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The invention relates to cryogenic engineering. The inventive device for liquefying and separating gas and for releasing one or more gases from a mixture thereof, comprises, in series axially positioned, a prechamber (1) with gas flow whirling means (2) arranged therein, a subsonic or supersonic nozzle (3) with a working segment (4), which is abutted thereto and to which liquid phase extracting means (5) is connected, and a subsonic diffuser (7) or the combination of a supersonic (6) and the subsonic diffuser (7). The length of the working segment (4) is selected according to a condition of forming condensate drops with a size greater than 0.5 mkm and of drifting them, by centrifugal forces, from the axial area of the working segment to the walls of the drop extracting means. The device is provided with an additional nozzle (8) arranged in the prechamber. The invention makes it possible to increase the separation efficiency.

Titel:	Gas liquefaction and separation device utilizing subsonic and supersonic nozzles
Autor/in / Beteiligte Person:	Alferov, Vadim Ivanovich ; Bagirov, Lev Arkadievich ; Dmitriev, Leonard Makarovich ; Imaev, Salavat Zainetdinovich ; Feygin, Vladimir Isaakovich
Link:	View record in USPTO Patent Grants (Volltext)
Veröffentlichung:	2014
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Grants Sprachen: English Patent Number: 8,696,793 Publication Date: April 15, 2014 Appl. No: 12/733260 Application Filed: July 31, 2008 Assignees: 3S Gas Technologies Limited (Nicosia, CY) Claim: 1. A device for gas liquefaction or separation of one or more gases from their mixture, comprising the following coaxially installed components: a premix chamber (1) with swirling means (2) for swirling a gas flow; a main subsonic or supersonic nozzle (3) with a working section (4) attached thereto, separating means (5) for separating the liquid phase being attached to the working section, a subsonic diffuser (7) or a combination of a supersonic diffuser (6) and a subsonic diffuser (7); the device being arranged such that the nozzle (3) being made with relationships between inlet and outlet cross-sectional areas and minimum cross section of the nozzle (3) that ensure a static pressure and a static temperature at the nozzle outlet, which comply with the condition of condensation of a gas or the gas' target components, a length of the working section (4) ensures formation of condensate droplets having a size greater than 0.5 microns and their drift from the axial area of the working section (4) toward the walls of droplet separating means for separating droplets, and the aperture angle of the working section (4) ensures maintaining conditions for gas or the gas' target component condensation; the said device being provided with an additional subsonic or supersonic nozzle (8) arranged in the premix chamber (1), such that the outlet of the additional nozzle (8) is arranged in the subsonic portion or in the supersonic portion of the main nozzle (3). Claim: 2. A device according to claim 1 , characterized in that the additional subsonic or supersonic nozzle (8) is made so as the relationship between the outlet cross-sectional areas of the main nozzle and the additional nozzle is: [mathematical expression included] Claim: 3. A device according to claim 1 , characterized in that the additional subsonic or supersonic nozzle (8) is arranged in the premix chamber (1) coaxially or not coaxially to the main nozzle (3). Claim: 4. A device according to claim 1 , characterized in that the additional subsonic or supersonic nozzle (8) is arranged in the premix chamber (1) in such a way that the additional nozzle's inlet is located upstream the swirling means (2) for swirling a gas flow and the outlet of the additional nozzle (8) is located only downstream the swirling means (2) for swirling a gas flow. Claim: 5. A device according to claim 4 , characterized in that the outlet of the additional nozzle is arranged in the premix chamber. Claim: 6. A device according to claim 1 , characterized in that the inlet of the additional nozzle (8) is connected to an external gas source (12). Claim: 7. A device according to claim 1 , characterized in that the device is provided with a gas-liquid separator (10) which inlet is connected to the outlet of the droplet separating means for separating the liquid phase, and the gas outlet is connected to the inlet of the additional nozzle (8). Claim: 8. A device according to claim 1 , characterized in that the cross-sectional area of the main nozzle (3) is greater than the main nozzle's minimum (critical) cross-section by at least 10 times. Current U.S. Class: 95/32 Patent References Cited: 3528217 September 1970 Garrett ; 4272499 June 1981 Cason et al. ; 5087175 February 1992 Raizman et al. ; 5275486 January 1994 Fissenko ; 5306330 April 1994 Nasikas ; 5839884 November 1998 Beylich ; 6248154 June 2001 Popov ; 6280502 August 2001 van Veen et al. ; 6372019 April 2002 Alferov et al. ; 6776825 August 2004 Betting et al. ; 6877960 April 2005 Presz et al. ; 6962199 November 2005 Tjeenk Willink ; 8002878 August 2011 Betting et al. ; 2 143 654 December 1999 ; 2 167 374 May 2001 Assistant Examiner: Raymond, Keith Primary Examiner: Jules, Frantz Attorney, Agent or Firm: Nath, Goldberg & Meyer ; Meyer, Jerald L. ; Rajan, Lakshmi

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Gas liquefaction and separation device utilizing subsonic and supersonic nozzles