SP FTS XR AirJet Sample Coolers by SP Scientific

Manufacturer SP Scientific  |  Available Worldwide
  |  1 reviews
The XR AirJet Sample Cooler, available in -90C or -40C configurations provides sample temperature control for NMR, EPR and X-Ray diffraction using a mechanically refrigerated, temperature controlled air stream.

SP FTS XR AirJet Sample Coolers by SP Scientific product image
SP FTS XR AirJet Sample Coolers

SP Scientific

The supplier does not provide quotations for this particular product through SelectScience. You can search for similar products in our product directory.

Average Rating: 4.7
1 Scientist has reviewed this product

5 out of 5
Ease of use
4 out of 5
After sales service
5 out of 5
Value for money

  • Status:

  • Member since: 2019

  • Organization: University Of Pittsburgh

  • Ease of use
    5 out of 5
    After sales service
    4 out of 5
    Value for money
    5 out of 5
Share this Review on LinkedinShare this Review on TwitterShare this Review on Facebook
Great value!
Rating: 4.7

  • Application Area: Cooling samples below ambient temperatures

"FTS XR AirJet Sample Cooler has helped us run low temperatures experiments without the need for messy liquid nitrogen dewars. Easy to use and economical!"

Review date: 22 Nov 2021 | SP FTS XR AirJet Sample Coolers

House compressed air is utilized for the air stream and no expendable refrigerants are required. When dry air passes through the AirJet it is cooled by the mechanical refrigeration system and provides a precise regulation of heat input to control the temperature of the air stream. 

This design approach creates temperature stability of +/- 0.1C. Longer delivery lines allow the positioning of the refrigeration system at a greater distance from your sample area, particularly important for NMR applications.

Key features

  • -90C or -40C to +100C temperature range
  • Small footprint
  • 8, 15 or 35 ft (248.84, 457.20 or 1066.80 cm) non magnetic delivery line
  • Flow rates 2 scfm (56 lpm)
  • +/-0.1C temperature stability

 Key benefits

  • Save lab space with small footprint
  • Eliminate need for expendable refrigerants and the difficulties associated with delivering expendable refrigerant to the sample
  • Excellent stability, accuracy and repeatability.
  • Nonmagnetic longer delivery line allows use with NMR magnets