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Proceedings Paper

Investigation of the singlet oxygen generator with the twisted flow
Author(s): Ivan M. Krukovsky; Anatoliy A. Adamenkov; Boris A. Vyskubenko; Yuri N. Deryugin; Sergei P. Ilyin; Evgeniy A. Kudryashov
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Paper Abstract

The results of the Singlet Oxygen Generator with Twisted Aerosol flow (TA-SOG) investigations are presented. The experimental results demonstrate TA-SOG output values exceed those of other types SOGs known from publications. TA-SOG outflow is aerosol-free all over the broadly ranged parameters even at a gas pressure over 100 Torr and velocity 100 m/sec. The maximal chemical efficiency was obtained as 70 percent. The reactor cross-sectional electronic energy flux exceeds 1.5 kW/cm2. Measured Singlet Oxygen (SO) yield was approximately 60 percent at the pressure 12- Torr at the measurement point distant by more than 10 cm of reactor outlet. Chlorine utilization exceeds 90 percent. All the listed parameters were obtained without any buffer at its outlet. It is directly connected to COIL supersonic nozzle not fearing BHP carryover. So, TA-SOG output and nozzle input pressures are almost equal without additional ejectors. TA-SOG model created provides atmospheric pressure of the spent solution at SOG outlet, which simplifies sufficiently the re-circulation system design.

Paper Details

Date Published: 4 May 2000
PDF: 10 pages
Proc. SPIE 3931, Gas, Chemical, and Electrical Lasers and Intense Beam Control and Applications, (4 May 2000); doi: 10.1117/12.384265
Show Author Affiliations
Ivan M. Krukovsky, Russian Federal Nuclear Ctr. (Russia)
Anatoliy A. Adamenkov, Russian Federal Nuclear Ctr. (Russia)
Boris A. Vyskubenko, Russian Federal Nuclear Ctr. (Russia)
Yuri N. Deryugin, Russian Federal Nuclear Ctr. (Russia)
Sergei P. Ilyin, Russian Federal Nuclear Ctr. (Russia)
Evgeniy A. Kudryashov, Russian Federal Nuclear Ctr. (Russia)

Published in SPIE Proceedings Vol. 3931:
Gas, Chemical, and Electrical Lasers and Intense Beam Control and Applications
Santanu Basu; Santanu Basu; Steven J. Davis; Ernest A. Dorko, Editor(s)

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