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Anden A320V3

Anden A320V3 Dehumidifier, Remote Control, 277 VAC

Anden A320V3

320 ppd, 277 VAC. Anden A320V3 designed and built for cultivation. This industrial grow room dehumidifier unit removes up to 320 pt of moisture per day and powerfully circulates air within your cultivation space to create a healthy, grow optimized environment. And it really moves some air up to 830 cfm for maximum moisture removal. Setup is simple and humidity is constantly controlled to help prevent crop disease and pests.

Anden Dehumidifier, 277 VAC, 9.2 A, 60 Hz, 1 Phase, 24-1/4 in Length, 32-5/8 in Width, 24 in Height, Remote Control, 830 cfm Rating, 320 ppd Water Usage Rate, 7900 Btu/hr, 3/4 in FNPT Drain Connection, 2.6 L/kW-hr Energy Factor, R-410A Refrigerant, Plug Power Cord, 11 MERV, 50/60 deg F

Amperage Rating      :      9.2 A
Frequency Rating      :      60 Hz
Phase      :      1
Length      :      24-1/4 in
Width      :      32-5/8 in
Height      :      24 in
CFM Rating      :      830 cfm
Water Usage Rate      :      320 ppd
BTU Rating      :      7900 Btu/hr
Drain Connection      :      3/4 in FNPT
Energy Factor      :      2.6 L/kW-hr
Refrigerant Type      :      R-410A
Power Cord      :      Plug
MERV      :      11
Temperature Rating      :      50/60 deg F
  • Industrial level humidity control
  • To remove moisture, it's got to move the moisture-filled air
  • The powerful fans circulate huge amounts of air for maximum moisture removal
  • Removes up to 2.9 L/kW-hr, helping keep your operation efficient
  • The self-sealing air filter protects the unit's vital components, plus it's easy to replace
  • The pre-installed electrical plug is simple to remove for hard-wired applications
  • Terminals on the dehumidifier make it easy to install a float switch to protect against overflows
  • The included Model A77 remote control relays diagnostics from the dehumidifier, giving you simple control of the conditions in your cultivation space
  • The unit constantly monitors humidity and temperature, making it simple to reach the optimal vapor pressure deficit for maximum growth