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CALEFACTIO CXT-100P Image 1

CALEFACTIO CXT100P 1 PRS BR AIR SEPARATOR

MFR Part #: CXT-100P
SKU #: 1240091
Brand: Calefactio
UPC: 628235831444
Calefactio CAL-X-TRACT Series CXT-100P Air Separator, 1 in, Press, Brass

Calefactio Air Separator, CAL-X-TRACT Series, 1 in Nominal, Press Connection, 150 psi, 32 to 250 deg F, 50 % Maximum Percentage of Glycol, 11 gpm Flow Rate, Brass, 7-1/2 in W x 8-1/2 in H

Calefactio Cal-X-Tract air separators are equipped with a brush-type coalescing media, a calvent automatic air vent and designed with an oversized housing leading to a very high-efficiency. Their function is to take air out of hydronic heating systems, allowing a better energetic performance while reducing the costly maintenance frequency. Their sturdy design allows to maintain their efficiency for whole duration of the system's lifetime.

Product Details

Calefactio Air Separator, CAL-X-TRACT Series, 1 in Nominal, Press Connection, 150 psi, 32 to 250 deg F, 50 % Maximum Percentage of Glycol, 11 gpm Flow Rate, Brass, 7-1/2 in W x 8-1/2 in H

Calefactio Cal-X-Tract air separators are equipped with a brush-type coalescing media, a calvent automatic air vent and designed with an oversized housing leading to a very high-efficiency. Their function is to take air out of hydronic heating systems, allowing a better energetic performance while reducing the costly maintenance frequency. Their sturdy design allows to maintain their efficiency for whole duration of the system's lifetime.

Attributes

Connection Type: Press
Dimensions: 7-1/2 in W x 8-1/2 in H
Flow Rate: 11 gpm
Material: Brass
Maximum Percentage of Glycol: 50 %
Nominal Size: 1 in
Pressure Rating: 150 psi
Series: CAL-X-TRACT Series
Temperature Rating: 32 to 250 deg F

Features

  • Equipped with calvent automatic air vent
  • Anti-clogging vent (the head is designed to stay dry and clean, reducing the risks of clogging)
  • A drain port is installed at the bottom of the separator
  • Brush-type coalescing media to catch the finest micro bubbles without affecting the flow
  • Reduce the risk of pump cavitating and rust by oxygen
  • Improve the system's efficiency