Actually, two-way thermal-energy exchange between working fluid and solid material of a casing is a leading problem for modern – semi automatic – design techniques. Many questions should be solved, especially, the turbulent mode of thermal energy transport both in fluid and solid, should be re-examined and reformulated from the primary principles. In the present paper, a group of researchers from Energy Conversion Department of IMP PAN at Gdańsk, tries to summarise a last three-years efforts towards to mathematical modelling of advanced models of thermal energy transport. This extremely difficult problem in "thermal-FSI" ("Fluid Solid Interaction") means that the both for solid and fluid mathematical model of a surface layer should be self-equilibrated and self-concise. Taking these requirements into account, an advanced Reynolds-Stanton analogy has been discussed and implemented. Some numerical examples concerning of the benchmarks experiments and industrial applications have also been developed and presented.
Authors
- Janusz Badur,
- dr inż. Paweł Ziółkowski link open in new tab ,
- Witold Zakrzewski,
- Daniel Sławiński link open in new tab ,
- Sebastian Kornet link open in new tab ,
- Tomasz Kowalczyk link open in new tab ,
- Jakub Hernet link open in new tab ,
- Rafał Piotrowski link open in new tab ,
- Judyta Felicjancik link open in new tab ,
- Piotr Ziółkowski link open in new tab
Additional information
- DOI
- Digital Object Identifier link open in new tab 10.1088/1742-6596/530/1/012039
- Category
- Inne
- Type
- supllement, wydanie specjalne, dodatek
- Language
- angielski
- Publication year
- 2014
