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Water-jacketed incubators: Can they provide a higher relative humidity?
Lab Academy
In this article, we look at the question whether or not water-jacketed incubators can provide a higher relative humidity and the rationale behind it.
This article was published first in "Inside Cell Culture" , the monthly newsletter for cell culture professionals. Find more interesting articles about CO2 incubators on our page "FAQs and material on CO2 incubators" .
Water-jacketed incubators have been traditionally chosen by cell culture labs with high demands regarding temperature uniformity and temperature stability during power outage. In our article series, we will analyze and evaluate the advantages and limitations of this incubator heat transfer technology and compare it to direct heat and air-jacketed incubators. In our last articles, we looked at the main disadvantages of water-jacketed incubators and the question of whether they can really provide higher temperature uniformity and temperature stability during power outages.
Introduction
Water-jacketed incubators have been traditionally chosen by cell culture labs with high demands regarding temperature uniformity and temperature stability during power outage. In our article series, we will analyze and evaluate the advantages and limitations of this incubator heat transfer technology and compare it to direct heat and air-jacketed incubators. In our last articles, we looked at the main disadvantages of water-jacketed incubators and the question of whether they can really provide higher temperature uniformity and temperature stability during power outages.
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Can water-jacketed incubators provide a higher relative humidity?
One argument that is often brought up for water-jacketed incubators is a higher relative humidity inside. This would ensure better protection from evaporation of the medium, thus the exclusion of effects that are based on shifts in salt concentrations, accumulation of metabolic end products, etc.. The rationale behind this is the 0.1 °C higher temperature uniformity for some water-jacketed incubators compared to air-jacketed or direct heat incubators (see also article about temperature uniformity).
Theoretically, a higher temperature uniformity allows for a higher relative humidity as a temperature above the dew point at all locations can be ensured. Indeed, claims can be found that a relative humidity of 95 – 98 % is possible in water-jacketed incubators.
Let´s do the calculation and check this claim: In an incubator with a temperature uniformity of +/- 0.2 °C temperatures inside the incubator range from 36.8 to 37.2 °C at a setpoint of 37 °C. The calculated dew point (= condensation temperature) at 98 % relative humidity at the highest temperature of 37.2 °C in this incubator is 36.83 °C. As locations with the lowest temperature of 36.8 °C (= 36.75 – 36.84) may be up to 0.08 °C colder than the dew point, condensation can be expected at these locations. This is even more pronounced with a temperature uniformity of +/- 0.3 °C and 98 % relative humidity.
Theoretically, a higher temperature uniformity allows for a higher relative humidity as a temperature above the dew point at all locations can be ensured. Indeed, claims can be found that a relative humidity of 95 – 98 % is possible in water-jacketed incubators.
Let´s do the calculation and check this claim: In an incubator with a temperature uniformity of +/- 0.2 °C temperatures inside the incubator range from 36.8 to 37.2 °C at a setpoint of 37 °C. The calculated dew point (= condensation temperature) at 98 % relative humidity at the highest temperature of 37.2 °C in this incubator is 36.83 °C. As locations with the lowest temperature of 36.8 °C (= 36.75 – 36.84) may be up to 0.08 °C colder than the dew point, condensation can be expected at these locations. This is even more pronounced with a temperature uniformity of +/- 0.3 °C and 98 % relative humidity.
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In fact, the relative humidity specification that can be found in operating manuals of currently available water-jacketed incubators ranges from 90 % maximum to 95 % maximum. This specification is equal to or even lower than most air-jacketed or direct heat incubators – depending on the models compared.
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