The usage of high speed impulse liquid jets for putting out gas blowouts

Semko, A. N.; Beskrovnaya, M. V.; Vinogradov, S. A.; Hritsina, I. N.; Yagudina, N. I.

Artykuł - szczegóły

Tytuł artykułu

The usage of high speed impulse liquid jets for putting out gas blowouts

Autorzy

Semko A. N. , Beskrovnaya M. V. , Vinogradov S. A. , Hritsina I. N. , Yagudina N. I.

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

The experimental examinations of gas flame suppression by a high speed impulse liquid jet generated by a powder impulse hydro-cannon have been carried out. The speed of the impulse jet depending on charge energy has ranged from 300 to 600m/s. The speed of the jet head right near the flame has been measured by a laser non-contact measuring device, the flow has been photographed. It has been shown that the high-speed cloud of splashes with a big cross-section around the jet is being formed. It effectively forces down the flame of the gas on distances 5-20m from installation.

Słowa kluczowe

impulse liquid jet powder impulse hydrocannon

Wydawca

Polskie Towarzystwo Mechaniki Teoretycznej i Stosowanej

Czasopismo

Journal of Theoretical and Applied Mechanics

Rocznik

2014

Tom

Vol. 52 nr 3

Strony

655--664

Opis fizyczny

Bibliogr. 21 poz., rys., tab.

Twórcy

autor

Semko A. N.

o.semko@donnu.edu.ua

Donetsk National University, Donetsk

autor

Beskrovnaya M. V.

Donetsk National University, Donetsk

autor

Vinogradov S. A.

National University of Civil Defense of Ukraine, Kharkov

autor

Hritsina I. N.

National University of Civil Defense of Ukraine, Kharkov

autor

Yagudina N. I.

Donetsk National University, Donetsk

Bibliografia

1. Atanov G.A., 1987, The Hydroimpulsive Installations for Breaking Rock Formation in the Mines (in Russian), Kyiv, Vyscha Shkola.
2. Chermenskiy G.P., 1970, The excessive pressure in the impulse fluid jet, Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki, 1, 174-176
3. Orlova B.V. edit., 1974, Design of Missile and Barrel Systems, Mashinostroenie, Moscow
4. Drayzdel D., 1990, Introduction to the Dynamics of the Fires, Stroyizdat, Moscow
5. Dunne B., Cassen B., 1956, Velocity discontinuity instability of liquid jet, Journal of Applied Physics, 27, 6, 577-582
6. Grace R.D., 2003, Blowout and Well Control Handbook, Gulf Professional Publishing, Elsevier Science, USA, 439-442, ISBN 0-7506-7708-2
7. Holand P., 1997, Offshore Blowouts. Causes and control, Gulf Publishing Company Houston, Texas
8. Karpov V.L., 1998a, Fire safety of routine and accidental releases of flammable gases. Part 1. Extreme conditions of steady burning and extinguishing diffusion flames in a fixed environment, Pozharovzrivobezopasnost, 3, 36-43
9. Karpov V.L., 1998b, Fire safety routine and accidental releases of flammable gases. Part 2. Extreme conditions of steady burning and extinguishing of diffusion flames in the mobile atmosphere, Pozharovzrivobezopasnost, 4, 40-47
10. Larin O.M., Semko A.N., Gritsina I.M., Vinogradov S.A., 2011, The patent for utility model No. 66434 “Facility for fire fighting”, MPC (2011.01), A62C 27/00. Application Number 2011 03022. Date of application 15.03.2011. Date of data publication 10.0.1.2012, Bull. Num. 1.
11. Mamikonyants G.M., 1971, Fire Fighting of Powerful Oil and Gas Fountains (in Russian), Nedra, Moscow
12. Noumi M., Yamamoto K., 1992, Flow characteristics and impact phenomena of pulsed water jets, Proceedings of The Third Pacific Rim International Conference on Water Jet Technology, Tai-nan, Taiwan
13. Polakov P., 2012, Ministry of Defence and Armed Forces of the Czech Republic, Access mode http://www.army.cz/en/default.htm
14. Povzik Y.S., 2004, Fire tactics (in Russian), [In:] ZAO Spectekhnika, Moscow
15. Reshetniak V., Semko A., 2009, Using of the Rodionov method for calculating the quasio-nedimensional motions of an ideal incompressible fluid, Prikladnaya Gidromekhanika, 9 (81), 3, 56-64
16. Sedov L.I., 1977, Similarity and Dimensional Methods in Mechanics, Nauka, Moscow
17. Semko A.N., 2002, The internal ballistics of powder water jet cannon and hydrocannon, Teoreticheskaya i Prikladnaya Mekhanika, 35, 181-185
18. Semko A.N., 2007, Pulsed High-Pressure Liquid Jets, Veber, Donetsk
19. Semko A.N., Besckovnaya M.V., Ukrainskyiy J.D., Vinogradov S.A., Gritsina I.N., 2013, The patent for utility model with number 82064 “Method of extinguishing of the gas flares”, MPC (2013.01). A62C 2/00. Application Number 2012 12587. Date of application 05.11.2012. Date of data publication 25.07.2013, Bull. Num. 14.
20. Spalding D.B., 1985, Combustion and Mass Transfer (in Russian), Mashinostroenie, Moscow
21. Wooleys L.A., Yarin L.P., 1978, Aerodynamics of Torch (in Russian), Energiya, Lvov

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-ca3695db-08d1-44c6-9cab-601bf5cc935f