Search Results - "Novoselsky, O."

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  1. 1
    Cavitation model of choked flow of underheated water

    Cavitation model of choked flow of underheated water by Novoselsky, O. Yu, Kolganova, L. I.

    Published in Atomic energy (New York, N.Y.) (01-05-2012)
    “…A necessary condition for cavitation to appear in fluid flow is a local drop of the pressure below the saturation pressure at the flow temperature. Such a…”
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  2. 2
    Thermal–hydraulic performance of confinement system of RBMK in case of accidents

    Thermal–hydraulic performance of confinement system of RBMK in case of accidents by D’Auria, F., Novoselsky, O., Safonov, V., Uspuras, E., Galassi, G.M., Cherubini, M., Giannotti, W.

    Published in Nuclear engineering and design (01-04-2008)
    “…Within the framework of a European Commission sponsored activity, an overall assessment of the deterministic safety technology of the ‘post-Chernobyl…”
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  3. 3
    Deterministic accident analysis for RBMK

    Deterministic accident analysis for RBMK by D’Auria, F., Gabaraev, B., Soloviev, S., Novoselsky, O., Moskalev, A., Uspuras, E., Galassi, G.M., Parisi, C., Petrov, A., Radkevich, V., Parafilo, L., Kryuchkov, D.

    Published in Nuclear engineering and design (01-04-2008)
    “…Within the framework of an European Commission sponsored activity, an assessment of the deterministic safety technology of the ‘post-Chernobyl modernized’…”
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  4. 4
    The multiple pressure tube rupture (MPTR) issue in RBMK safety technology

    The multiple pressure tube rupture (MPTR) issue in RBMK safety technology by D’Auria, F., Gabaraev, B., Novoselsky, O., Radkevich, V., Filinov, V.N., Mazzini, D., Moretti, F., Pierro, F., Vigni, A., Parafilo, L., Kryuchkov, D.

    Published in Nuclear engineering and design (01-04-2008)
    “…The RBMK core is constituted by more than one-thousand pressurized channels housed into stacked graphite blocks and connected at the bottom and at the top by…”
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  5. 5
    Thermal-hydraulic performance of confinement system of RBMK in case of accidents

    Thermal-hydraulic performance of confinement system of RBMK in case of accidents by D'AURIA, F, NOVOSELSKY, O, SAFONOV, V, USPURAS, E, GALASSI, G. M, CHERUBINI, M, GIANNOTTI, W

    Published in Nuclear engineering and design (2008)
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  6. 6
    Deterministic accident analysis for RBMK

    Deterministic accident analysis for RBMK by D'AURIA, F, GABARAEV, B, PARAFILO, L, KRYUCHKOV, D, SOLOVIEV, S, NOVOSELSKY, O, MOSKALEV, A, USPURAS, E, GALASSI, G. M, PARISI, C, PETROV, A, RADKEVICH, V

    Published in Nuclear engineering and design (2008)
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  7. 7
    The multiple pressure tube rupture (MPTR) issue in RBMK safety technology

    The multiple pressure tube rupture (MPTR) issue in RBMK safety technology by D'AURIA, F, GABARAEV, B, KRYUCHKOV, D, NOVOSELSKY, O, RADKEVICH, V, FILINOV, V. N, MAZZINI, D, MORETTI, F, PIERRO, F, VIGNI, A, PARAFILO, L

    Published in Nuclear engineering and design (2008)
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