• Anesthesia Gas Filter Unit
BI80120-00

Anesthesia Gas Filter Unit


A sensible answer to anesthesia gas problems in the operating room, the F/AIR anesthesia gas filter was specifically designed to remove waste anesthesia gases such as ISOFLURANE, HALOTHANE, ENFLURANE, SEVOFLURANE, etc. from the operating room environment. Economical to use, with an average useful life of 12 to 15 hours, the F/AIR is easily adaptable to anesthesia machines. The F/AIR can remove no less than 50 grams of pure halogenated anesthetic gases and can then be conveniently discarded.
 

Features
  • Disposable
  • Ready to use
  • Minimal storage
  • No Maintenance
  • Standardized Connector
  • Compact size

 

Dimensions
Height 6 inches
Weight of Active Components 200 grams
Diameter 31⁄4 inches
Connector, outside diameter 7⁄8 inches male
Adsorption Capacity
*Carbon Tetrachloride Activity, weight increase 60%
**Halogenated Gas Retentivity 50 grams

 

Specifications
Adsorbent Surface
Area 200,000 m3/grams
Particle Size, Average, U.S. sieve 6 + 16
Average Density 48 grams/cc
Void Volume 40%
Pressure Drop (psi) <0.1
Average Life 12-15 hours
Electrical Properties Non-conductive
References: MEDICAL WORLD NEWS, November 2, 1973, Volume 14 No. 40, p. 24. AORN JOURNAL, November 1973, Volume 18, No. 5 pp.872-4.

 

Ordering Informations
Part Number Description
80000 F/AIR Kit consisting of one each, 80120, 80020 and 18007
80120 F/AIR Cannister Unit
80020 F/AIR Holder
08106 Endo. Tube Connector, 6mm
80005 BICKFORD PC-1 Pop-Off Valve
80010 BICKFORD PC-2A NRB System
18007 Scavenging Tube, 40" with 3 adapters
81915 Adapter, 15mm F × 22mm M
11140 Blue Plastic Scavenging Tubing with 22mm cuffs at 6" intervals (specify length)
80122 Set of 3 adapters


* The steady state percentage increase in weight of adsorbent after air – which has been saturated with carbon tetrachloride at zero degrees C. – is passed through the adsorbent at 25 degrees C.
** The amount of halothane retained prior to breakthrough (breakthrough denoting the appearance of adsorbate in the effluent stream).