ANALYSIS OF THE POSSIBILITY OF COOLING THE DIAMOND VACUUM WINDOW OF THE SIBERIAN CIRCULAR PHOTON SOURCE WORKSTATION UNDER ULTRA-HIGH THERMAL LOADS
At a Glance
Section titled “At a Glance”| Metadata | Details |
|---|---|
| Publication Date | 2025-01-01 |
| Journal | Interfacial phenomena and heat transfer |
| Authors | M.V. Pukhovoy, M.V. Pukhovoy, В.Н. Винокуров, В. А. Винокуров, Elena Bykovskaya |
| Citations | 1 |
Abstract
Section titled “Abstract”When designing the second stage of workstations of the Novosibirsk synchrotron Siberian Circular Photon Source (Russia), it is necessary to reevaluate the requirements and capabilities of chemical vapor deposition (CVD)-diamond vacuum window (CVW) operation under extremely high thermal loads from absorbed radiation. The calculations are performed based on 3D modeling of CVW proposed for workstations 1-5 earlier. The issue of reducing the coolant (water) consumption by 1.5 order of magnitude is considered, and it is found that the maximum temperature in the CVD-diamond foil does not rise above 372°C, which allows us to declare its sufficient long-term operability. The temperature on the walls of minichannels does not rise above 56°C. This guarantees the absence of water boiling and possible associated CVW vibration. It has been established that a decrease in water temperature by several degrees from the basic case will allow a safe removal of 11% more heat, and the use of ethanol 96%, HFE-7100, or Tosol-40 at temperatures below -35°C will increase the removed heat power by approximately 17% from the basic case. The working version for cooling the previously proposed CWV is presented, in which a minimum temperature difference along the foil plane of only 249°C is observed.