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  5. FLOW IN MIXING CHAMBER OF COUNTERVORTEX AERATOR

FLOW IN MIXING CHAMBER OF COUNTERVORTEX AERATOR

Section

Environmental Safety

Title

FLOW IN MIXING CHAMBER OF COUNTERVORTEX AERATOR

Сontributors

V. V. Volshanik, Doctor of Science in technique, professor MGSU, This email address is being protected from spambots. You need JavaScript enabled to view it.,

A. L. Zuykov, Doctor of Science in technique, professor MGSU, This email address is being protected from spambots. You need JavaScript enabled to view it.,

G.V. Orekhov, Ph. D., professor MGSU, This email address is being protected from spambots. You need JavaScript enabled to view it.,

Uranzayaa Bayaraa, Doctor of Science in technique, assistant professor of the Mongolian state technical

university, This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract

Results of measurement of water-air flow in mixing chamber carried out on experimental hydro-aero-dynamic test bench have been reviewed. To provide optimal functioning of countervortex aerator such flow energy balance should be found that provide maximum possible depression due to minimization of energy loss in mixing chamber and maximal treatment of water mass. Aerator mode impact on the extent the water mass are influenced by aerated stream has been fulfilled. This extent depends on vortex unit construction, lenght of mixing chamber, air feed to aerator mode.

Keywords

water aeration, countervortex aerators, mixing chamber, water-air flow characteristics, water- air stream, extend the water mass are influenced by aerated stream.

References

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2.  Volshanik V. V., Zuikov A. L. and Skatkin M. G. General purpose mixer. Patent for invention. RUS 2206378, 2003.

3.  Volshanik, V. V., Karelin V. Ya., Orekhov G. V. and Zuikov A. L. Countervortex aerators — operating principles and design. Collected scientific works. Moscow: MGSU, — 2001. — P. 95—101.

4.  Volshanik, V. V., Zuikov A. L., Orekhov G. V. and Bayaraa U. Water discharge and air ejection in countervortex aerator. Ecology of Urban Areas. 2014. № 2. P. 33—40.

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6.  Karelin V. Ya., Volshanik V. V., Zuikov A. L. and Orekhov G. V. Experimental basis of optimal form of flow camera of countervortex aerator. Proceeding of OSN RAASN. Belgorod. 2005. № 9. P. 229—237.

7.  Volshanik V. V., Zuikov A. L., Orekhov G. V. and Bayaraa U. Specifics of working process of countervortex aerators and the tasks hydraulic research. Ecology of Urban Areas. 2013. № 2. P. 74—80. 

8.  Karelin V. Ya., Volshanik V. V., and Zuikov A. L. Scientific basis and technical application of the effect of swirled flows interaction. Proceeding of OSN RAASN, Moscow. 2000. № 3. P. 37—44.

9.  Mordasov, A. P., V. V. Volshanik, A. L. Zuikov and Levanov A. V. Application of swirled floes in solving problem of environmental protection. Proceedings of Higher Educational Institutions. Construction and architecture. 1984. № 8. P. 97—101.

10. Akhmetov, V. K., V. V. Volshanik V. V., A. L. Zuikov and Orekhov G. V. 2012. Modeling and calculation of countervortex flows. Moscow: MSCU Printing House, 2012. 252 p.