryers
Energy Efficient RCD Series Cycling Refrigerated Dryers
SKU:AIR-86a708
Achieve precise dew point control and energy savings with Energy Efficient RCD Series Cycling Refrigerated Dryers.
Regular price
$7,899.99
Regular price
Sale price
$7,899.99
Unit price
per
Initiate Order
Energy Efficient RCD Series Cycling Refrigerated Dryers
$7,899.99
Quantity: 1
Claim Your Seller Account
Energy Efficient RCD Series Cycling Refrigerated Dryers
$7,899.99
Quantity: 1
Delivery via Maden
Expect your order to arrive on time.
Secure Payments
All orders are processed through a secure, PCI-compliant checkout.
The Energy Efficient RCD Series Cycling Refrigerated Dryers ensure precise 33–39°F pressure dew point control while offering automatic energy savings operation. Designed with a cold energy storage system for enhanced efficiency, these dryers feature voltage options, ASME pressure vessels, and top-of-the-line cycling technology for reliable performance. With rugged construction, environmentally friendly refrigerants, and energy-efficient operation, the RCD Series provides continuous delivery of dry compressed air to meet institutional procurement standards.
Product Specifications
Cycling Technology 0
RCD Series is top of the line cycling technology available in 200–600 and 3,250–12,000 scfm. Precision engineered for dew point performance and energy efficiency Low operating cost—Cycling performance RCD series dryers store and actively circulate cooling energy allowing the dryer’s refrigeration compressor to maintain long off cycle Rugged construction—High quality components make the RCD easy to access and maintain Energy efficient cycling operation matches energy costs to actual plant air demands Environmentally friendly refrigerant—R507 in models 200–600 scfm and R-22 in models 3,250–12,000 scfm, both efficiently absorb heat loads Polyethylene tank is lightweight and durable. The tank is double walled, polyethylene filled with highly efficient foam to ensure maximum glycol insulation. Tanks are precision molded (no seams) to prevent leaks Heavily insulated seamless Cold Energy Storage reservoir provides superior temperature stability Proprietary smooth bare, copper heat exchangers for fast efficient heat transfer Models RCD 200–600 have precision-fit steel cabinets with easy access panels and are coated inside and outside with durable powder paint for protection and aesthetic Consistent 33°F–39°F dew points under all rated flow conditions Cold energy storage system reduces compressor run time to gain long component life Selectable dew point settings increase energy savings
Operating Conditions Ambient Temp Range
+40 to 120 ºF
Operating Conditions Inlet Temp Range
+40 to 120 ºF
Operating Conditions Max Working Pressure Range
30 to 225 psig
Specifications Base Mounted Length
40 in
Specifications Compressor
2 1/2 hp
Specifications Flow
300
Specifications Height
74 in
Specifications Inout Connection
2 in
Specifications Pressure Drop
4.8
Specifications Weight
1067 lb
Specifications Width
40 in
System Features Models 200600 0
RCD 200–600 scfm Energy Management Controler (EMC) functions Selectable membrane switches LED text display Warm up delay after power loss Auto drain valve open/close LED Fahrenheit or Celsius temperature selection High & low temperature alarm LEDs Set auto drain open time (seconds) Set auto drain closed time (minutes) Percent of energy savings Timed drain valve CFC-free Selectable dew point temperatures to 50°F Operation - Models 200–600 Compressed air, saturated with water vapor; enters the air-to-air heat exchanger (A) where it is chilled by the cold dry outgoing air. It then enters the air-torefrigerant heat exchanger; which is immersed in a cold water/glycol solution inside the Cold Energy Storage reservoir (B). The cold water/glycol solution lowers the dew point temperature to condense the water vapor into a liquid. An integral moisture separator (C) collects the condensate for removal by the automatic drain valve (D). Cold dry compressed air is reheated by the incoming compressed air before exiting the dryer. An environmentally friendly HFC refrigerant system chills the solution inside the Cold Energy Storage reservoir. The Energy Management Control [EMC] (E) maintains the Cold Energy Storage solution temperature (F) to within a 1°F differential. The refrigeration compressor (G) automatically starts-and-stops as needed to match the air demands and save energy.
System Features Models 325012000 0
RCD 3,250–12,000 scfm System Operation Monitor functions Normal operation LED Check operating conditions LED; temperature inside the evaporator is too high Service due LED; indicates when routine maintenance should be performed, temperature sensor probe is sensing temperature outside of normal range or it has failed System alarm LED; inlet air temperature is too high, refrigerant suction temperature is too low, ambient air temperature is too low, ambient air temperature is too high Inlet air temperature Refrigerated suction temperature Glycol solution temperature Cooling water temperature Remote dry alarm contacts Dual electronic timer drains RS - 232 port Fahrenheit or Celsius temperature selection Schematic with lights that indicate location of temperature sensors Operation - Models 3,250–12,000 Warm saturated air enters an air-to-air heat exchanger, where it is cooled by outgoing cold air. The inlet air is further cooled in the glycol chiller (air-to-glycol solution heat exchanger). Cooling condenses entrained moisture which is then removed from the airstream by a centrifugal separator and discharged from the dryer by an automatic drain valve. The cold air is reheated by incoming warm air as it passes back through the airto- air heat exchanger. Using the outgoing air to pre-cool the inlet air condenses up to 65 percent of the moisture out of the inlet air before it reaches the chiller. Precooling the inlet air also significantly reduces the heat load on the refrigerant compressor, permitting the use of a smaller refrigerant compressor.