The jet type singlet oxygen generator produces O/sub 2/(/sup 1//spl Delta/) at high pressures with high O/sub 2/(/sup 1//spl Delta/) yield. In the traditional version of the JSOG the gas outlet was located in the side wall of the JSOG body. This set-up of the JSOG has low capability for scaling. The counterflow JSOG with vertical gas outlet has no limitation for scaling. The cross section of the reaction zone of JSOG should be equal to the cross section of the laser cavity for scaling. The main goal of the study of Verti-JSOG is to achieve the maximum oxygen flux in the reaction zone of the JSOG for minimizing of the potential large scale JSOG and powerful COIL. At this maximum oxygen flux the O/sub 2/(/sup 1//spl Delta/) yield should be high (>60%) and chlorine utilization should be more than 90%. The maximum oxygen flux is limited by these two main requirements, droplet content at the exit of JSOG and the hydrodynamic stability of JSOG operation. The hydrodynamic stability of the JSOG means that the ejection of the BHP foam into the vacuum duct doesn't take place. The same amount of droplets will be at the exit of any kind of SOG in all cases. But up to any critical value of the droplet content it has no serious effect on COIL operation. The O/sub 2/(/sup 1//spl Delta/) yield and Cl/sub 2/ utilization may be predicted on the basis of a kind of kinetic model.


    Access

    Check access

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Current COIL research in Lebedev Physical Institute, Samara Branch


    Contributors:


    Publication date :

    1999-01-01


    Size :

    150273 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



    Current COIL research in Samara [2767-22]

    Nikolaev, V. D. / Lebedev, P. N. / SPIE; Czech Republic Chapter et al. | British Library Conference Proceedings | 1996


    Piotr Nikolaevich Lebedev

    Pogrebysskaya, E. I. | British Library Online Contents | 2016



    Roadtest - Lada Samara

    Watt,P. / Lada,SU | Automotive engineering | 1989


    Samara-Type Decelerator

    W. Koenig / R. Kline | NTIS | 1986