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HHL - Heatless Regenerative Desiccant Dryers

DRYERS - COMPRESSED AIR / DESICCANT COMPRESSED AIR DRYERS

Utilizing twin towers filled with premium grade activated alumina, Hankison Heatless dryers are available with different application specific control systems to meet the needs of industry with economy and performance.

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Features

Features

Utilizing twin towers filled with premium grade activated alumina, Hankison Heatless dryers are available with 3 application specific control systems to meet the needs of industry with economy and performance. Hankison HHS, HHL and HHE Series heatless desiccant dryers provide consistent outlet pressure dew points to -100°F (73°C).

Standard Instrumentation

  • Left and right tower pressure gauges
  • Purge pressure gauge
  • Moisture indicator - alerts operator of elevated dew point
  • Throttling valve provides accurate purge pressure adjustment.

Three Application Specific Designs:

HHS Series Automatic SensaTherm® Energy Savings
HHS Series with SensaTherm® automatically matches purge air use to the demand on the system. This ensures maximum performance as the energy saved goes right to your bottom line. Controller features vacuum fluorescent text display that communicates energy savings, operating mode and service reminders. Select from one of the four pressure dew point settings to optimize your savings for each season.

 

HHL Series Selectable Purge Economizer Savings
HHL Series provides user selectable energy savings. Tailor the drying cycles, to match your peak air demand, in 10 percent increments. In addition, this state-of-the-art controller offers four pressure dew point settings to further tune your savings and adapt the system to your environment.

 

HHE Series-40°F Dew Point Performance - Pure and Simple
HHE Series presents traditional heatless drying technology. Using a simple timer based controller, these are designed to deliver maximum value to applications that operate at or near full capacity. Automatic time controlled bed regeneration cycles offer consistent performance and economy of purchase.

Specifications

 

Model Flow Rate Connection el. Connection Pre-filter After-filter
  m3/h   V/Ph/Hz  
HHL 91 90 3/4” 95-240/1/50 F06-B-HF F06-B-PF
HHL 141 140 3/4” F07-B-HF F07-B-PF
HHL 271 270 1“ F08-B-HF F08-B-PF
HHL 351 350 1 1/2” F10-B-HF F10-B-PF
HHL 521 520 1 1/2” F11-B-HF F11-B-PF
HHL 681 680 1 1/2” F12-B-HF F12-B-PF
HHL 901 900 2” F14-B-HF F14-B-PF
HHL 1051 1050 2 1/2“ 95-240/1/50 F14-B-HF F14-B-PF
HHL 1351 1350 2 1/2“ F15-B-HF F15-B-PF
HHL 1651 1650 3” F16-B-HF F16-B-PF
HHL 1951 1950 3” F17-B-HF F17-B-PF
HHL 2351 2350 DIN 100 HF5-60 HF6-60
HHL 2701 2700 DIN 100 HF5-60 HF6-60
HHL 3601 3600 DIN 100 HF5-64 HF6-64
HHL 5201 5200 DN 150 HF5-68 HF6-68
HHL 7101 7100 DN 150 HF5-72 HF6-72
HHL 9001 9000 DN 150 HF5-76 HF6-76

Contact us for more information about correction factors and electrical data.

1 Inlet flows are established in accordance with ISO 7183(based on 1 bar (abs) 0% of at 7 bar (g) working pressure and inlet temperature 35°C (PDP -40°) or inlet temperature 30°C PDP -70°C

2 Average Purge Flow is the total amount of air used to purge and repressurize off-stream towers averaged over the cycle time. Maximum Purge Flow is the flow rate through the off-stream tower during that portion of the cycle the purge/ repressurization valve is open.

Dimensions

 

Model Connection Dimensions Weight
A B C
    mm kg
HHL 91 3/4” 750 750 1950 181
HHL 141 3/4” 750 750 1950 220
HHL 271 1“ 1150 750 1980 398
HHL 351 1 1/2” 1150 750 1980 421
HHL 521 1 1/2” 1150 750 1990 531
HHL 681 1 1/2” 1150 750 1990 650
HHL 901 2” 1150 750 2000 815
HHL 1051 2 1/2“ 1500 1320 1910 965
HHL 1351 2 1/2“ 1500 1420 1921 1275
HHL 1651 3” 1500 1470 2090 1525
HHL 1951 3” 1500 1520 2116 1710
HHL 2351 DIN 100 1500 1720 2136 2080
HHL 2701 DIN 100 1700 1770 2225 2305
HHL 3601 DIN 100 1950 1920 2258 2755
HHL 5201 DN 150 2400 2140 2456 4105
HHL 7101 DN 150 2690 2335 2701 6200
HHL 9001 DN 150 2820 2504 2536 6800