Перспективы использования вихревых аппаратов в криогенике

Инженерный журнал: наука и инновации

# 6·2017 7

Prospects of using vortex devices in cryogenics

© V.L. Bondarenko

1

, D.P. Tyshko

2,3

, Yu. M. Simonenko

3

1

Bauman Moscow State Technical University, Moscow, 107005, Russia

2

Cryoin Engineering Ltd, Odessa, 65026, Ukraine

3

Odessa National Academy of Food Technologies, Odessa, 65039, Ukraine

The study focuses on the problems of using low-consumption low-temperature machine-

less apparatuses. We give examples of using gas-dynamic coolers in technologies for

extracting rare gases and show, in particular, that a decrease in the phase equilibrium

temperature of the mixture during the purification of Ne-He-concentrate from nitrogen

makes it possible to halve the presence of the secondary component at the exit from the

phase separator. In this case, this positive effect is achieved by using the existing pres-

sure difference, which eliminates the need for additional energy costs.

Keywords:

cryogenic engineering, rare gases, gas-dynamic cooler, vortex tube

REFERENCES

[1]

Merkulov A.P.

Vikhrevoy effekt i ego primenenie v tekhnike

[Vortex effect and

its application in engineering]. Moscow, Energiya Publ., 1977, 343 p.

[2]

Arkharov A.M., Bondarenko V.L., Simonenko, Yu.M. Oscillatory and Vortex

Devices and Their Use in Rare Gases Extraction.

Proceedings of a 11th IIR

International Conference on Cryogenics

. Slovakia, Bratislava, 2010, pp. 180–182.

[3]

Kirillin V.A., Sychov V.V., Sheyndlin A.E.

Tekhnicheskaya termodinamika

[Engineering thermodynamics]. Moscow, Energiya Publ., 1974, 447 p.

[4]

Prakabaran J., Vaidyanathan S.

Indian Journal of Science and Technology

,

2010, no. 4, pp. 374–376.

[5]

Bondarenko V.L., Arkharov A.M., Simonenko Yu.M. Wave Cryogenerators

Applied in Technologies of Rare Gas Separation.

The 22nd International

Congress of Refrigeration,

China, Beijing, 2007, ICR-A2-132.

[6]

Gulyaev A.I.

Inzhenerno-fizicheskiy zhurnal — Journal of Engineering Physics

and Thermophysics,

1965, no. 9, pp. 354–358.

[7]

Yunpeng Xue.

The working principle of a Ranque-Hilsch Vortex Tube

. The Univer-

sity of Adelaide, Australia, 2012, 121 p. URL:

http://digital.library.adelaide.edu.au/dspace/bitstream/2440/82139/8/02whole.pdf

Bondarenko V.L.

(b. 1955)

graduated from Odessa Technological Institute of Refrigera-

tion Industry in 1977. Dr. Sc. (Eng.), Academician of the International Academy of Re-

frigeration, Head of the Department of Refrigerating and Cryogenic Technology, Systems

of Air Conditioning and Life Support Department of the Bauman Moscow State Tech-

nical University. Research interests include technology of high purity inert gases, cryo-

genic systems separators, gas-dynamic coolers. e-mail:

vbondarenko@cryoin.com

Tyshko D.P.,

post-graduate student of the Department of Cryotechnologies, Odessa

National Academy of Food Technologies; research engineer of Cryoin Engineering Ltd.

e-mail:

dtishko@cryoin.com

Simonenko Yu.M.

(b. 1952)

graduated from Odessa Technological Institute of Refrigera-

tion Industry in 1974. Dr. Sc (Eng.), Professor, Head of the Department of Cryotechnolo-

gies of Odessa National Academy of Food Technologies. Research interests include

cryogenic separation technology of multi-component gas mixtures.

e-mail:

ysim1@yandex.ru