Difference between revisions of "Talk:O2k-Peltier Temperature Control"
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Our system is specified for a chamber temperature down to 4 °C at 25 °C room temperature and down to 2 °C at "lower ambient temperature", see | Our system is specified for a chamber temperature down to 4 °C at 25 °C room temperature and down to 2 °C at "lower ambient temperature", see | ||
[ | [[MiPNet06.05 Specifications| specifications]]. | ||
Lower ambient temperature does not necessarily mean a "cool room". For a chamber temperature of 2 °C, an air conditioned room will usually suffice. | Lower ambient temperature does not necessarily mean a "cool room". For a chamber temperature of 2 °C, an air conditioned room will usually suffice. | ||
While we can only guarantee the working of the instrument within these limits, it is possible to reach a chamber temperature of 0 °C at a "lower ambient temperature". In general, however, this may require a "cool room". For this purpose, the main unit itself can be exposed to ambient temperatures down to just above 0°C (all the electronic components are rated at least down to 0 °C, but 0 °C room temperature should be avoided due to condensation concerns). Also, for very low room temperatures above 0 °C, some means of humidity control should be used. | While we can only guarantee the working of the instrument within these limits, it is possible to reach a chamber temperature of 0 °C at a "lower ambient temperature". In general, however, this may require a "cool room". For this purpose, the main unit itself can be exposed to ambient temperatures down to just above 0°C (all the electronic components are rated at least down to 0 °C, but 0 °C room temperature should be avoided due to condensation concerns). Also, for very low room temperatures above 0 °C, some means of humidity control should be used. | ||
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'''Update for O2k Series E:''' | '''Update for O2k Series E:''' | ||
Because Series E Oxygraphs have a more efficient temperature management system the experiment described above was repeated with a Series E O2k. In this case it was not necessary to reduce the room temperature. [[ | Because Series E Oxygraphs have a more efficient temperature management system the experiment described above was repeated with a Series E O2k. In this case it was not necessary to reduce the room temperature. [[Fasching M|Fasching Mario]] 14:39, 4 February 2013 (CET) | ||
Details: O2K - 0°C block temp. - stable Peltier power was reached after about 1:05 h from setting block temp. from stable 37°C to 0°C. - stable Peltier power was about -83 %. - room temperature was 21.1°C [[User:Capek Ondrej|Capek Ondrej]] 14:36, 4 February 2013 (CET) | Details: O2K - 0°C block temp. - stable Peltier power was reached after about 1:05 h from setting block temp. from stable 37°C to 0°C. - stable Peltier power was about -83 %. - room temperature was 21.1°C [[User:Capek Ondrej|Capek Ondrej]] 14:36, 4 February 2013 (CET) |
Revision as of 14:09, 11 April 2017
Previous Product ID 21020
Talk:O2k-Peltier Temperature Control |
MitoPedia O2k and high-resolution respirometry:
O2k-Open Support
Very low temperatures
Question: Is it possible to use the oxygraph with a chamber temperature of 0 °C?
Our system is specified for a chamber temperature down to 4 °C at 25 °C room temperature and down to 2 °C at "lower ambient temperature", see specifications. Lower ambient temperature does not necessarily mean a "cool room". For a chamber temperature of 2 °C, an air conditioned room will usually suffice. While we can only guarantee the working of the instrument within these limits, it is possible to reach a chamber temperature of 0 °C at a "lower ambient temperature". In general, however, this may require a "cool room". For this purpose, the main unit itself can be exposed to ambient temperatures down to just above 0°C (all the electronic components are rated at least down to 0 °C, but 0 °C room temperature should be avoided due to condensation concerns). Also, for very low room temperatures above 0 °C, some means of humidity control should be used. We recently performed a short test and were able to reach 0 °C chamber temperature quite easily at a room temperature of about 14 °C. In order to maintain this temperature, the cooling power of the Peltier element reached 95% of maximum. Thus, a "cool room" would probably be necessary for longer experiments.
Update for O2k Series E: Because Series E Oxygraphs have a more efficient temperature management system the experiment described above was repeated with a Series E O2k. In this case it was not necessary to reduce the room temperature. Fasching Mario 14:39, 4 February 2013 (CET)
Details: O2K - 0°C block temp. - stable Peltier power was reached after about 1:05 h from setting block temp. from stable 37°C to 0°C. - stable Peltier power was about -83 %. - room temperature was 21.1°C Capek Ondrej 14:36, 4 February 2013 (CET)