Perevezencev V.V., Kuzero V.B.
Bauman Moscow State Technical University, Moscow, Russia
Experimental researching of two-phase gas-liquid flow under the action of periodic cross forces was carried out. Purpose of work is obtaining of experimental data for following analysis of structure characteristics of two-phase flow moving. Received using optics methods velocity vectors fields was analyzed for finding of structure characteristics of two-phase flow for different conditions and periodic cross forces influence (different angle amplitudes, periods of moving). Obtained data describes structure of two-phase flows in details for various flow regimes. It could be used like verification base for math models in modern CFD-codes.
1. Antonov S.N., Esherkin V.M., Turtaev N.P. Opyt ekspluatatsii RU VK-50 dlya proektirovaniya ATETs s korpusnym kipyashchim reaktorom [Operating experience RU VC-50 for design purposes with the case boiling reactor]. Voprosy atomnoy nauki i tekhniki. Seriya: Fizika yadernykh reaktorov – Problems of atomic science and technology. Series: Physics of Nuclear Reactors, 2005, no. 1, pp. 46-57.
2. Goswami N., Paruya S. Advances on research on nonlinear phenomena in boiling circulation loop. Progress in nuclear energy, 2009, vol. 53, no. 6, pp. 673-697 p.
3. Il'chenko A.G., Zyev A.N., Haritonin I.E. Issledovanie raboty energobloka VVER-1000 v rezhime estestvennoy tsirkulyatsii teplonositelya [Research work unit VVER-1000 coolant natural circulation mode]. Vestnik Ivanovskogo gosudarstvennogo energeticheskogo universiteta – Vestnik of Ivanovo State Power Engineering University, 2008, no. 2, pp. 49-52.
4. Zejun Xiao, Chuan Xu, Wenbin Zhuo. Steady characteristic investigation on passive residual heat removal system of Chinese advanced PWR. Nuclear science and techniques, 2008, vol. 19, no. 1, pp. 58-64.
5. Jian Deng, Xuewu Cao. Analysis of hot leg natural circulation under station blackout severe accident. Nuclear science and techniques, 2007, vol. 18, no. 2, pp. 123-128.
6. Mironov U.V., Radkevich V.E., Zhuravleva U.V. Verifikatsiya teplogidravlicheskikh modeley kodov uluchshennoy otsenki na primere modeli dvukhfaznogo potoka kodov RELAP5 i KORSAR [Verification of the thermal-hydraulic models improved assessment codes on the example of the two-phase model RELAP5 code stream and KORSAR]. Atomnaya energiya – Atomic Energy, 2004, vol. 4, pp. 446-450.
7. Dragynov U.G., Bikov M.A., Vasilenko V.A. Opyt primeneniya i razvitie raschetnogo koda korsar dlya obosnovaniya bezopasnosti AES s VVER [Experience with the design and development of the corsair code for substantiation of NPP with VVER]. Teploenergetika – Thermal Engineering, 2006, vol. 1, pp. 43-47.
8. Zhao Guozhi, Cao Xinrong, Shi Xingwei. A study using RELAP5 on capability and instability of twophase natural circulation flow under passive external reactor vessel cooling. Annals of nuclear energy, 2013, vol. 60, pp. 115-126.
9. Smith T.R., Schlegel J.P., Hibiki T. Two-phase flow structure in large diameter pipes. International journal of heat and fluid flow, 2012, vol. 33, no. 1, pp. 156-167.
10. Vyas H.P., Venkrat R., Nayak A.K. Experimental investigation on steady state natural circulation behavior of multiple parallel boiling channel system. Nuclear engineering and design, 2010, vol. 240, no. 11, pp. 3862-3867.
11. Gizadylin V.I. Zakonomernosti raspredeleniya gazovoy fazy v zhidkosti pri produvke snizu [The patterns of distribution of gas in the liquid phase at the bottom blowdown ]. Vestnik Yuzhno-Ural'skogo Gosudarstvennogo Universiteta – Bulletin of the South Ural State University, 2006, no. 10.
12. Solonin V.I., Perevezencev V.V., Isakov N.Sh. Struktura dvukhfaznogo adiabaticheskogo potoka v rezhime barbotazha vozdukha v zapolnennom vodoy vertikal'nom tsilindricheskom kanale [The structure of the two-phase stream in the adiabatic air bubbling in water-filled mode vertical cylindrical channel]. Nauka i obrazovanie – Science and education, 2014, no. 6.
13. Hlopkin N.S. Morskaya atomnaya energetika: uchebnoe posobie [Marine nuclear power: a tutorial]. Moscow, MIPhI Publ., 2007. 244 p.
14. Ignat'ev K.F. Teoriya podvodnykh lodok [The theory of submarines]. Moscow, Voenizdat MVS Publ., 1947. 187 p.
