Numerical investigation into thermal effects of pre-cooling zone in vitrification-based cryopreservation process
Autor: | Pei Ju Chiang, Chien Hsiung Tsai, Hsun Heng Tsai, Wei-Te Wu, Fu Zen Chen |
---|---|
Rok vydání: | 2015 |
Předmět: |
Cryopreservation
Hot Temperature Materials science Ice crystals Nitrogen Evaporation Thermal Conductivity General Medicine Mechanics Models Theoretical Liquid nitrogen Vitrification General Biochemistry Genetics and Molecular Biology Cold Temperature Thermal conductivity Thermal Tube (fluid conveyance) General Agricultural and Biological Sciences Falling (sensation) |
Zdroj: | Cryobiology. 70:32-37 |
ISSN: | 0011-2240 |
Popis: | Most studies on ultra-fast cryopreservation assume an immediate placement of the cryopreservation tube in the liquid nitrogen tank. However, in practice, before the tube is placed into the liquid nitrogen, it passes through a space containing gaseous nitrogen (pre-cooling zone) formed via the evaporation of the bulk liquid nitrogen. Comparing with ultra-fast cryopreservation, the cooling rate is insufficiently high during the falling transition to vitrify the liquid. As the tube passes through this region, its temperature may fall to the temperature required for the formation of ice crystals, and thus cell damage may occur. Consequently, in optimizing the cryopreservation process, the effects of this transition region should be properly understood. Accordingly, the present study utilizes a thermal model to investigate the temperature variation in the tube as it falls through the pre-cooling region. The simulation results show that the cooling rate within the tube increases with an increasing tube velocity. Furthermore, the results reveal that the cooling rate at the front end of the tube is higher than that at any other position of the tube. Thus, to prevent the formation of ice crystals, the material used to seal the front end of the tube should have a low thermal conductivity. In addition, a streamlined design of the front end of the tube is advised. Finally, the cooling rate within the tube depends on the tube material as well as the falling speed. The height of the pre-cooling zone needs to be carefully designed based on the tube material and falling speed, thus the ice crystal formation can be prevented. |
Databáze: | OpenAIRE |
Externí odkaz: |