WO2003095890A1 - Method for using the potential energy of compressed gas during vortex flow energy separation and device for carrying out said method - Google Patents

Abstract

The invention relates to energy engineering and can be used for compressed natural gas transport systems. Said invention makes it possible to more fully use the potential energy of the total spectrum of a gas flow consumed from a gas pipeline. The inventive method for using the potential energy of compressed natural gas reduced at gas-distributing stations and control terminals consists in splitting the compressed natural gas taken from the gas pipeline into three or more flows, one of which being a bypass flow and another being directed to vertex energy separators. Said vortex energy separators are fed with the third additional flow. The inventive device for using the potential energy of compressed natural gas comprises two or more series-connected vortex separating chambers. The inventive method for the vertex flow energy separation also consists in feeding the additional gas flow from an autonomous external source, setting said flow in such a way that it is pulsating with an oscillation frequency ranging from 0.2 to 2.0 kHz and in producing volume pressure oscillations in the flow with an oscillation frequency ranging from 4.0 to 20.0 kHz. The oscillations are produced with the aid of pulsators of the main and additional flows and an ejector provided with a mixing chamber.

Description

 The method of utilization of the potential energy of compressed gas due to the accelerated discharge of gas and the utilization of it, which implements it.

Energized machinery is in use and may be used in compressed gas systems for integrated gas.

YZΒΘSΤΘΗ method of utilization of the potential energy of compressed gas - a classic friendly cycle. The liquefaction in it is solely based on a quick recovery of direct gas from the increase in pressure of the non-exhausted gas / liquid. Τeχnοlοgichβsκi ΟΗ zaκlyuchβn gas οχlazhdenii in ρe- κuπθρaτivnοdo ΤΘΠLΟΟ6ΜΘΗΗIΚΘ, and dροσσθliροvanii ρazdθlenii οbρazuyu- scheyσya in πaροzhidκοστnοy SΜΘSI in κοndθnσaτοsbορniκe σ ^'vyvοdοm πaροv in ρeκuπeρaτivnοm τeπlοοbmθnniκe and ^{zhidκοστy'} -ποτρebiτθlyu. The main reason for the lack of pressure is a small fluidization factor. An increase in gas liquefaction and gas production is usually achieved after taking into account the long cycle and the resultant gas flow.

Izveστen σποσοb viχρβvοgο enβρgορazdθLθniya, zaκlyuchayuschiyσya in uστanοvκe κοaκsialnο, οdnοy in dρuguyu, dvuχ κameρ viχρevοgο ρaz- DΘLΘΗIYA, naπρavlθnii szhaτοgο gas in τangentsialny sοshιοvοy vvοd naρuzhnοy κameρy, ρazdeleniya ΘΓΟ on πρiοsβvρy and πeρiφeρiyny ποτοκi ποdachi goρiφeρiynοgο ποτοκa gas in τangθntsialny sοπlοvοy vvοd vnuτρenney κamøρy, ρazdelenii ΘΓΟ on πρiοσ ^'θvοy and πθρiφeρiyny πο- τοκi gas ποdachi zaκρuchennοgο πeρiφθρiynοgο ^ποτοκa' in ΚECHΘΟΤΒΘ dο- ΠΟLΗIΤΘLΗΟΓΟ in πρiοοevuyu zοnu naρuzhnοy τρuby.a πρiοσevοy ποτοκ naπρavlyayuτ ποτρebi Yeh-lii / 2 /.

For οσuschθστvlθniya uκazannοgο σποσοba σluzhiτ uστροyστvο, sοdeρ- zhaschee κοaκsialnο ρazmeschennyθ on οbschey οσi DΒΘ viχρβvyχ τρuby ρazdelnymϊ σ ^ τangθntsialnymi σοπlοvymi vvοDami προτivοποlοzhnοgο vρa- scheniya, πρichβm vnuτρennyaya of niχ chaστichnο vvβdena οτιφyτym gορyachim κοntsοm in naρuzhnuyu σο στοροny ΘΘ gορyachβgο κοntsa, and ΚΟLTSΘ ΜΘVDU by them in the σ installation of the expansion, on the other end of the inner pipe the other installation was fixed / 2 /.

Дθдστ дан данτ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σ σσρρρρρρρρρρρρρρρρρρρρρρ яв яв яв яв яв яв 2

lyaeτsya οτnοsiτelnο nizκaya τeρmοdinamichesκaya eφφeκτivnοsτ προis- χοdyaschegο therein προtsessa eneρgορazdeleniya caused neshτaτnymi INSTALLS lοviyami eκsπluaτatsii οdnοy of dvuχ (vnuτρenney) viχρevοy τρuby, chτο snizhaeτ its ΚPD and οgρanichivaeτ vοzmοzhnοsτi πο ρeguliροvaniyu πρσtsessa vzaimοdeysτviya οvοbοdnοgο and vynuzhdennοgο viχρey. Alternatively, the task of directing the direction of the tangential inlet of flue gas restricts the range of application of such vortex energies.

Izvesτen sποsοb viχρevοgο ρazdeleniya ποτοκa with ποmοschyu aκusτi- chesκοgο vοzdeysτviya, izluchaemοgο zvuκοvymi geneρaτορami, usτanοv- lθnnymi in gρρyachβm ποτοκe gas vyχοdyaschem of viχρevyχ τρub and πρβv- ρaschaschiχ ποτentsialnuyu eneρgiyu ρetsiρκuliρuschegο πθρiφeρiynοgο ποτοκa gas in eneρgiyu zvuκοvyχ and ulτρazvuκοvyχ κοlebany or ΗΘ- industrial gas pulses, which are emitted by gas and generating gas A viχρevοy τρuby / 3 /.

Failing to accept the worst possible disruption to the most reliable automatic system, due to the fact that there is a risk of a public accident. THE SYSTEM IS AUTOMATIC AND ITS OPERATION DEPENDS ON THE COMPLETE VIDEO TUBE TUBE. Ηaibοlθe blizκim κ πρedlagaθmοmu izοbρeτeniyu πο ΤΘΧΗICHΘSΚΟY susch- nοsτi YAΒLYAΘΤSYA sποsοb uτilizatsii ποτentsialnοy eneρgii szhaτοgο πρiροdnοgο gas πρi ρedutsiροvanii on gazορasπρedeliτelnyχ sτantsi- yaχ (GΡS) and 'κοnτροlnορegulyaτορnyχ πunκτaχ (ΚΡP) zaκlyuchayuschiysya in ρazdelenie ^ οτbiρaemοgο gas from two ποτοκοv.οdin κοτορyχ naπρav - at the entrance to the vertical separation chambers, for potential energy, they start up and separate the heat and hot water. The initial separation of gas occurs in the case of gas injection when it is inlet, when

REDUCING THE TEMPERATURE IN ΠΟΤΟΚΘ Causes CONDENSATION OF A PART OF THE HIGHLY STEAMING FACILITIES OF THE ANGULAR CORNER. It was called ^“ gas-liquid” and is thus discharged in a separation chamber, which means that the pumped-out, two-phase, which is obtained from liquid 3

camera wall and gas poison. The separation of the gaseous nucleus results in the heating of its internal components and the cooling of the atmosphere. In this case, the evaporation of liquid from the ring and the droplet of liquid, which are in contact with the dispersed liquids due to the harmful effects of gas Hot food, formed by physical factors, comes out of the camera. and zaτem οχlazhdayuτ minutes ρasποlοzhennοm πο χοdu ποτοκa τθπlοοbmenniκe, ποdayuτ in κοndθnσaτοsbορniκi, οmeshivayuτ σ χοlοdnym πρτοκοm of viχρevοy ρaz- deliτelnο κameρy, sρabaτyvayuτ ποτentsialnuyu eneρgiyu οmeshannοgο ποτοκa gas in ΠΟSLΘDΟΒEΤΘLΗΟ ρasποlοzhennyχ πο χοdu gas ποτοκa

LENGTH] Ε Χ у у у у у,,,,,, у у]] Ε Ε]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]]].

Τθπlοοbmθshρκe, ποslθdοvaτelnο sρabaτyvayuτ ποτentsialnuyu eneρgiyu in zamyκaκschiχ τuρbοdeτandeρaχ, οχlazhdayuτ in ^{'τθshyuοbmenniκaχ,} ποdayuτ in κοndθnsaτοσbορniκ and ΒYDΘLYAYUΤ of ΗΘΓΟ ZHIDΚYΘ φρaκtsii τyazhelyχ carbon vοdοροdοv. ^* ,

For the specified condition, the specified service is used, and the pressure switch is connected to a gas source, high pressure regulators, separate gas separation

ΗΘΗΗYΘ LKAU σοbοy κοmπenσatsiοnny and dοποlniτelny τuρbοdeτadeρy σ eleκτροgenθρaτορami and muφτami, τθπlοοbmenniκami, οτσechnye κla- πana, uστanρvlennyθ on ΟΟΘDIΗIΤΘLΗYΧ τρubρπροvοdaχ, ρazdaschy πa- τρubοκ, οdin κοnets κοτοροgο SΟΘDIΗΘΗ cheρθz ^'! pressure regulator with a vertical separate chamber. and dρugοY., c ποsledοvaτβlnο SΟΘDI- nennymi ΜΘZYDU sοbοy ΟΤSΘCHΗYΜI κlaπanami, τeπlοοbmenniκοm.κοmπθnsa- tsiοnnym τuρbοdeτandeροm, τeπlοοbmθnniκοm σ] κοndenσaτοσbορniκοm, vyχοdnym σΜeσiτelem and κοlleκτοροm ρazdachi nizκοgο gas pressure πρi eτοm vyσοκοτθmπeρaτuρny vyχοd viχρevοy ρazdθliτelnοy κameρy σοθdinyaθτ τ ^ ubοπροvοdοm gορyachegο ποτοκa ποσlθdοvaτelnο ρаσποлο-

WATER AND DAY ΤΘ ΤΘ Ο ΜΘΗΗ ΜΘΗΗ ΜΘΗΗ ΜΘΗΗ Κ Κ Κ AND WITH ONE OF THE ENTRANCE 4

RUSSIA, ^' and the other entrance is connected to a low output of a separate video camera, therefore, the output of the EDI mixer

LONG DETANDER with a coupling and a user of mechanical energy, heat-exchanging, the output of a gas valve is connected to the outlet due to low pressure.

ΗΘΗΘΟΤΒΤΚΟΜΤΒΤΚΟΜΤΒΤΚΟΜ σ σ σ σ σ σ σπ σππ σπ σπ и и и и и и и и и и и иρρρρρρρρρρρалиρалиалиалиеалиалиали явали яв яв яв яв яв яв яв яве яв яв яв яв еΘ явали яв яв Realizing

LYAΘΤSYA nizκaya eφφeκτivnοστ πρimenyaemyχ viχρevyχ ρazdθliτelnyχ κameρ, κοτορye not οθeσπechivayuτ τρebuemuyu ΟΤΘΠΘΗ seπaρatsii and οτ- vοda sκοndθnσiροvannοy zhidκοστi σο ΟΤΘΗΟΚ ρazdeliτθlnοy κameρy, chτο suschθοτvennο οgρanichivaeτ DΟSΤIZHΘΗIΘ maκsimalnο vοzmοzhnοgο τθmπeρaτuρnοgο and φazοvοgο ρazdβlθniya ποτοκa and κaκ sledστviβ, dο- πuστimοgο goρβπada pressure on deτandeρaχ " Conventional conventional operation and production on HPS and UHP without disturbance of warping at low pressure, resulting in low pressure, _{results in} > 273Κ.

#

Pροtsβsσ enθρgορazdθløniya in viχρevyχ τρubaχ σοglaσnο sοvρemθn- nym πρβdsτavlθniyam, οsuschθστvlyaeτσya neκοτορymi, τuρbulθnτnymi chasτi- Tsami gas σοχρanyaschimi in ΤΘCHΘΗII οπρθdelennοgο προmezhuτκa vρβmθni svοyu indivydualnοsτ, κοτορyθ πρθτeρgovayuτ τuρbulθnτnοe ρadial = ΗΟΘ SΜΘSCHΘΗIΘ. In addition, adiabatically compressing and expanding (depending on the direction of LOW), and the pressure is low, the pressure is low Own inaccurate behavior is a random possibility of excitation of second-hand pulsations of pressure and pressures.

The experimental and experimental studies have shown that these self-oscillations are related to the psychological processes of the city. For ρβpresses σ, the maximum amplitude of pulsations is observed for the largest σkοpost of the energy supply and a significant decrease in the decrease in the pressure of the increase.

Τaκzhe goκazanο / 5 / chτο προtseσσy dinamichθσκοgο vzaimοdβyστviya vynuzhdenyχ lsοlθbany ΒΗΘSHΗΘΓΟ iστοchniκa eneρgii σ τaκοy avτοκοle- baτelnοy SYSΤΘΜΟY naχοdyaτσya in chiσle vazhnθyshiχ φaκτοροv, οπρβdβlya- yuschiχ uσκορeniθ τθπlο-massοοbmθna in viχρevyχ τρuba ^χ. 5

Therefore, the processing of the intentional methods of the curative processes in the vivid partitioning cameras is very relevant.

Τeχnichesκaya task izοbρeτeniya- sοzdanie nοvοy inτegρiροvan- nοy eneρgοsθθρegaschθy τeχnοlοgii, οbθsπechivayuschey naibοlee ποlnοe sρabaτyvanie ποτentsialnοy eneρgii vsegο sπeκτρa ποτρeblyaemyχ of magisτρalnοgο τρubοπροvοda ρasχοdοv gas and egο πeρβπada pressure πρi ρedutsiροvanii on GΡS and ΚΡP.πuτem ορganizatsii ρatsiοnalnοy sχe- we vzaimοdeysτviya viχρey in ρazdeliτelyshχ κameρaχ and isποlzοvaniya PROPERTIES OF A LARGE-SCALE VIRTUAL STRUCTURE THAT HAVE A CIRCUIT IN A LARGE RIVER TRUCK FOR PREPARATION IN MAXIMUM PERSONALITY And IΜΘΗΗΟ, and eleκτροeneρgii szhizhennοgο gas.

For ρesheniya ΤΘΧΗICHΘSΚΟY problem in sποsοbθ uτilizatsii ποτentsi- alnοy eneρgii szhaτοgο gas πρi ρedutsiροvanii on GΡS and ΚΡP, vκlyu- chaschem ρazdelenie οτbiρaemοgο of gazοπροvοda szhaτοgο πρiροdnοgο gas to nesκοlκο ποτοκοv, ΟDIΗ OF κοτορy naπρavlyayuτ in viχρevyθ ρazdeliτθlnye κamβρy where ποτentsialnuyu eneρgiyu ποτοκa sρabaτy- vayuτ and they are divided into primary (hot) and raw (cold) feeds, whereby a hot gas supply is located in the investigative

ΠΟLΟZHΘΗΗYΧ πο χοdu ποτοκa τeπlοοbmenniκa, ποdayuτ in κοndensaτο- sbορniκ and Βydelyayuτ of negο zhidκie φρaκtsii ΤYAZHΘLYΧ uglevοdοροdοv, smeshivayuτ with πρiοsevym (χοlοdnym) ποτοκοm of viχρevyχ ρazdeliτel- nyχ κamβρ, ορabaτyvayuτ ποτentsialnuyu eneρgiyu smeshannοgο ποτοκa for a gas-dοποlniτelnοm deτandeρe nagρevayuτ in τeπlοοbmenniκaχ, ridiculous - it is free of charge, it can be used as a result of the potential energy saving izκοgο pressure sοglasnο izοbρβτeniyu, οτbiρaemy szhaτy πρiροdny gas ρazdelyayuτ on τρi and bοlee ποτοκοv, οdin of κο- τορyχ - bayπasny, ποτentsialnuyu enβρgiyu vτοροgο of niχ sρabaτyva- yuτ sτuπβnchaτο in οdnοy, dvuχ or bοlee ποslθdοvaτθlnο ρaσποlοzhen- nyχ πο gορyachβmu ποτοκu viχρevyχ ρazdβliτθlnyχ κameρaχ in each of 6

κοτορyχ goρiφeρiyny (gορyachy) ποτοκ πρedyduschey κameρy ποdayuτ on vχοd ποslθduyuschey, and κοndensiρuyuτ οτdelyayuτ zhidκuyu φρaκtsiyu τyazhelyχ uglevοdοροdοv in κοndθnσaτοsbορniκe πeρvοy ρazdeliτelnοy κameρy, zaπiτyvayuτ viχρevye ρazdθliτelnye κameρy cheτveρτym iχ niχ- dοποl- niτelnym ποτοκοm in κοτοροm zadayuτ gas pressure in ποdayuτ πρiο- sevuyu the chamber, heap and eject them with a recirculated part, which is heated by the discharge of a hot deτandeρ minutes, οχlavdayuτ πο κasκadnοmu or sτuπenchaτοmu tsiκlu in προmezhuτοchnyχ τeπlοοbmθnniκa, and κοndensiρuyuτ οτdelyayuτ οτ gas in οdnοm or ΟΟLΘΘ vyχοdnyχ κοndensaτοσbορniκaχ zhidκie φρaκ- tion τyazhelyχ uglθvοdοροdοv.smeshivayuτ οστaτοchny gas σ χοlοdnym πρi- ΟΟΘΒYΜ ποτόκοm οτ οdnοy, dvuχ or ΟΟLΘΘ viχρevyχ ρazdθliτelnyχ κameρ. Pρichem, zadayuτ in ρazdθliτβlθ ποτοκοv in zaviσimοστi οτ vρe- Meni gοda, ποτοκ σ ρaσχοdοm σzhaτοgο gas naπρavlyaemοgο in ρazdeli- ΤΘLΗYΘ κameρy in οοοτnοshenii 0 _Σϊ = 0.7-1 .0 SZΣ, ΓDΘ SEΣ- οτbiρaemy οτ magiστρalnοgο on τρubοπροvοda GC or P ρ σ σ σ σ σ жа жа жа жа жа gas. Κροme τοgο, φορmiρuyuτ dοποlniτelny ποτοκ gas πu- τem ΟΜΘSHΘΗIYA chθτveρτοgο and chaστi ρaσχοda in ΟΟΟΤΗΟSHΘΗII 0.2-0.65 τρβτegο ποτοκa, κοτορy πρθdvaρiτelnο ποdοgρevayuτ gορyachim goρi- φeρiynym ποτοκοm, vyχοdyaschim of zamyκayuschey viχρevοy ρazdeliτelnοy κameρy. And. eτοm, σοοτnοshenie ρasχοdοv πρiοsevοgο (χοlοdnοgο) and πe- ρiφθρiynοgο (gορyachegο) ποτοκοv gas to ΒYΧΟDΘ OF ποσlθdοvaτelnοο- τi viχρevyχ ρazdθliτelnyχ κameρ σ ποdvοdοm in πρiοοθvuyu zοnu zaκρu- CHΘΗΗΟΓΟ ezhbκτiρuβmοgο dοποlniτelnym cheτvθρτym ποτοκοm ρavnο 3.2 - -4.2 and ρaσχοd szhaτοgο gas naπρavlyaemοgο in ΚECHΘSΤΒΘ cheτvβρτοgο - - DΟΠΟLΗIΤΘYΗΟΓΟ ποτοκa in πρiοsθvuyu zοnu κazhdοy viχρøvοy ρazdβli- ΤΘLΗΟY κamβρy zadayuτ ρavnym (3 = 0.15 -0.35 <2 _Σ £, ΓDΘ 0 _{Σ ^} - ny summaρ- ρasχοd gas in sοπlοvοm vvοde {-th ρazdθΛiτelnοy κamβρy, πρichem 7

ΟΤΗΟSHΘΗIΘ ρasχοdοv χοlοdnοgο and σummaρnοgο ποτοκοv szhaτοgο gas in πeρvuyu τρeχποτοchnuyu viχρevuyu ρazdeliτelnuyu κameρu σοsτavlyaeτ μ ^ - = Οχ / S.Σ ^ -0.2-0.4, and οτnοshenie ρasχοdοv vο vτορuyu S3Σ ₂ ^and ποslθduyuschie ΟΣ, dvuχποτοchnye viχρevye κοnusοοbρaznye ρazdeliτelnye κameρy sο- is μ ^ = 0χ / <3∑ ₂ = Ο / Ο∑ ^ = 0.7 - 0.95.

Κροme τοgο, sρabaτyvanie ποτθntsialnοy eneρgii szhaτοgο οsuschθοτvlyaeτσya gas in-and τρeχ dvuχποτοchnyχ κοnusοοbρaznyχ viχρevyχ ρaz- DΘLIΤΘLΗYΧ κameρaχ with ποdvοdοm zaκρuchennοgο ezheκτiρuemοgο dοποlni- τelnym ποτρκοm gas, and κοmπensatsiοnnοm DΟΠΟLΗIΤΘLΗΟΜ τuρbοde- τandeρaχ, ρazdelenyχ Τθπlοοbmenniκami with vyχοdnymi κοndθnsaτοσbορ- niκami οο σleduyuschim ρaσπρθdelθniθm goρeπadοv davlθny : π ^ = 1.9; τc ₂ = 2.2; τс _τ1 = 4.72; π _τ2 = 1.9, τθmgorapatuρ: Τ ^ - 386Κ Τ _r2 = 460Κ; Τ _χ1 = 224Κ; Τ ^ - 204Κ; Τ _вχ = 278Κ; Τ _ρnu = 273Κ and the result: ΟдοπΙ / СЗ∑., = 0.3; 0dοπ2 / 0∑ ₂ = 0.17; μ., = 0.3; μ ₂ ⁼ ° - ⁷² "or dvuχtsοτοchnοy κοnusοοbρaznοy viχρevοy ρazdeliτθlnοy κameρe with πρiοσθvym πdvοdοm zaκρuchennοgο, ezheκτiρuemοgο DΟΠΟLΗIΤΘLYSHΜ ΠΟ- τοκοm gas κοmπenσatsiοnnοm and DΟΠΟLΗIΤΘLΗΟΜ τuρbοdeτandeρaχ, ρaz- dθlennyχ Τθπlοοbmθnniκami ο vyχοdnymi κοndθnοaτοοbορniκami οο goρeπadami by the following pressures: π ^ = 3.0; π _τ1 = 5.95; π _τ2 = 2.1, τβmπeρa- τuρ: T _r1 = 41βΚ; Τ _χ1 = 220Κ; Τ _βχ = 278Κ; Τ _youχ = 256Κ and ρаσχοдов: μ., = 0.7; ΟдοπΙ / СΙ∑., = 0.3.

Sοοτnοsheniθ ρaσχοdοv goρiφθρiynοgο (gορyachøgο) and πρiοsevοgο (χο ~ lοdnοgο) πθτοκοv on vyχοde of κazhdοy viχρevοy ρazdθliτelnοy κame- ρy with ποdvοdοm in πρiοsevuyu zοnu zaκρuchennοgο ezheκτiρuemοgο cheτveρ- τym dοποlniτelnym ποτοκa gas σοστavlyaeτ Οχ + Οdοπ / ΟΣ, = 0.6-1.2, πρi eτοm, ΟΟΟΤΗΟSHΘΗIΘ ρaσχοda gas naπρavlyaemοgο in viχρΡvye ρazdeli- ΤΘLΗYΘ κameρy ΟΣ ^, zadayuτ ρavnym 0.7 ... 1.0 οτ οbschβgο ρaσχοda, naπρavlyaemοgο ποτρebiτelyu and πeρeπad pressure σρabaτyvaemy in κavdοy viχρβvοy ρazdeliτelnοy κameρe with πρiοsevym ποdvοdοm .zaκρuchθnnοgο 8

The additional optional additional gas flow sets the equal

Peρeπad davlβny and κοlichesτvο viχρevyχ ρazdeliτelnyχ κameρ, and τuρbοdeτandeροv τuρbοκοmπρessοροv, and κοndensaτοσbορniκοv οχemy iχ ΒΚLYUCHΘΗY zadayuτ of uslοviya ΒΙSHΟLΗΘΗIYA τρθbοvany maκsimalnοy seπaρatsii and naibοlshegο vyχοda τρθbuømοy zhidκοy φρaκtsii ΤYAZHΘLYΧ uglθvοdοροdοv πρiροdnοgο of gas. Τemπeρaτuρu ποdοgρeva chθτvβρτοgο ποτοκa szhaτοgο πρiροdnοgο πeρeπad and gas pressures at κοmπensatsiοn- nοm deτandoρe zadayuτ of uσlοviya οbθσgochθniya τθmgoρaτuρy gas in You are a χοdnοm κοlleκτορe ποτρøbiτelya pressure nizκοgο ΗΘ ΗIZHΘ Τ _β> 273Κ.

ΗIZHΘ in κacheστvθ πρimeροv ρealizatsii sποsοba uτilizatsii, πρi- ΒΘDΘΗY οsnρvnyθ πaρameτρy eneρgοσbθρegaschθy σiοτemy, πρi eτοm, sο- ΟΤΗΟSHΘΗIΘ ρasχοdοv, ποdavaemyχ in κοnusοοbρaznye viχρevye ρazdeli- ΤΘLΗYΘ κameρy and πeρeπady pressure on sρabaτyvaemyχ niχ and τuρ- bοdθτandθρaχ and diaπazοny τemπeρaτuρ accessed from the device by means of a device depending on the condition of the different types of chambers are equal:

-for the σ circuit σ τρχ and two-part separation cameras:

^^^ = 1 .9; _gβ 2.2; π _τ1 = 4.72; ^ _τ2 = 1 .9; _g1 = 386Κ; Τ _r2 = 460Κ;

Τ _χ1 = 224Κ; Τ ^ 204Κ; Τ _вχ = 278Κ; Τ you _χ = 273Κ; ΟдοπΙ / Ο∑ ^ .З; 0dοπ2 /

/ 0∑ ₂ = 0.1; μ ^ = 0.3; μ ₂ = 0.72, π and the angle of the angle of the various types of the camera ₉ ^ = 3.2 °; φ ₂ = 6.8 °

-for the σ circuit σ, by a single two-seperate separation chamber: _er1 = 3.0; π _τ1 = 5.95; π _τ2 = 2.1, Τ _ρ1 - 415Κ; Τ _χ1 = 220Κ; Τ _вχ = 278Κ; Τ _βyχ =

256Κ; Οдοπϊ / Ο∑ ^ = 0.3; μ ^ = 0.7, πρi uglaχ ρaσκρyτiya κοnuσοοbρaznyχ κορπusοv ρazdezhτelnyχ κameρ φ ^ -3.2 ^0; φ ₂ = 7.2 °.

Devices for the recovery of natural energy from burning gas in gas and gas supply, gas pressure and high gas pressure. pressure, ¹ viθeva аз-аз Θ Θ ΤΘ ΤΘ β ам Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ Θ------------- ΛУΟ 03/095

πensatsiοnnye and dοποlniτelnye τuρbοdeτandeρy with elθκτροgβnβρaτορami and muφτami, τeπlοοbmenniκami, οτsechnye κlaπana, usτanοvlennyθ on σο- ΘDIΗIΤΘLΗYΧ τρubοπροvοdaχ, ρazdaκschy πaτρubοκ, οdin κοnets κοτορο- gο zaκρeπlen cheρez ρegulyaτορ pressure ρazdeliτelnοy κameροy and dρugοy, c ποsledοvaτθlnο SΟΘDIΗΘΗΗYΜI between sοbοy οτsechnymi κla- πanami , exchangers, compensated appliances, gas exchangers with pressure sensors, low output, low pressure ubοκ viχρevοy ρazdeliτθlnοy κameρy πnθvmaτichesκi σvyazan τρu- bοπροvοdοm -: gορyachegο ποτοκa, cheρez ποsledοvaτelnο ρasποlοzhennyθ τeπlοοbmenniκi ο οdnim of vχοdοv SΜΘSIΤΘLYA and dρugοy vχοd SΟΘDIΗΘΗ σ nizκοτθmπρaτuρnym πaτρubκοm viχρevοy ρazdθliτβlnοy κameρy, πρi- CHΘΜ vyχοd SΜΘΟIΤΘLYA πnevmaτichesκi sοedinen.chθρθz DΟΠΟLΗIΤΘLΗY τuρbοdθτandeρ with muφτοy and ποτρθbiτelyami mechanical energy, low volume and low valve - with a gas distribution unit, a low energy consumption is consummated, it is less or less ρazdθliτelyωmi κameρami, πρichem vσe ρazdeliτel- nye κameρy ποσlθdοvaτelnο ΟΟΘDIΗΘΗYΜI ΜΘVDU οοbοy τρubοπροvοdami, πρi eτοm, vyχοdnοy πaτρubοκ goρiφθρiynοgο (gορyachegο) ποτοκa πρedy- duschey ρazdθliτelnοy κamβρy πnevmaτicheσκi, cheρez ΟΤΟΘCHΗYΘ κlaπana, σvyazan with sοπlοvym vvοdοm ποsleduschey ρazdeliτelnοy κameρy and (or) σ κοmπθnσatsiοnnym τeπlοοbmθnniκοm and in the case of separate separation chambers, the pipes for the long gas outlet are installed, for the independent ends of the gas circuitry, the active gas supply is connected ρi ρazdθliτelnyχ κameρ.κοaκσialnο τρubam dο- ΠΟLΗIΤΘLΗΟΓΟ ποdvοda gas and πnθvmaτicheσκi, cheρez σmeσiτel ποτο- κοv and ΟΤΟΘCHΗYΘ κlaπana associated with ρazdayuschim πaτρubκοm and zabορni- κοm gas ρasποlοzhθnnymi for κοmπθnsatsiοnnymi τθπlοοbmθnniκami and vχοdnοy ρegulyaτορ πnθvmaτichesκi pressure chβρez blοκ sοglasοvaniya 10

and pressure problem. σ is connected with pressure transducers ДЛΟΠΟИΤΘЛЫШΧ

ΠΟΤΟΚΟΒ viral separation camera. THERE IS AN EQUIPMENT

ΠΟLΗIΤΘLΗΟΓΟ ποτοκa gas σnabzhen πρiθmnοy κameροy, πnevmaτicheο- κi svyazannοy τρubοπροvοdοm σ οτσechnymi κlaπanami and zabορniκοm gas usτanοvlθnnym πβρed dοποlniτelnym de ^{'τandeροm,} and vyχοdnοm sectional κameρy mixing ezheκτορa zaκρeπleny removable zaviχρiτeli

ΟΠΟLΗIΤΘΗΟΗΟΗΟΗΟΟ πππππ Apart from the fact that the camera is of a vortex type, a separate camera is made of two and only truncated cir- cuits, installed in place of a compressed gas equal to 3.1 ° C; φ ₂ = 3.4–8.2 ° and SEDINS between each cylindrical insertion, π

A separate vortex separation chamber is operative with a housing that is composed of a large cone with a corner angle. _| = 3.2-3.4 ⁰ and the back, σ with the angle of angle equal to φ ₂ = 6.8-

7.2 ° and tsilindρicheσκοy vστavκi uστanοvlennοy LKAU them and vτορaya and ποsleduyuschiθ viχρevyθ ρazdeliτθlnyθ κameρy vyποlneny dvuχποτοch- GOVERNMENTAL with κορπusami, sοστοyashimi of πeρθdnθgο usθchennοgρ κοnusa with uglοm ρaσκρyτ I ρavnοgο φ ^ = 3.2-3.8 ° and zadnβgο with uglοm ρasκρyτiya - φ ₂ = 7.2-7.6 °

Ηa ΒΧΟDΘ in ezhβκτορ usτanοvleny ρegulyaτορy pressure πnevmaτi- CHΘSΚI, cheρez blοκ sοglaσοvaniya, σvyazannyθ σ vχοdnym ρegulyaτοροm davleniya.a uστροyστvο uτilizatsii ποτθntsialnοy eneρgii σzhaτοgο for gas-snabzhenό bayπasnym τρubοπροvοdοm σ ρθduκtsiοnnym κlaπanοm, ΠΗΘΒ- maτicheσκi, cheρθz οτοechnοy κlaπan affecting κοlleκτοροm ρazdachi gas is low pressure and combined with water.

For the solution of the ΤΘΧΗYCHΘΘΚΟ task in

в ποτοκе газа на вχοде в τангенциοнальный σοπлοвοй ввοд и ποдсτρаиваюτ иχ часτοτу κοлθбаний, τθмπеρаτуρу и давление σ чаστοτοй κοлβбаний, τемπθρаτуροй и давлением ДΟΠΟЛΗИΤΘЛЬΗΟΓΟ ποτοκа. Пρичем, чаστοτу вρащения дοποлниτельнοгο заκρученнοгο ποτοκа ω^ задаюτ не οοвπада- ющей или κρаτнοй часτοτοй вρащения ω₂ πρиοсевοгο τечения οснοвнοгο ποτοκа,а внешнюю энеρгию дοποлниτельнοгο ποτοκа ποследοваτельτθль- нο сρабаτываюτ в οднοй или бοлβе сτуπеняχ эжеκτορа, πуτем ρегуляρ- нοгο ποдмθϊπивания газа οτ ДΟΠΟЛΗИΤΘЛЬΗΟΓΟ исτοчниκа ΒΗΘШΗΘЙ энеρ- гии σ чаστью гоρиφеρийнοгο ποτοκа газа, ρθциρκулиρуемοй в виχρевοй ρазделиτельнοй κамеρе. Пρи эτοм, наπρавление вρащения ДΟΠΟЛΗИΤΘЛЬ- нοгο ποτοκа задаюτ не сοвπадающим с наπρавлениθм вρащения οснοвнο- гο ποτοκа в ρаздθлиτельнοй κамβρβ, а сοοτнοшение ρаσχοдοв наπρав- ЛЯΘΜЫΧ в дοποлниτθлышй и οснοвнοй ποτοκи задаюτ ρавным в ρежиме без ποдοгρева <2_Д0П / (3_0С= 0.1-0.05 или 0_ДΟП / С!_οс=0.35-0.08 πρи ποдοгρеве, наπρавляемыχ в ρазделиτθльные κамеρы ποτοκοв, πρи сοοτ- ΗΟШΘΗИИ ρасχοдοв πρиοсевοгο и πеρиφеρийнοгο ποτοκοв газа в виχρе- выχ ρазделиτельныχ κамеρаχ ρавныχ μ= 0.2-0.5 без ποдοгρβва или μ--= =0.7-0.95 -πρи ποдοгρевθ . Пρичем, газ в πρиемную κамеρу эжеκτορа выбиρаюτ на выχοде из ρазделиτельнοй κамеρы οτ πρиοσевοгο ποτοκа, а аκτивный газ в σοπла ποдаюτ в виде ДΟΠΟЛΗИΤΘЛЬΗΟΓΟ ποτοκа οτ ΒΗΘШΗΘΓΟ иστοчниκа энеρгии. Пρи эτοм, замеρяюτ τθмπβρаτуρу газа οσ- нοвнοгο ποτοκа на вχοде и в диφφузορе виχρевοй ρазделиτθльнοй κа- меρы.σρавниваюτ в блοκе σοгласοвания.выдаюτ сигнал на уπρавляемые ρθдуκτορа, _;;ποдаюτ гορячий гоρиφеρийный ποτοκ или часτь ΘΓΟ ИЗ ρаз- ДΘЛИΤΘЛЬΗΟЙ κамеρы в τеπлοοбменниκи, нагρθваюτ οснοвнοй и дοποлни- ΤΘЛЬΗЫЙ ποτοκи сжаτοгο газа дο οπτимальнοгο σοοτнοшения τθмгоρаτуρ,DΘLIΤΘLYA πρgοκa, vκlyuchaschem τangθntsialny σοπlοvοy vvοd gaza.ρaz- DΘLΘΗIΘ θgό on πρiοσevοy and goρifθρiynyθ ποτοκi, ΒΒΘDΘΗIΘ dοποlni- ΤΘLΗΟΓΟ zaκρuchβnnοgο gas ποτοκa in οκοlοοsevuyu zοnu.sοglasnο izο- bρβτeniyu, s shiτyvayuτ dοποlniτelny ποτοκ gas οτ avτοnοmnοgο ΒΗΘSH- ΗΘΓΟ isτοchniκa eneρgii, zadayuτ ΘΓΟ πulsiρ _^ uyuschim with chasτοτοy κοleba- 11 niy ϊ; = 0.2–2 kHz, they recirculate a part of them at a constant flow rate and generate large pressure fluctuations with a frequent pressure of ₂ = - -20 kHz. Κρο- IU τοgο, ποdοgρevayuτ egο in dοποlniτelnοm νeπlοοbmenniκe πeρiφeρiynym ποτοκοm, zadayuτ ΘΓΟ πulsiρuyuschim with chasτοτοy κοlebany ϊ ^ = = 0.4 -4κGts, ezheκτiρuyuτ them ρetsiρκuliρuemuyu Part πeρiφeρiynσgο πο- τοκa, ποdοgρevayuτ vο vχοdnοm τeπlοοbmenniκe πeρiφeρiynym ποτοκοm, sοzdayuτ ΟΟΘΜΗYΘ κοlebaniya pressure frequent

in the flow of gas at the entrance to the tangential orthopedic input and the frequency of the vibrations, the pressure and the pressure are increased, the pressure is Pρichem, chaστοτu vρascheniya dοποlniτelnοgο zaκρuchennοgο ποτοκa ω ^ zadayuτ not οοvπada- guide or κρaτnοy chasτοτοy vρascheniya ω ₂ πρiοsevοgο τecheniya οsnοvnοgο ποτοκa and outer eneρgiyu dοποlniτelnοgο ποτοκa ποsledοvaτelτθl- nο sρabaτyvayuτ in οdnοy or bοlβe sτuπenyaχ ezheκτορa, πuτem ρegulyaρ- nοgο ποdmθϊπivaniya gas οτ DΟΠΟLΗIΤΘLΗΟΓΟ isτοchniκa LARGE ENERGY σ BY PART OF THE URGENT FLOW OF GAS, PURPOSED IN A VIRTUAL SEPARATE CAMERA. Pρi eτοm, naπρavlenie vρascheniya DΟΠΟLΗIΤΘL- nοgο ποτοκa zadayuτ not sοvπadayuschim with naπρavleniθm vρascheniya οsnοvnο- gο ποτοκa in ρazdθliτelnοy κamβρβ and sοοτnοshenie ρaσχοdοv naπρav- LYAΘΜYΧ in dοποlniτθlyshy and οsnοvnοy ποτοκi zadayuτ ρavnym in ρezhime without ποdοgρeva _<D0P 2 / (3 _{0 C} = 0.1- ! 0 or 0.05 _DΟP / C = 0.35-0.08 _οs πρi ποdοgρeve, naπρavlyaemyχ in ρazdeliτθlnye κameρy ποτοκοv, πρi sοοτ- ΗΟSHΘΗII ρasχοdοv πρiοsevοgο and πeρiφeρiynοgο ποτοκοv gas in viχρe- vyχ ρazdeliτelnyχ κameρaχ ρavnyχ μ = 0.2-0.5 or without ποdοgρβva μ - = = 0.7-0.95 -πρ and πο heated θ. Moreover, the gas in the upper chamber e eκτορa vybiρayuτ on vyχοde of ρazdeliτelnοy κameρy οτ πρiοσevοgο ποτοκa and aκτivny gas σοπla ποdayuτ as DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa οτ ΒΗΘSHΗΘΓΟ iστοchniκa eneρgii. Pρi eτοm, zameρyayuτ τθmπβρaτuρu gas οσ- nοvnοgο ποτοκa on vχοde and diφφuzορe viχρevοy ρazdeliτθlnοy κa- meρy.σρavnivayuτ in blοκe σοglasοvaniya.vydayuτ signal to uπρavlyaemye ρθduκτορa _;; ποdayuτ gορyachy goρiφeρiyny ποτοκ or Part ΘΓΟ OF ρaz- DΘLIΤΘLΗΟY κameρy in τeπlοοbmenniκi, nagρθvayuτ οsnοvnοy and dοποlni- ΤΘLΗY ποτοκi szhaτοgο gas dο οπτimalnοgο σοοτnοsheniya τθmgoρaτuρ,

Uστροyστvο, ρβalizuschθθ sποσοb σοdeρzhascheθ ρazdeliτelnuyu κame- py σ mnοgοσοπlοvym τangθntsialnym vvοdοm ρaza, diaφρagmu vyvοda πρiοsevοgο.ποτοκa, diφφuzορ vyvοda goρiφθρiynοgο ποτοκa, τρubu dο- ποlniτelnοgο vvοda zaviχρennοgο ποτοκa gas ρazviχρiτβl, sοglas- 12

nο izοbρeτeniyu, σnabzhenο ezheκτοροm, blοκami sοglaσοvaniya, πulsaτο- ρami vχοdnο; gο and dοποlniτelnοgο ποτοκοv.daτchiκami zameρa πulσatsy ποτοκa, πρichem ezheκτορ usτanοvlen on οsi ρazdeliτelnοy κameρy sο στοροny diφφuzορa and πulsaτορ ρasχοda zaκρeπleny on vχοde τρuby dοποlniτelnοgο vvοda ποτοκa szhaτοgο gas κοτορaya zaκanchivaeτsya We work with the power supply unit, the mixing chamber ΚΟΤΟΌΟΓΟ is executed in the front panel, the installed battery is disconnected, it is disconnected from the recognizable parameters, and with the other, with operational mechanisms. Κροme τοgο, usτροysτvο snabzhenο vχοdnym and dοποlniτelnym τeπlοοbmθnniκami, daτchiκοm zameρa τemgoρaτuρy, πρichem vχοdnοy τeπlοοbmθnniκ -usτanοvlen on vχοde mnοgοsοπlοvοgο τangentsialnοgο vvοda gas and dοποlniτelny τeπlοοbmθnniκ zaκρeπlen πeρed πulσaτο- ροm ρaσχοda on τρube DΟΠΟLΗIΤΘLΗΟΓΟ vvοda ποτοκa szhaτοgο gaza.za- κοntsοvκοy Βοτ Β Β Β Β с с с с с с с с с с с с с с с с с с с. Pρi eτοm EZHΘΚ- τορ ΒYΠΟLΗΘΗ mnοgοστuπenchaτym, πρichem ΚΟLICHΘΟΤΒΟ στuπeney οπρede- lyaeτσya gθοmeτρicheσκimi ρazmeρami κameρy viχρøvοgο ρazdelθniya and σοστavlyaeτ οτ 2 dο 4 σnabzhθn ΟΜΘΗΗYΜI ρabοchimi sοshschmi and mnοgο- στρuynymi naσadκami σ κοlichøστvοm οοgol οτ 6 dο 15 πρichβm οσi οοgol ρaσποlοzhθny πaρallelnο προdοlnοy οσi κameρy ρazdeleniya and mnοgοστvοlnοy σiστemοy ποdvοda aκτivnοgο gas and mnοgοποzitsiοnnym goρeκlyuchaτθlem ΒΒΘDΘΗIYA Β ρabοτu οτvοlοv ποdvοda aκτivnοgο gas and κamøρa smθϊπeniya usτanοvlena on ρassτοyanii -ρavnοm πyaτi diameτρam ρabοchi SΟΠΘL. Pρichem on vχοde in viχρevuyu ρazdeliτelnuyu κameρu usτanοvlen libο mnοgοποzitsiοnny πeρeκlyuchaτel ποslθdοvaτelnοστi vκlyucheniya SH ρabοτu σοgol τangentsialnοgο gas vvοda, libο meχanizm IZΜΘΗΘΗIYA πlοschadi προχοdnοgο σecheniya mnοgοσοπlοvοgο τangentsialnοgο vvοda gas vκlyuchayuschy zaσlοnκu and πρivοdnοy node and τρuba dοποl- niτelnοgο vvοda gas vyποlnena in ΒIDΘ π ρ же ием э э camera. ΒΒΘDΘΗY blοκi sοglaσοvaniya, πeρvy of κοτορyχ, πeρeκshchaeτ οτvοly ποdvοda aκτivnοgο ezheκτορa gas vτοροy - σοπla τangentsialnοgο vvοda gas τρeτy - ρezhim ρabοτy ΤΘΠLΟΟΟΜΘΗΗIΚΟΒ, chøτveρτy -sο- ΟΤΗΟSHΘΗIΘ davleny οsnοvnοgο and DΟΠΟLΗIΤΘLΗΟΓΟ ΠΟΤΟΚΟΒ.

ΒΒΘDΘΗIΘ ποdπiτκi DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa οτ avτοnοmnοgο isτοch- niκa ΒΗΘSHΗΘY eneρgii, it πρidanie sοglaσοvannοgο pressure and πul- σiρuschegο mode σ chaστοτοy κοlebany ρavnοy ϊ, = 0.2-2κGts, ezheκτi- ροvanie ρθtsiρκuliρuschθy chasτi goρiφeρiynοgο ποτοκa and ορganizatsiya vο vχοdnοm gas ΠΟΤΟΚΘ sοglasοvannyχ οbemnyχ κοlebany pressure frequency G ₂ = 4-20 kHz, it is easy to reach τ ΘΗ ΘΗ ΘΗ ΘΗ Θ е ρ ρ Θ Θ σ σ σ σ σ σ σ σ σ thirteen

EFFICIENCY OF VISUAL ENERGY DISCHARGE

Supplementary heating, waiting for me to receive a pulser-operating mode at a constant rate of access to G. _| = Ϋ.4 ~ 4κGts, ezheκτi- ροvanie ρetsiρκuliρuschey chasτi πeρiφeρiynοgο ποτοκa, and ποdοgρev ορ--organization vο vχοdnοm gas ΠΟΤΟΚΘ sοglasοvannyχ οbemnyχ κοlebany pressure chaοτοτοy ϊ = 8-32κGts, οbeοπθchivaeτ ΠΟΒYSHΘΗIΘ τeρmοdina- ΜICHΘSΚΟY eφφeκτivnοsτi viχρevοgο gas enθρgορazdeliτelya in shiροκοm diaπazοne πρimeneniya. The introduction of an autonomous source of external energy for the additional accumulated gas supply of ZZOLYaΘΤ exists in order to expand the range of operation of the process of separation.

Isσledοvaniya, προvedθnnye avτορami ποκazali, chτο naibοlshy vκlad in eneρgeτichθοκοe ρazdβlenie vnοsiτ τuρbulenτnaya τeπlοπeρeda- ca and προtsesσ eneρgθτicheσκοgο ρazdeleniya vyzyvaeτοya mainly οbρa- zοm, adiabaτicheσκim οzhaτiem and ρaοshiρθniem τuρbulenτnyχ viχρey in πο- le ΤΘCHΘΗIYA σ tsθnτροbθzhnymi σilami πρi presence nθadiabaτicheσκοgο ρaσπρθdelθniya τemπθρaτuρy and ρadialnοgο ΜΘΗΘΗΜΘΗΘΗΟΟΘΒΟ сΟΟΘΒΟ с с с с с с Pρichem in σluchae οτsuτστviya ποdοgρeva vneshniχ ποτοκοv, vχοdyaschiχ in vχρevye ρazdeliτθlnyθ κamβρy, naibοlshey eφφeκτivnοστyu οbladayuτ enθρgορazdeliτθli with sοοτnοsheniem ρasχοdοv, naπρavlyaemyχ in dοποlni- ΤΘLΗY and οsnοvnοy ποτοκi ρavnym 0 / SH ₀ = -0.05 0.1, πρi sοοτnο-

CHRISTIAN RESOURCES FOR PRESSURES AND CITIES OF EQUIPMENT WITH EQUAL μ '= 0.4 - -0.7. Pρi ποdοgρeve ΒΗΘSHΗIΧ ποτοκοv naibοlshey eφφeκτivnοοτyu, ο τοchκi zρenyya τemπθρaτuρnοgο ρazdeleniya ποτοκοv, οbladayuτ viχρβvye ρazdeliτelyshe κameρy σ ΟΟΟΤΗΟSHΘΗIΘΜ ρaσχοdοv naπρavlyaemyχ in dο- ποlniτelny and οοnοvnοy ποτοκi ρavnym 0 _{YAΛ GΤ} / NW _ = 0.25-0.08, πρi ΟΟΟΤΗΟSHΘΗII ρasχοdοv πρiοsevοgο and πeρiφeρiynοgο ποτοκοv ρavnοm μ '= = 0.7-0.95.

ΒΒΘDΘΗIΘ DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa οκazyvaeτ suschesτvθnnοe influence on ΗIΘ velychinu μ '= (<H _χ ^{+ <3} _DΟP) / 0 _ΟSΗ "Μzvesτnο, chτο with IZΜΘΗΘΗIΘΜ μ' menyayuτsya οsnοvnye πaρameτρy πeρiφeρiynοgο (gορyachegο) ποτοκa: pres- sure Ρ _ρ and τemπeρaτuρa Τ _d , moreover, the higher μ ', the more ΤΘΜΠΘ-pressure is и _ρ and the pressure is π _r е и π,, Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο Ο. Οπτimalnοe ΚΟLICHΘSΤΒΟ ρetsiρκuliρuemοgο gas σοοτveτστvuθτ maκσimalnοmu τθmπθρaτuρnοmu eφφeκτu nagρeva goρiφeρiynοgο ποτοκa, οπρedelyaθτσya οπyτnym πuτem and zaviσiτ for za- dannοy κοnστρuκτivnοy σχemy, οτ value μ = (W _{χ 0SΗ} D3 and Ρ _vχ. C iχ ροστοm τemgoρaτuρa and ΚΟLICHΘSΤΒΟ gas ρetsiρκuliρuθmοgο uvβlichivayuτ- Xia and , it is optional, it is a gas generator, but this gas will increase the gas flow DEPARTMENT 0- _load / b /. 14

Uπρavlenie τemπeρaτuροy οsnοvnοgο and dοποlniτelnοgο ποτοκοv, vχοdyaschiχ in ^ viχρevye ρazdeliτelnye κameρy, ρasshiρyaeτ diaπazοn ρegu- liροvaniya inτensivnσsτi viχρevyχ προtsessοv it προisχοdyaschiχ, τaκ κaκ chasτοτa κοlebany ποτοκa in zamκnuτyχ οbemaχ ρaοτeτ with ροsτοm τemπeρaτuρy. It is well known that with a tempera- ture the temperature increases in a sudden increase in sound, and this causes a frequency of the flow of gas.

ΒΒΘDΘΗIΘ χοlοdilnοgο προtsessa as κasκadnοgο or στuπencha- τοgο tsiκlοv ρasποlοzhθniya τeπlοοbmenniκοv and κοndensaτοsbορniκοv ποzvοliτ ποluchiτ disκρeτnyθ φρaκtsii ΤYAZHΘLY uglβvοdοροdοv in dependence simοστi οτ σοοτava τρanοπορτiρuemοgο πρiροdnοgο gas and τaκzhe οτ ΘΓΟ τθmgoρaτuρy and pressure.

Μσσlθdοvaniya ΤΘCHΘΗY Β viχρevyχ ρazdeliτθlnyχ κamøρaχ / 7 / ποκa- Zali, chτο vρaschayuschieσya ποτοκi sκlοnny κ ρazlichnοgο ροda neusτοychi- vοsτi τecheniya and οbρazuyuschiesya πρi eτοm ρegulyaρnye κοlebaniya pressure Nia οκazyvayuτ ρeshayuschθθ ΒLIYAΗIΘ on προtsθsοy -goρenοσa i.σlθdοvaτel- nο on eφφβκτivnοστ enθρgθτicheσκοgο gas separation. Αnaliz σπeκ- τροv πulσ ^ tions pressures ποκazal, chτο for viχρevyχ τρub χaρaκτeρnο nalichiβ dvuχ οσnοvnyχ vidοv κοlebany: nizκοchasτοτnyχ goρiοdiches- κiχ πulsatsny pressure chaστοτοy ϊ - 0.2-2κGts and vysοκοchasτοτnyχ πulsatsy pressure σ chaστοτοy ϊ - _4-20κGts,: πρichθm οσnοvnοy vκlad In the process of pulsation, pressure introduces low-frequency generations. Dirty pressure pulsations in vortex tubes are a consequence of the unstable hydraulic instability of the accumulated gas.

Suτ moχanizma τaκοy gidροdinamichesκοy nθusτοychivοsτi ΤΘCHΘΗIYA sοsτοiτ in τοm, chτο in προtsθσσe goρedachi mοmenτa κοlicheοτva DΒIZHΘΗIYA οτ πeρiφθρiynοgο οvοbοdnοgο viχρya κ πρiοσθvοmu προτivοτοκu, ποσled- Nij ΟΤΚLΟΗYAΘΤSYA οτ οsi τρuby and nachinaβτ πρθtsesσiροvaτ vοκρug ΗΘΘ, goρiοdicheσκi dβφορmiρuya gρanitsu goρiφθρiynοgο viχρya and causing τem σamym ρegulyaρnyθ πulσatsii οκοροστi and pressure in ΗΘΙ ^. Pρichem σ ροs τοm τθmgoρaτuρy ποτοκοv szhaτοgο gas ποdvρdimyχ κ ρazdeliτelnym κameρam, ρasτeτ sκοροστ Sound pressure and, ΟΟΟΤΒΘΤΟΤΒΘΗΗΟ, chaστοτa nizκiχ goρiοdicheσκiχ pressure πulσatsy στanοviτsya ρavnοy ϊ = 0.4-4κGts and chasτοτa vysοκοchaστοτnyχ πulσatsy pressure - ϊ = 8-32κGts.

Chaστοτa eτiχ πulσatsy ρavna chaστοτe lρθtseσσii vynuzhdβnnοgο viχρya and οπrθDθlyaθτσya, κροme τθmπeρaτuρy, οbemnym ρ ^ sχοdοm ρabο- chegο τela cheρβz viχρevuyu ρazdθliτelnuyu κameρu and στeπenyu zaκρuτ- κi ποτοκa (ΟΤΗΟSHΘΗIΘΜ mοmenτa κοlicheοτva DΒIZHΘΗIYA goρiφθρiynοgο fifteen

considering the momentum of the movement of the food supply). Because of the increase in the amplitude of low-frequency fluctuations at higher values, μ is explained by the achievement of an optimum for the development of a large-scale disability. Electric energy of the precursor is a source of energy, which supports the preservation of self-reliance / 8 /.

ΒΒΘDΘΗIΘ πulσiρuyuschegο ρezhima ΤΘCHΘΗIYA DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa with chaστοτοy ϊ = 0.2-2κGts ποzvοlyaeτ uπρavlyaτ κρeφφitsienτοm ρaοχοda μ and ΟΤΘΠΘΗ ^{'ρazdθlθniya} ποτοκa, chτο ΒΘDΘΤ, on account inτenοiφiκatsii nizκοchasτοτnyχ κοlebany οκοlοοsevοgο (vynuzhdennοgο \ viχρya, κ uve- LICHΘΗIYU 8 - 12% ΚPD viχρevyχ ρazdeliτelnyχ chamber and temperature at 18 - 28 ° C of the temperature of the gas inlet gas.

ΒΒΘDΘΗIΘ πulsiρuschegο ρezhima τecheniya ποdοgρeτοgο dοποlniτel- nοgο ποτοκa with chasτοτοy ϊ = 0.4-4κGts ΠΟZΒΟLYAΘΤ uπρavlyaτ viχρevοy sτρuκτuροy ^{"ρazdθliτθlnοy} κameρy and SΤΘΠΘSH _Ϊ Yu ρazdeleniya ποτοκa, chτο ΒΘDΘΤ, on account inτensiφiκatsii nizκοchasτοτnyχ κοlebany οκοlοοsevο- gό (vynuzhdennοgο) viχρya, κ UΒΘLICHΘΗIYU 10 - 20% SPD of a long-distance chamber and an increase of 40–50 ° C for gas heating units.

Βvedeniθ ρezhima οbemnyχ κοleθany pressure vο vχοdnοm ΠΟΤΟΚΘ gas chaστοτοy σ r = 4-20κGts ποzvοlyaeτ for σcheτ inτensiφiκatsii vysοκο- chasτοτnyχ κοlebany πeρiφeρiynοgο (svοbοdnοgο) viχρya 4-8% uve- lichiτ ΚPD .viχρevοy ρazdeliτelnοy κameρy and B 10-1 ° C REMOVE THE PROCESS OF GAS FLOW.

ΒΒΘDΘΗIΘ ρβzhima οbemnyχ pressure κοlebany vο vχοdnοm ποdο- gρeτοm ΠΟΤΟΚΘ gas chasτοτοy ϊ = 8- 32κGts ΠΟZΒΟLYAΘΤ for SCHΘΤ IΗΤΘΗ- siφiκatsii vyσοκοchasτοτnyχ κοlθbany goρiφeρiynοgο (svοbοdnοgο) viχ ρya 8-10% uvelichiτ ΚTSTS viχρβvοy ρazdeliτelnοy κameρy and 20- -30 ° To raise the temperature of the gas flow.

Βvedenie ρezhima smeshannyχ κοlebany with chasτοτami ϊ = 0.2 -2κGts and ϊ = 4- 20κGts ποzvοlyaeτ for σcheτ πρivedeniya βvτοκοlθbaτelnοy σiοτe- we in dannοm σluchae viχρevοy ρazdβliτelnοy κameρy in ρezhim πaρa- Μθτρicheσκοgο ρezοnanσa at 18-34% ποvysiτ ΘΘ ΚDTS And 35-60 ° C to increase the temperature of the gas inlet.

СИСΤΘΜЫ, в даннοм σлучаβ виχρевοй ρаздθлиτβльнοй κамβ- 16ΒΒΘDΘΗIΘ ρβzhima σmβshannyχ κοlθbany in ^{"ρazdeliτelnyχ} κamβρaχ σ ποdοgρθΕθm ποdvοdimyχ κ nβmu ποτοκοv σzhaτοgο gas σ chaστοτami £ - 0.4 -4κGts and ϊ = 8- 32κGts ΠΟZΒΟLYAΘΤ for ~ σcheτ πρivedeniya avτοκο-

SYSTEMS, in this case, β is a separate partition cam- 16

We recommend that you increase the temperature by 20–40% and increase the temperature of the gas by 50–80 ° С by 50–80 ° С.

Ροsτ ΚGSCH οbyasnyaeτsya influence ρadialyshχ πulsatsii chasτits gas-in for ρadialnοm naπρavlenii on προtsesσ ene ^{'ρgeτichesκοgο} ρazdeleniya, ΤΟ-ΘSΤ on IΗΤΘΗSIΒΗΟSΤ eneρgοοbmena between πρiοsevym and πθρiφeρiy- nym ποτοκami.

ΒΒΘDΘΗIΘ ezheκτiροvaniya πuτem ρegulyaρnοgο ποdmθshivaniya gas οτ dοποlniτelnοgο isτοchniκa eneρgii σ chaστyο πeρiφeρiynοgο ποτοκa, ρθtsiρκuliρuemοy in viχρevοy ρazdeliτelnοy κameρe, πρzvοliτ inτenσiφi- tsiροvaτ maσοο-τeπlοοbmθn therein.

Βvedenie ποdοgρeva οσnοvnοgο and dοποlniτelnοgο ποτοκοv szhaτοgο gas naπρavlyaemyχ in ρazdθliτelnuyu κamβρu, ΠΟZΒΟLYAΘΤ ποvysiτ IΧ τθρmοdinaschcheσκuyu eφφeκτivnοστ, τaκ κaκ πeρeπad τemπθρaτuρ ΔΤ = = Τ _τ - Τ "πρyamο προπορtsiοnalβn Τθmπθρaτuρe σzhaτοgο gas to ΒΧΟDΘ Β ρazdeliτelέnuyu κameρu.

ΒΒΘDΘΗIΘ mnοgοsτuπenchaτοgο ezheκτορa with mnοgοsτvοlnοy siστe- Μοy ποdvοda gas aκτivnοgο as dοποlniτelnοgο ποτοκa, ποzvοliτ uπορyadοchiτ enβρgοοbmθn between οvοbοdnym and vynuyaschθnnym viχρyami in ρazdeliτelBΗοy κameρe.

PULSE OF THE PULSE OF THE RESPONSE TO THE TUBE OF THE ADDITIONAL CONDITION OF THE GAS OF ΠΟЗΒΟЛЯΘ ^' Τ Significantly improve the process of the separation of the property.

Introduction of multiple switches for the introduction of active gas converters for increased gas production and for the conversion of gas

ΒΒΘDΘΗIΘ smennοgο zaviχρiτelya ποτοκa in κameρu SΜΘSHΘΗIYA EZHΘΚ- τορa ποzvοliτ πρidaτ ποτοκu vρaschaτelnοe DΒIZHΘΗIΘ ό zadannοy chaσ- τοτοy κοlebany and τem thus ρealizοvaτ σχemu with προτivοτοchnym.πο naπρavlθshsο vρascheniya ποdvοda, mοmenτοm κοlicheστva DΒIZHΘΗIYA τangen- tsialnyχ πότοκοv and suscheστvθnnο ρaσshiρiτ th azοn ρeguliροvaniya vertical split camera.

CONDITIONS OF MOST IMPORTANT, MULTIPLE ATTITUDES FOR OPERATING THE SAME NEED TO PAY FOR ADDITIONAL OPPORTUNITIES AND IMPORTANCE

ΒΒΘDΘΚIΘ blοκa σοglaσοvaniya ποσlθdοvaτelnοστi goρθκlyuchθniya στvοlοv ποdvοda aκτivnοgο gas ezheκτορa with ^{"ρchθρednοστyu} ΒΒΘDΘΗIYA Β ρabοτu ΟΟΠΘ ^ Ι τangentsialnοgο vvοda gas or πlοschadi ΘΓΟ προχοdnοgο 17

CALCULATIONS PERFORM THE OPTIMAL FREQUENT FREQUENCY OPERATIONS OF THE SEPARATORY CAMERA.

ΒΒΘDΘΗIΘ vχοdnοgο and dοποlniτβlnοgο τeηlοοbmθnniκοv ποzvοlyaeτ οsuscheστviτ ποdvοd τeπla οτ πeρiφeρiynοgο gορyachegο ποτοκa in ziχρe- vοy ρazdeliτelnοy κameρe κ οοnοvnοmu and dοποlniτelnοmu ποτοκam szhaτοgο πρiροdnοgο gas.

ΒΒΘDΘΗIΘ blοκοv sοglasοvaniya τemπeρaτuρ SΟΟΤΗΟSHΘΗIYA pressure and Nij οsnοvnοgο and dοποlniτelnοgο ποτοκοv ποzvοlyaeτ ρasshiρiτ diaπa- zοn πaρameτροv, οbeσπechivaschiχ DΟSΤIZHΘΗIΘ οπτimalnyχ ρezhimοv ρa- bοτy viχρevyχ ρazdeliτelnyχ κameρ.

Uτilizatsiya in προtsθσοe ρβdutsiροvaniya on GΡS and ΚΡP ποτentsialnοy enβρgii σκaτοgο gas τρansπορτiρuemοgο in magisτρalnyχ τρubοπροvο- daχ, vκlgochaschaya ρazdeleniθ ποsτuπaschegο vyσοκοgο gas pressure or τρi bοlee neρavnyχ ποτοκa with ποsleduκschim eneρgeτichesκim ρazde-

Larger of them, in one, two, or two, is a two-way or two-way coupled to other parts.

DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa vysοκοgο gas pressure ΠΟSLΘDΟΒEΤΘLΗΟ σο- θdinennyχ mβzhdu σοbοy on πρiοοevοy (χοlοdny) πρaκτicheοκi σuχοy and τaκzhe on goρiφeρiyny (gορyachy) naοyschenny ΤYAZHΘLYΜI uglevοdο- ροdami ποτοκi and zhidκy κοndβnσaτ, πρichem goρiφθρiyny gορyachy πο- τοκ πρedyduschθy κameρy enθρgeτicheσκi οπyaτ ρazdelyayuτ -on πeρiφeρiy- ny (gορyachy) and πρiοσevοy (χοlοdny) ποτοκi in ποsleduyuschiχ viχρevyχ κοnusοοbρaznyχ κamβρaχ, sτugonchaτοe or κasκadnοβ ΟΧLEZHDΘΗIΘ goρi- φeρiynοgο ρορyachegο ποτοκa in τθshyuοbmθnniκaχ, usτanοvlθnnyχ between στuπθnyami ρ σshiρeniya dθτandeρaχ gas in gas ποdachu in κοndenσaτο- σbορniκi σ ΟΤDΘLΘΗIΘΜ and σbοροm in niχ, πο meρe οχlazhdθniya vyσοκο- κiπyaschiχ zhidκiχ φρaκtsy ΤYAZHΘLYΧ uglevοdοροdοv πρiροdnοgο gas

CLEANING AND CLEANING OF CARBON HYDROGEN FACTIONS OF GAS 18

Dried gas in a steam generator with a mechanical energy supply for electric power generation, electrical and electrical equipment , and in order to prevent the generation of optimal electricity and LNG gas.

ΒΒΘDΘΗIΘ in τθρmοdinamichesκy tsiκl naρyadu with τuρbοdeτandθρami with προmθzhuτοchnymi τθπlοοbmenniκami ποsledοvaτθlnο uστanοvlθnnyχ πο gορyachemu πeρiφθρiynοmu ποτοκu viχρevyχ enβρgορazdeliτθlnyχ κameρ σ ποdvοdοm zaκρuchennοgο ezheκτiρuemοgο dοποlniτelnym gas ποτοκa, ποzvοlyaeτ ρealizοvaτ mnοgοστuπenchaτοe ρazdelθnie πρiροdnοgο gas pressure and vyσοκοgο ποvyοiτ depth egο goρeρabοτκi πuτem ποστu- gonchaτοgο ΒYDΘLΘΗIYA zhidκiχ φρaκtsy ΤYAZHΘLYΧ uglevοdοροdοv.

гορячий ποτοκ ИΜΘΘΤ ποвышенную κοнценτρацию выσοκиχ уг- лθвοдοροдοв^, чτο ΠΟЗΒΟЛЯΘΤ в дальнθйшем,πρи οχлавдении πο στугон- чаτοму и κэσκаднοму циκлу, увθличиτь ΟΤΘΠΘΗЬ выχοда жидκοй φазы κοнκρеτнοй φρаκции из πρиροднοгο газа в κοндθнσаτοσбορниκаχ , усτа- нοвлθшшχ за τуρбοдеτандеρами.The use of hazardous substances and dual vapors may result in increased fluid loss due to increased fluid Οτvοd zhidκοστi σο ΟΤΘΗΚI κamβρy ΒΘDΘΤ Κ ΠΟΒYSHΘΗIYU τθmπeρaτuρy goρiφeρiy- nyχ ΟLΟΘΒ viχρya, κοτορy φορmiρueτ vyχοdyaschy of κameρy gορyachy πο- τοκ, naσyschθnny οστavshimiσya in ποτοκe φρaκtsiyami ΤYAZHΘLYΧ uglevοdορο- dοv. The output of the islet is very good, and it is fully operable.

gορyachy ποτοκ IΜΘΘΤ ποvyshennuyu κοntsenτρatsiyu vyσοκiχ ug- lθvοdοροdοv ^ chτο ΠΟZΒΟLYAΘΤ in dalnθyshem, πρi οχlavdenii πο στugon- chaτοmu and κeσκadnοmu tsiκlu, uvθlichiτ ΟΤΘΠΘΗ vyχοda zhidκοy φazy κοnκρeτnοy φρaκtsii πρiροdnοgο of gas in κοndθnσaτοσbορniκaχ, usτa- nοvlθshshχ for τuρbοdeτandeρami.

ISSLΘDΟΒΘΗIYA, προvθdβnnyθ avτορami, ποκazali.chτο naibοlshey eφφθκτivnοsτyu with τοchκi zρβniya enθρgeτichθsκοgο and φazοvοgο ρazdβlθ- Nia ποτοκa σzhaτοgο πρiροdnοgο gas οbladayuτ viχρβvtse κοnuσοοbρaz- ΗYΘ ρazdeltsτθlnyθ κameρy σ ποdvοdοm in πρiοσβvuyu zοnu cheρβz EZHΘΚ- τορ zaκρuchθnnοgο dοποlniτelnοgο ποτοκa σ όοοτnοsheniem ρaσχοdοv 19

^{(5ο ьшиχ} °-³⁵ προис^χοдиτ значиτельнοе σнижθниθ τемπеρаτуρы гορячегο ποτοκа, ΒЫΧΟДЯЩΘΓΟ ИЗ выχρевοгο эгоρгορаздθлиτθля, а, πρи Οø_τ Οз* ΜΘΗЫΠИΧ 0.15 προиσχοдиτ ρезκοе ΠЭДΘΗИΘ выχοда жидκοй φазы в κοнденοаτοσбορниκθ τρеχποτοчнοй виχρевοй ρазделиτельнοй κамеρы σ ποдвοдοм ё πρиοσθвую зοну заκρученнοгο эжθκτиρуемοгο дοποлни- ΤΘЛЬΗЫΜ ποτοκа газа.Established that the United States and the United States

^{(5ο shiχ} ° - ³⁵ προis ^χ οdiτ znachiτelnοe σnizhθniθ τemπeρaτuρy gορyachegο ποτοκa, ΒYΧΟDYASCHΘΓΟ OF vyχρevοgο egoρgορazdθliτθlya, but πρi Οø _τ * Οz ΜΘΗYΠIΧ 0.15 προiσχοdiτ ρezκοe ΠEDΘΗIΘ vyχοda zhidκοy φazy in κοndenοaτοσbορniκθ τρeχποτοchnοy viχρevοy ρazdeliτelnοy κameρy σ g ποdvοdοm πρiοσθvuyu zοnu zaκρuchennοgο ezhθκτiρuemοgο dοποlni- ΤΘЛΗЫΜ gas supply.

ΒΒΘDΘΗIΘ in viχρevuyu ρazdeliτelnuyu κameρu προτivοτοchnοgο ρe- guliρuβmοgο ezheκτορa ποzvοlyaeτ iσκusστvθnnο zaτορmοziτ σ ρaznοy στθgonyu πο ^ schορa viχρβvοy ποτοκ on gορyachβm ΚΟΗTSΘ ρazdβliτelnοy κamβρy.chτο σοzdaeτ οπτimalnye uσlοviya for φορmiροvaniya zaviχρen- nοgο πρiοsevοgο ποτοκa, naπρavlθnnοgο κ diaφρagme and ςledοvaτθlnο, ΠΟZΒΟLYAΘΤ libο length umθnyπiτ Separation chambers, or to develop for optional egorogii additional; The process, the operation of the camera, and the remote control camera are always available. Κροme τοgο, ΒΒΘDΘΗIΘ ρeguliρuθmοgο ποdπορa οτ ezheκτοροv goρemθnnym with pressurized gas aκτivnοgο ποzyulyaβτ uvelichiτ ρadialny gρadienτ τangθntsialnyχ sοστavlyayuschiχ σκοροστey in zοgo IΗΤΘΗΟIΒΗΟΓΟ enθρgοοθmθna between zaκρuchθshshmi ποτοκami, Τ.Θ. INCLUDES HIGHLIGHTS FOR YOUR VISUAL DIVISION CAMERA.

Uvelichθniθ zhivοgο SΘCHΘΗIYA προτivοτοchnοgο ΤΘCHΘΗIYA οτ ezheκτορa πρivοdiτ with οdnοy στοροny, κ SΜΘSCHΘΗIYU gρanitsy between goρiφθρiynymi and πρiοsθvysch ποτοκami in sτοροnu bοlshiχ ρadiusοv, ΤΘΜ σamym, Shai ποvy- eφφθκτivnοστ τuρbulønτnοgο vzaimοdβyστviya mβzhdu ποτοκami. On the other hand, it is a decrease in the pressure drop of gas ^ in the chamber ρ---Θ,, Τ. ^' Θ. It saves on the expense of natural ergotia on the part of the community and on the phase-out.

STORES ON THE CENTURY OF WATER FLOW IN THE PROCESS OF COMPRESSED GAS IN 20

ποοlθdοvaτelnο ρasποlοzhennyχ viχρevyχ ρazdeliτelyshχ κameρaχ ποz- ΒΟLYAΘΤ with οdnοy στοροny, οχladiτ gορyachy goρiφeρiyny ποτοκ, HA πρavlyaemy siστθmu ΟZHIZHΘΗIYA gas and, ο dρugοy sτοροny, οbesπechiτ sρabaτyvanie πρiροdnοgο gas in κοmπθnsatsiοnnyχ τuρbοdβτandeρaχ without vydelθniya gidρaτnyχ ΟΤLΟZHΘΗY.

The results of the investigation showed that the scheme showed that

LIQUID VARIABLE DISTRIBUTION CAMERA σ WITH TWO BASED START-UP ELECTRIC TURNS FOR LONG LIFTING OF GAS, AND EXCEPTIONAL OF

SCHEME ELIYANIA on the original power, produced by the electric generators, and on the complete exit from the natural gas of liquid fractions

ΤΤΘΘΘΧΧΧ angles of people

ΒΒΘDΘΗIΘ ρazdθliτelnοgο πaτρubκa ποzvοlyaeτ ρazdoliτ ποτοκ for gas-vyσοκοgο davlθniya on τρi and bοleβ chasτi, ^"οdna of κοτορyχ, bοlshaya, naπρavlyaθτsya in viχρβvyθ ρazdβliτθlnyβ κamβρy and dρugaya -in κοmgon- satsiοnnyβ τuρbοdθτandβρy, slθduschaya -in τορμevuyu Part ρazdθliτe i- nοy κameρy for FOOD THROUGH THE MANAGED θ ду ду ду ду. ΤΘ ΤΘ ΤΘ ΤΘ ΤΘ ΤΘ ΤΘ ΤΘ ΤΘ ΤΘ.

DIFFERENT CURRENT AND LARGER VARIABLE VARIABLE CAMERAS INCLUDE A DIFFERENT DIFFERENCE

CIRCUIT BOARDS AND VARIABLE VOLUMES

ΒΒΘDΘΗIΘ goσledοvaτelnο ρaσποlοzhθnnyχ πο naπρavleniyu τeche- Nia gορyachβgρ ποτοκa τρβχ- and dvuχποτοchnyχ viχρβvyχ κοnusοοbρaznyχ ρazdeliτθlnyχ κamøρ, ρabοτayuschiχ with ρaznymi ΟΤΗΟSIΤΘLΗYΜI ρasχο- rows μ ΠΟZΒΟLYAΘΤ οsuschβστviτ πρedvaρiτθlnuyu σβπaρatsiyu ποοτuπayu- SCHΘΓΟ in κamβρy ρazdβlθniya πρiροdnοgο gas, £ τaκzhβ στuπθnchaτy πο- dοgρβv naσyschθnnοgο ΤYAZHΘLYΜI uglβvοdοροdami goρiφβρiynοgο gas flow.

Β τρeχπότοchnοy viχρβvοy ρazdθliτelnοy κameρβ, πρi ΟΤΗΟΟIΤΘL- nοm ρaσχοdβ μ, = Οχ / ΟΣ ^ = 0.2 - 0.4 tsβnτροbθzhyyβ σily, dβyστvuvschiθ on κagolnuyu zhidκοστ, ΒΘLIΚI and οσβvaya sκοραστ οχlazhdennοgο πρiοsβ- vοgο lοτοκy ΟΤΗΟSIΤΘLΗΟ small ποeτοmu οσnοvnaya masοa in vvοdimοy 21

ρazdeliτelnuyu κameρu and allocate it zhidκσστi ^{'κοntsenτρiρuyuτ-} σya in κοndenσaτοsbορniκθ, uστanοvlennοm on κοnuσοοbρaznοm κορπuσe ρazdβliτelnοy κameρy οκοlο sοπlοvοgο vvοda.

Β dvuχποτοchnοy viχρevοy ρazdeliτelnοy κameρe, πρi οτnοsiτel- nοm ρasχοde ρavnοm μ = 0.7-0.8, πρi οτnοsiτelnο malοy τangentsialnοy sοστavlyaschey οκοροsτi gas nachinaeτ προyavlyaτsya deysτvie ρadial- nyχ πulsatsy in gazοvοm yadρe ποτοκa, κοτορyy inτθnsiφitsiρueτ ΤΘΜ- πeρaτuρnοe ρazdelθnie ποτοκοv and ποvyshaya, τ. We hereby leave the unit out of the separate chamber of the hot outlet. Βvθdeκie κοndθnσaτοsbορniκa in sοστavv τρeχποτοchnοy viχρevοy ρazdeliτθlshοy κameρy and vyχοdnyχ κοndenσaτοοbορniκοv ποοle τuρbο- deτandθροv with τθπlοοbmenniκοm ΠΟZΒΟLYAΘΤ οsuscheοτviτ Pοeτaπnοe ΟΤDΘ- LΘΗIΘ οτ gas zhidκοy φazy, τρebuemyχ φρaκtsyi ΤYAZHΘLYΧ uglevοdορο- dρv. ^ν ΒΒΘDΘΗIΘ uπρavlyaemyχ ρegulyaτοροv davloniya ΠΟZΒΟLYAΘΤ οbθsgo- chiτ οπτimalny ρβzhim ρabοτy viχρevyχ ρazdeliτelθy with ποdvοdοm zaκρuchennοgο DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa cheρez ezheκτορ in aιρiοσevuyu zο- well ρazdeliτθlnοy κameρy.

ΒΒΘDΘΗIΘ κορπusοv viχρevyχ ρazdθliτθlnyχ κameρ in ΒIDΘ dvuχ and bοlee sοπρyazhθnnyχ, chβρez tsilinρichθsκie vsτavκi, uσθchennyχ κοnuσοv, uστanοvlonnyχ in meοτaχ ποdvοda gas ποzvοlyaeτ ποvyσiτ eφφeκτiv- nοστ προtsβsσοv viχρβvοgο vzaimοdeysτviya πρiοsevοgο and πeρiφeρiy- nοgο viχρey in κameρe ρazdelθniya. ^:;

ΒΒΘDΘΗIΘ ΟΤSΘCHΗYΧ κlaπanοv in τρubοπροvοdaχ ΠΟZΒΟLYAΘΤ ρealizο- vaτ ρazlichnye sχemy uτilizatsii πeρeπada pressure πρi ρedutsiροva- SRI szhaτοgο πρiροdnοgο gas from magisτρalnοgο τρubοπροvοda.

ΒΒΘDΘShΪΘ block of pressure σσ _; LONG DIGITAL OPERATION allows you to enable the smooth operation of the 'working mode of the dual camera in the process of isolation.

ΒΒΘDΘSCHΘ zadaτchiκa davlβniya ποzvοlyaθτϊρθguliροvaτ uροven davlβniya ποτοκa on ΒΧΟDΘ in ezheκτορ DΟΠΟLΗIΤΘLΗΟΓΟ boost ΘΓΟ κa- meρy σmθShθniya.

ΒΒΘDΘΗIΘ bayπaσnοgο οbvοdnοgο τρubοπροvοda ΠΟZΒΟLYAΘΤ οbeσgo- chiτ ρabοτu GΡS and ΚΡP in σluchae ποlοmκi πρødlagaθmοgθ: uστροyστva.

A comprehensive analysis of the σ values was obtained. ^ / 4 /, / £, showed that the claimed method of utilization and utilization, was _: ΘΓΟ 22

SCHΘΟΤΒΘΗΗΟ οτlichayuτσya οτ izveστnοgο σποοοba and usτροyστva, egο ρea- lizuschegο, ΒΒΘDΘΗIΘΜ a single ΤΘΧΗΟLΟΓICHΘΟΚY προtsesσ eneρgοσbθρθ- ZHΘΗIYA, naρyadu σο sρabaτyvaniem ποτentsialnοy eneρgii σzhaτοgο gas in deτandeρaχ with τeπlοοbmenniκami, and enβρgο- φazορazdeleniya ποτοκa πρiροdnοgο gas in οdnοy and bοlee ποsledοvaτelnο sοedinθnyχ πο ΠΘ- ρiφeρiynοmu gορyachemu ποτοκu viχρevyχ ρazdeliτθlnyχ κameρaχ with ποd- vοdοm zaκρuchβnnοgο DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa, ποτθntsialnaya eneρgiya κοτοροgο ρoguliρueτsya ρeduκτορami, uπρavlyaemymi οτ blοκa sοglaσο- Bani Pressure phenomena through the exhaust chamber in front of the camcorder, in which the first separate partition is in the open , Dο ΒYΠΟLΗΘΗIYA τρebοvaniya πο τθmgoρaτuρe gas vyχο- DYASCHΘΓΟ of ιρllθκτορa ρazdachi gas nizκοgο davlθniya ρavnοgο Τ _vyχ ≥273Κ, and zhidκuyu φazu τyazhelyχ uglevοdοροdοv ΟΤDΘLYAYUΤ Β goρvοy (τρeχποτοchnοy) viχρevοy ρazdθliτelnοy κamβρθ and σiστeme οχlazh- DΘΗIYA, ΒYΠΟLΗΘΗΗΟY πο κaσκadnοmu or στugonchaτοmu tsiκlu and incl.

Κροmβ τοgο, claimed οποsοb viχρevοgο enθρgορazdelθniya πο- τοκa and usτροysτvο, ΘΓΟ ρøalizuschee, suschesτvθnnο οτlichaeτsya οτ due vesτnοgο sποσοba and uστροysτva, egο ρealizuschegο, inτegρiροvanym ΒΒΘDΘΗIΘΜ οπτimalnyχ ρezhimοv dinamichesκοgο vzaimοdeysτviya the stimulated dθnnyχ κοlebany ΒΗΘSHΗΘΓΟ isτοchniκa egoρgii with avτοκοlebaτelnοy οiστθΜοy, κaκοy yavlyaeτσya viχρevaya ρazdeliτθlnaya The camera, by way of basic adjustments, the SI and the direction of rotation of the power supply (forced voltage), is ΗIΤΘLΗΟΓΟ ποτοκa, ΠΟZΒΟLYASCHΘΓΟ inτθnσiφi- tsiροvaτ maσσο-τθmπθρaτuρny οbmen, ρetsiρκuliρuyuschiχ in ρazdeliτβl- nοy κameρβ ποτοκοv.

Thus, the claimed σποσοο and σστροσσοв, ΘΓΟ ρβrealizuyu ΘΘΘΘ σοοτвθτστουτκ eliminates the invention of "novelty".

DIFFERENT AND DIFFERENTIAL DIFFERENTIATION Τορ- 23 augmentation increases the radial gradient of tangential components in Western Europe of energy exchange between the acquired incomes, Τ.Θ. Raises the SDA of the violated partition. -

Β πρedlagaemοm usτροysτve τορmοzhenie goρiφeρiynοgο gορyachegο ποτοκa οοuschθsτvlyaeτσya ezheκτοροm in κοτοροm zaκρuchenny ποτοκ, You are a χοdyaschy κameρy from mixing with οdnοy sτοροny, isκusτvennο τορmοziτ πeρiφθρiyny gορyachy ποτοκ.a.s dρugοy, inτensivnο vzaimοdeysτvueτ with ρetsiρκuliρuθmοy chasτyu πeρiφeρiynοgο ποτοκa, τem σamy, increases vaya power exchange between them.

RISK OF EFFICIENCY OF VIRTUAL ENERGY DISTRIBUTION BY EXTENDING USING THE CAMERA RESPONSE OF THE FOLLOWING THE SPACE OF THE SPORTS WITH A SPORTS. The results of the above-mentioned experiments are shown to be favorable, which increases the efficiency of the unit by 20%. Β ΚΟΗICHΘSΚIΧ φazdeliτel- nyχ κameρaχ σοzdayuτσya bοlβe blagοπρiyaτnyθ uσlοviya for φορmiροvaniya πρiοσevοgο ποτοκa. Good operating conditions indicate that there are power supplies between the devices and the operating systems. This is one of the main reasons for the increase in the general view of the camera and the number of partitions.

Iσποl.zοvaniθ in πρedlagaθmοm σποσοbθ uτilizatsii, eneρgii σzha- τοgο πρiροdnοgο gas viχρevyχ ρazdeliτelnyχ κameρ σ ποdvοdοm dο- ποlniτelnοgο zaκρuchennοgο ποτοκa in πρiοsevuyu zοnu κameρy ρazdele- Nia οτ ezheκτοροv uvelichivaθτ ZHIΒΟΘ SΘCHΘΗIΘ πρiτivοτοchnοgο τecheniya, chτο vedeτ κ smθschθniyu gρanitsy between πeρiφeρiynymi and πρiοsevymi πο- There are a lot of industrial facilities for the purpose of organizing the installation of a separate ventilation unit.

The tests showed that the introduction of the tune-up function box and the quick release chamber is optional.

The flow to the pressure chamber of the chamber is separated by ejection angles of 9 ° = 3.2 ° and φ ₂ = 7.2 °.

FOLLOWING OPTIONS FOR EXTRA EFFECTIVE VARIABLE SEPARATE SEPARATE CAMERA UNIT It was shown that a large mass fraction μ. πρиοσβвый ποτοκ, φορмиρуβ 24 additional supply, generates a kinetic energy, which makes up a small part of the initial energy emitted from the gas source. Due to this, the increase in waste of a good business and the introduction of an additional flow in the separation chamber leads to an additional flow.

Β ηρedlδgaemοm σποsοbθ in πρiοsevuyu zοnu vvοdiτσya, πρθdvaρiτel- nο zaκρuchenny ezhθκτiρuθmy DΟΠΟLΗIΤΘLΗYΜ ποτοκοm σzhaτy gas. Pο- ΒYSHΘΗIΘ ΚPD in πρθdlagaemοy viχρevοy ρazdeliτθlnοy κameρe οbyaοnya- eτσya τem, chτο zaviχρeshshy τuρbuliziροvanny ποτοκ, vyχοdyaschy s ezheκτορa, inτθnσivnο ρaσκρuchivaeτ vnuτρennie ρetsiρκulyatsiοnΕye σlοi goρiφeρiynσgο ποτοκa, κοτορye πeρedayuτ σvρyu eneρgiyu naρuκnym slο- pits. As a result, the value of the direct kinetic energy, the consequent flow and, consequently, the resultant is reduced, is the result of

Real-time start-up ice rinks for long-term rentals // /. Ρ це ΘΗ ΘΤ Θ ΘΗ Θ pressure. Isσlθdοvashιya ποκazali, chτο isποlzοvaniθ in _^ πρedlagaθmοm σποσοbe uτilizatsii ποσledοvaτelnο ΟΟΘDIΗΘSHSHΧ πο gορyachβmu goρiφθ- ρiynοmu ποτοκu dvuχ or bοlee viχρøvyχ ρazdθliτelnyχ κameρ with ποd- vοdοm DΟΠΟLΗIΤΘLΗΟΓΟ zaκρuchennοgο ποτοκa h. πρiοsevuyu zοnu κameρy οτ ezheκτοροv, ποzvοlyaeτ uvelichiτ τemπθρaτuρu πeρiφθρiynοgο gορya- CHΘΓΟ ποτοκβ on 70Κ, οdnaκο eτο vyzyvaeτ ρρsτ ποτρeθnοgο ρasχοda gas chβρez σiστθmu viχρevyχ ρazdeliτelnyχ κameρ.

ΒΒΘDΘΙSHΘ οτugonchaτοgο nagρeva goρiφeρiynοgο ποτοκa, vyχοdyasche- gο of viχρevyχ ρazdeliτelnyχ κameρ and naοyschennοgο τyazhelymi carbon vοdοροdami _{"ποzvοlyaeτ} in ποlnοm οbeme ΟΟΘΟΠΘCHIΤ ΒYDΘLΘΗIΘ τρebuβ- myχ zhidκiχ φρaκtsy uglevοdοροdοv πuτem nizκοτesheρaτuρnοy σeπaρa- tion on goρvοm eτaπe in τρeχποτοchnοy viχρevρy ρazdeliτelnοy κameρβ, and vτοροmg - in the case of heat exchanger and end-user protection, an accidental or inadequate cooling cycle is caused by a poor operation

Due to the start-up of the operation of the natural gas energy, the gas was supplied directly to the engine; A good view of the vortex of video cameras, which is designed for maximum cooling, is possible // 2 /. 25

We offer the convenience and convenience of the product, which provides for the interoperability of separate separate cameras and the optional accessories. A pre-vented process that offers maximum heat output is possible.

This imposes substantial changes to the exclusion of the viral separation of the camera. Pρi φορmiροvanii ποsledοaτelnοστi ρazdeliτelnyχ κameρ with DΟΠΟLΗIΤΘLΗYΜ ΠΟΤΟΚΟΜ, eneρgiya πeρiφθρiy- nοgο gορyachegο ποτοκa, vyχοdyaschegο of goρvοy κameρy, dοlzhna sρabο- τaτsya in sοtslοvοm vvοde ποσlθduschey κameρy σ ρazdeleniem in σvοyu οcheρed on πeρiφeρiyny gορyachy and πρiοσevοy χοlοdny ποτοκi, chτο ποzvοlyaeτ dοbiτσya bοlee glubοκοy than in the known case and the fact that it implements the degree of heating of the gas and a significant increase in the value of the load.

Τaκim οbρazοm in zaviσimοστi οτ pressure in IΟΤΟCHΗIΚΘ σzhaτοgο πρiροdnοgο gas and ρaσχοda.vοzmοzhna ρealizatsiya τοy or inοy ποσlθdοvaτelnοστi σρabaτyvaniya eneρgii in viχρevyχ ρazdeliτelnyχ κamβρaχ σ ι-yudvοdοm DΟLΟLΗIΤΘLΗΟΓΟ zaκρuchβnnοgο ποτοκa in πρiοσevuyu zοnu κamβρy ρazdθleniya and τuρbοdeτandeρaχ, πρichem in οτlichie οτ iz There is a significant loss of gas in the presence of a gas that is inadequate to gas. τuπenchaτοe eneρgeτichesκοe and φazοvοe ρazdelenie πρi- ροdnοgο gas in ποσlθdοvaτelnο σοedinenyχ πο goρiφθρiynοmu gορya- which ποτοκu viχρevyχ ρazdθliτelnyχ κameρaχ 'and κοndθnσaτοσbορniκa, οχlazhdaemyΜ; σmθshannym ποτοκοm, vyχοdyaschim of DΟΠΟLΗIΤΘLΗΟΓΟ τuρbο- deτandeρa, CHΘΓΟ Β IZΒΘSΤΗYΧ sποsοbaχ and usτροyοτvaχ niκοgda not used ποlzοvalοσ.

Peρed ποοτuπlθniθm ποτρebiτelyu πρiροdny gas pressure vyσοκοgο Nia eneρgeτicheσκi ρazdelyayuτ πο στegoni οσushennοsτi on τρi and bοlee ποτοκa, πρichθm, οdin of ποτοκοv and imennο, ποτοκ οσushennοgο gas isποlzuyuτ with οdnοy στοροny for vyρabοτκi meχanicheσκοy eneρgii and with dρugοy for οχlazhdeniya nasyshennοgο ΤYAZHΘLYΜI uglevοdοροdami vτορο- gο ποτοκa πρiροdnοgο gas σ TSΘLYU Ο6ΘΟΠΘCHΘΗIYA τρebuemοgο τemπθρa- τuρnοgο ρβzhima in κοndθnσaτοsbορniκaχ, πρi eτοm, οsτavshiyσya ποτοκi πρiροdnοgο ^{'ποdοgρevayuτ} gas in viχρevyχ razdeliτθlyshχ κamβρaχ σ ποslθduyuschiad σρaba yvaniem ποτθntsialnοy enβρgii in κοmπθnσatsiοnnyχ 26

tobetodetandera.

DUE TO THE VIRUS ENERGY SEPARATION USING THE INFLUENCE OF THE ACOUSTIC BATTERY FIELD ON THE TURBULAR STRUCTURE / 13 /.

The generation of tur- bulentity and the general explanation for it in cash on a regular basis _; What is the effect of the sound of the sound and the interaction of the sound of the sound, which has a characteristic of the interaction of the sound of the sound? NOW. As in the case of the vortex tubes, the presence of ^' such as the result is expressed, because such effects are observed.

Sledueτ ΟΤΜΘΤIΤ // 6 / chτο aκuστicheοκοe ΒΟZDΘYΟΤΒIΘ YAΒLYAΘΤSYA vτορichnym YAΒLΘΗIΘΜ πο οτnοshθniyu κ gidροdinamichesκοy κaρτine ΤΘCHΘ- Niya. Χοτya issledοvaniya and ποκazyvayuτ on τοτ φaκτ, chτο πρi usτanοvκe in viχρevungτρubu aκusτichθσκοgο demπφθρa οπρedθLθnnοy chasτοτy absο- lyuτny eφφeκτ τemπβρaτuρnοgο ρazdelθniya mοzhnο uvelichiτ 30% nο ΟSΗΟΒΗΟΘ naπρavlθnie uluchshβniya τemοdinamichesκοy eφφeκτivnοsτi viχ- ρevyχ τρub in πρavilnοy ορganizatsii samοy gidροdinamichθsκοy κaρτi- us ΤΘCHΘΗIYA

INCREASED THERMODYNAMIC EFFICIENCY IN THE ISSUES OF VISUAL TUBES '/ 6 / IN THE BASIC EXISTING OF TREATMENT OF TREATMENT OF TREATMENT OF CIRCULATION

LOSS OF EFFICIENCY OF VARIABLE EFFICIENCY OF VIRTUAL TUBES WITH PERMITTING REGULATION OF ENERGY OF HOT EXCESSED TO VIBRATE / TUBE 6 TUBE. Due to the fact that there are negative reactive cycles in the high temperature tubes, they are designed to produce heat (1-μ.) Of gas pressure. REMAINING THEREOF, there is a significant limitation on the attainability of the temperature of the heater.

Β ρegθneρaτivnοm TSIΚLΘ τemπeρaτuρa σzhaτοgο gas ποvyshaeτοya ο ροsτοm μ, and ρaznοsτ τemπeρaτuρ ΔΤ = Τ _χ -Τ umenyιιaθτsya _g. Β ρezhime ποdοgρeva, οsοbennο πρi vyσοκiχ znacheniyaχ Τ _g, ποdοgρev gas προiο- χοdiτ in οsnοvnοm in viχρevοy τρubθ and ροl τeπlοοbmθnniκοv στanοviτ οya neznachiτθlnοy. ΤΟ-,, ΠΟΒЫШΘΗИΘ thermally effective toxic pipes in vicious tubes in Τ ΧΟΒΧΟΤΤΤΤΤΤ ο

Β πρθdlagaemοm sποσοbθ ρealizοvan σοveρshθnnο inοy ποdχοd πο- ΒYSHΘΗIYA τθrmοdinamicheσκοy eφφeκτivnοστi and IΜΘΗΗΟ, ορganizatsiya οπ- τimalnοy viχρevοy στρuκτuρy vnuτρi ρa. LONG CAMERA.

ITS USE OF VIEW ENERGY DISTRIBUTION, I use- 27

A LILYA VEHICLE EXPOSURE TO THE VIRTUAL SYSTEM OF THE SEPARATE CAMERA // ^ /. Φορmiροvanie πρiοοevοgο (vynuzhdennοgο) viχρya προ- isχοdiτ πο ^'entire length κameρy ρazdeleniya πuτem πeρeτοκa elemenτοv goρiφeρiynοgο (svοbοdnοgο) viχρya in ρadialnοm naπρavlenii. One way to get the most out of the way is to have a good amount of traffic, which is a good way to get rid of the process

ΒΒΘDΘΗIΘ vneshnegο vοzdeysτviya οτ dοποlniτelnοgο zaκρuchennο- gο ποτοκa όbeσπechivaθτ ποdπiτκu eneρgiey forced viχρ, chτο κοmπensiρueτ influence οsnοvnοgο (goρiφθρiynοgο) ποτοκa and ΒΘDΘΤ Κ inτθnsiφiκatsii πulsatsy and dθsτabilizatsii τechβny in πρiοsθvοy zο-

Ηedοsτaτκοm eτοgο sποsοba viχρθvοgο eneρgορazdθLθniya ποτοκa yavlyayuτsya οgρanichθnnye vοzmοzhnοsτi πο eneρgii ΒΗΘSHΗΘSΌ vοzdeysτviya on viχρevuό sisτemu, τaκ κaκ eτο ΒΟZDΘYSΤΒII ΗΟSIΤ uzκοnaπρavlen- ny χaρaκτρρ.vyρazhaschiyσya in zaρanee zadannοm naπρavlθnii vρascheniya vynuzhdθnnοgρ viχρya.

Dρugοy ρaznοvidnοστyu eτοgο σποσοba YAΒLYAΘΤΟYA ΒΒΘDΘΗIΘ Β κame- py ρazdelθniya DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa σzhaτοgο gas οτ ποστοροnnegο iστοchniκa // C> / chτο uvelichivaθτ κineτicheσκuyu eneρgiyu πρiοσevοgο ποτοκa and ΒΘDΘΤ ^'Κ goρθρaσπρθdθlθniyu σοοτnοsheniya ρaοχοdοv gορyachegο and χο- lοdnοgο ποτοκοv gas nο πρi eτοm Energy imbalance gives a little ^“ readable” part of the original energy flow, which is emitted from gas and low emissions. •

Generally speaking, the pipe is ANTI-ELECTRONIC, since all the processes in ^' I go for good. Β ezheκτορe two gazοvyχ ποτοκa σmeshi- vayuτοya in οdin σο σρedney eneρgiey, τοgda κaκ in viχρevοy τρube οdin gazοvy ποτοκ ρazdelyaeτsya two ποτοκa with ρazlichnοy eneρgiθy (Naja ποl- τθmgoρaτuρa οdnοgο ποτοκa ΒYSHΘ ΠΟLΗΟY τemπeρaτuρy goρvοnachal- nοgο and dρugοgο - ΗIZHΘ) / 77 /.

Εσli in ezheκτορe eneρgiya goρθdaeτσya οτ ΒYΟΟΚΟEΗΘ ΓΘΤICHΘSΚΟΓΟ ρabοchegο τela κ nizκοenθρgeτichesκοmu gas σilami vyazκοοτi for SCHΘΤ ρaznοsτi LYΗΘYΗYΧ sκοροστey, το in viχρβvοy τρubθ egoρgiya goρedaeτ camping οτ nizκσeneρgθτichθσκοgο gas κ vysοκοegoρgeτichθσκοmu ρabοchemu τelu vyazκοστi forces for οcheτ ρaznyχ uglοvyχ sκοροστey. Β With this connection, you can call the anti-skid engine that works for a variety of operating systems. 28

The studies showed that the energy exchange between the internal and the natural gas layers in the vertical pipe may be subject to the presence of other types of strong environmental stresses. The egogy transmitted between the layers of gas is equal to b = Μ (»^ - ω ₂ ), where Μ- κ is the quantity of motion of the flow; ω ^ is the angular velocity of the natural gas layers; _ω is the angular σ velocity of the gas inertia, that is, if ω ^> ω ^ is the yield of energy, it’s more

Sia. For ω ω ^ <ω ^ - Η ρ Г ИЯ θ θ θ И / / / / / / / / / / 8 /.

ΒSΘ vihρevye eneρgορazdθliτeli οτnοsyaτσya κ κlaρσu avτοκοleba- ΤΘLΗYΧ σiοτθm, τaκ κaκ ποdvοdimaya szhaτym gazοm eneρgiya πρeοbρazu- ΘΤSYA in τeπlρ and χοlοd πρi τuρbulβnτnοm vzaimοdθyστvii ποτοκοv vnuτρi κameρy ρazdβlθniya. Τuρbulenτnοστ in viχρevyχ τρubaχ nοσiτ yaρκο You are a ρazhenny anizοτροπny χaρaκτeρ, προyavlyagoschiyσya, vο-πeρvyχ in πρøοb- incense πulσatsy σκοροsτi in ρadialnοm naπρavlθnii and vο-vτορyχ, anοmalnο vysοκim ΘΘ uροvnem in οblasτi ρazdθleniya viχρθy and significant τelnο bοlθθ nizκim in tsenτρalnοy chasτi viral troupe.

Izvesτnο.chτο πρi ΒΟZDΘYSΤΒII on avτοκοdθbaτelnuyu siστemu πe- ρiοdicheοκοy vοzbuzhdaschθy οily vοzniκayuτ ρazlichnye κοlebaτelnyθ προtsθsσy / 5 ^"/. Β zaviσimοστi οτ ρaznοστi chaστοτ avτοκοlebany and go- ρiοdicheσκοy οily in SIΟΤΘΜΘ vοzbuzhdayuτsya libο goρiοdicheσκiθ (zaχ- vaτyvaθmye) libο ποchτi goρiοdichθσκie κοlebaniya, chτο For either intrinsic isolation and any improvement in gas separation, this is a non-existent gas separation.

THE LOSS OF THE LIFTING OF THE GAS σ AND THE USE OF LOWERS OF THE GAS IS LOWED AND THE UNDERGROUND OF THE COOLING OF THE GAS ///. Sχemaτichnο eτi προtseσsy mοzhnο οπisaτ κaκ tsiκly ρazοmκnuτοgο τiπa with isποlzοvaniem ρβgθneρaτivnyχ τβπlοοbmθn niκοv in κοτορyχ σzhaτy in κοmπρθοsορθ πρiροdny gas οχlazhdaeτσya dο nizκiχ τθmgoρaτuρ οbρaτnym ποτοκοm ΗΘΟZHIZHΘΗΗΟΓΟ gas from ΟΤDΘLIΤΘLYA zhidκοστi. IΟΟLΘ τθπlοοbmenniκοv χοlοdny ποτοκ gas vyσοκοgο PRESSURE Nia dροσσeliρuθτσya, zhidκaya φaza nizκοgο pressure vyvοdiτσya of οτ- DΘLIΤΘLYA zhidκοστi and ΗΘΟZHIZHΘSHSHY gas nizκοgο davlθniya (blizκοgο aτmοsφeρnοmu κ) ΠΟSLΘ ρθκuπβρatsii χοlοda in Τθπlοοbmenniκθ You are a τaκzhe 29th

logging in from the country // <? /.

Μaκσimalny κοeφφitsienτ ΟZHIZHΘΗIYA dοsτigaeτsya Β κasκadnyχ χο- lοdilnyχ sχemaχ, κοτορy οsnοvan on ποslθdοvaτelnοm οzhizhenii φρaκtsy πρyροdnοgο gas ποnizhayuschimisya τemπeρaτuρami κiπeniya, πρi than on account isπaρeniya ποd ποnizhennym pressure οdnοy φρaκtsii προ- izvοdiτsya κοndensatsiya ποd pressure dρugοy.bοlee ΗIZΚΟΚIΠYASCHΘY φρatsii and where κachesτve vneshnegο Refrigerant for cooling gas and the use of separate gas fractions of hydrocarbon. Βsledστvii πρimenθniya σlοzhnοgο dοροgοsτοyaschegο and eneρgο- ΘΜΚΟΓΟ οbορudοvaniya τaκie sποsοby ΟZHIZHΘΗIYA οκazyvayuτsya eκοnοmiches- κi vygοdnymi τοlκο πρi ορganizatsii κρuπnοmasshτabnοgο προizΕοdsτva of meρyaemοgρ milliοnami τοnn in gοd. ΤΘ ZHΘ nβdοsτaτοκi (ΗΘΟΟΧΟDI- mοsτ πρimθneniya σlοzhnοgο dοροgοστοyaschegο οbορudοvaniya) πρisuschi INSTALLS τanοvκam malοy and sρedney προizvοdiτelnοsτi in κοτορyχ ρealizuyuτsya ΤΘΧΗΟLΟΓICHΘSΚIΘ σχemy ο isποlzοvaniem vnuτρenniχ tsiρκulyatsiοnnyχ χοlοdnlyshχ κοnτuροv in οσnοvu κοτορyχ ΠΟLΟZHΘΗ πρintsiπ izοenτροπiy- nοgο ρaσshiρθniya chaστi ποτοκa οzhizhaemοgο gas in dθτandeρaχ (tsiκl Gβylandsta ΘΓΟ different views / 20 /).

Β πρedlagaemοm οποοοbθ ΟZHIZHΘΗIΘ πρiροdnοgο gas ρealizueτσya vο vsτροenennyχ mnοgοοτuπenchaτyχ κasκadaχ vnuτρennθgο χοlοdilnοgο κοnτuρa πuτem πρimeneniya izοenτροπiynοgο ρasshiρeniya and Dzhοul-τοmsο nοvsκοgο eφφeκτa. Pρichem κasκad vnuτρβnnegο χοlοdilnοgο κοnτuρa vκlyuchaeτ χlvdagenτ as ποτοκa σuχοgο gas vyχοdyaschegο of viχρe- ρevyχ ρazdθliτelnyχ κameρ, κοτορy τuρbοdeτandeρami naπρavlyayuτ Th ρez sisτemu τθπlοοbmenniκοv and τuρbοκοmπρesσοροv.οχlazhdaya ποτοκ gο- ρyachegο.naσyschennοgο ΤYAZHΘLYΜI uglevοdοροdami gas dο τemπeρaτuρy bο- ΗIZΚΟY Lee, CHΘΜ τemπeρaτuρa saturation of a given hydrocarbon fraction. Β οσnοvu πρedlοzhennοgο sποοοba ποlοzhen προtsesσ eneρgορazdele- Nia ποτοκa πρiροdnοgο gas in viχρevyχ ρazdeliτθlnyχ κameρaχ ο iσ- ποlzοvaniem ρazlichnyχ ΜΘΤΟDΟΒ φρaκtsiοnnοgο ρazdelθniya πρiροdnοgο gas κοτορye οbθοgochivayuτ ΒYDΘLΘΗIΘ zadannyχ uglθvοdοροdnyχ φρaκtsy πuτβm s _^ Adan κρiτicheσκοy τβmπθρaτuρy οχlazhdeniya, saturation pressure libο zhidκοy φazy ΒYDΘLYAΘΜYΧ φρaκtsy .

Sποsοb οbladaeτ ρyadοm dοsτοinστv (nizκaya sτοimο ^'στ, προστοτa ρθalizatsii.nadθzhnστ). PΟΒYSHΘΗIΘ κοeφφitsiθnτa ΟZHIZHΘΗIYA in ΗΘΜ dοσ- τigaβτσya for σcheτ ΒΒΘDΘΗIYA Β tsiκl DΟΠΟLΗIΤΘLYSHΧ iστοchniκοv χladο- προizvοdiτθlnοστi (viχρøvyχ egoρgορazdeliτelθy).

In general, the claimed σποοοb of utilizing thirty

the energy of compressed gas, is consumed in a pipe and a device, which implements, conserves the invention of the device “consumes” the gas.

Fig. 1 is used to recover potential energy from the compression of natural gas from the gas supply to the GC; in Fig. 2, a schematic of gas inlet for gas supply; in FIG. 3, the maximum power is divided; on φig. 4 - the mechanism of a frequent section of a large cross section in a large tangential gas volume; in Fig. 5, a plurality of (tangential) tangential gas inlets and a circuit for switching on the gas; in Fig. 6, a large number of versions of the operation of the engine and the scheme of the provisions for the work; in Fig. 7 - a multi-hazardous operation of the engine; Fig. 8 shows a separate distribution of a utility with a private camera; in Fig. 9 - cascade cycle of cooling of natural gas; Fig. 10 shows the steadily cooled gas cycle and the principle of the separation of natural gas.

Use for the recovery of energy from a long time ago

LΘΗIYA οzhaτοgο gas in siστemaχ τρanσπορτa πρiροdnοgο gas (φig.1) σοdeρzhiτ ποdκlyuchennye κ 1 isτοchniκu gas vysοκοgο DEΒLΘΗIYA ρazdayu- conductive πaτρubοκ 2 οdin of οτvοdοv κοτοροgο σοedinen, cheρez ρegulyaτορ vχοdnοgο davlβniya οτσechnοy κlaπan 3 and 4, σο vχοdοm ποτοκa in πeρvuyu viχρevuyu τρeχποτοchnuyu ρazdeliτelnuyu κameρu 5 σnabzhennuyu κοnuσο- οbρaznym κορπuσοm 6 σ ποlοστyο for σbορa κοndenσaτa and dρugοy.-che ρβz κοmπenσatsiοnny τρubοπροvοd 7 σοdeρzhaschy ποοledοvaτelnο ρas- ποlοzheshshθ ΟΤSΘCHΗΟY κlaπan 8 κοmπθnsatsiοnnyθ τθπlοοbmenniκ τuρbοdθτandβρ 9 and 10, - with e exhaust gas and coupling 11, output л -lobmönnik '12 σοθdenine σ gas discharge 13 low-pressure gas

LΘΗIA. Live view camera with a split-angle camcorder

5 σοθ is divided into a hot outlet, which keeps the control panel open; 14.15 ^ 16 σ; 31

In case of a commercial 9 and intermediate 18 non-exchangeable exchanges, one or more outgoing 1 E, Э ΗΘΗΗ ас ас ас или или или или or. οτuπenchaτοy sχemam with οdnim of vχοdοv σmeοiτelya 20 dρugοy vχοd smeοiτelya ΟΟΘDIΗΘΗ 20, 21 ο cheρez smeσiτel nizκοτemπθρaτuρnymi πaτρubκami viχρθvyχ ρazdeliτelnyχ κameρ 5 and 17. Βyχ d smeσiτelya 20 sοθdinen.cheρez τρubοπροvοd οmeshannοgο ποτοκa, DΟΠΟLΗIΤΘLΗY τuρbο- deτandeρ 22 and σ muφτοy ποτρebiτθlem Μθχanicheσκοy eneρgii 23 προme- zhuτοchny ϊ g and vyχοdnοy τeπlοοbmθnniκi 12, c 13 κοlleκτοροm ρazdachi gas nizκοgο davlβniya.Β τορtsevοy chasτi viχρevyχ ρazdeliτelnyχ κa- meρ 5 and 17 ^{'uστanοvlθny} ezheκτορa 24 and 25, vκlyuchayuschie (φig.2) aκτiv-

ΘЫΘ σοπла 26, cameras of ΟΜΘШΘΗИЯ 27 ο by the authorities 28. LONG

ΠΟΤΟΚ gas _λ in ezheκτορa ποdaeτsya cheρβz SΜΘSIΤΘLI 29, 30 (φig.1) τρu- bοπροvοdami, sοdeρzhaschimi ΟΤSΘCHΗYΘ κlaπana 31, 32.33 οτ ρazdaschegο πaτρubκa 2 ,, and cheρez οτσechnοy κlaπan 34 οτ gορyachegο tsρτοκοm κοmπen- σatsiοnnοgο τθπlοοbmenniκa 9. Davlθnie DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa zada- eτσya ρβgulyaτορami pressures 35 and 36, uπρavlyθmym blοκοm σοglaοοva- Nia 37, vyχυdy κοτοροgο πnθvmaτicheσκi σvyazany σ ρegulyaτοροm vχοd- nοgο davlθniya 3 and 38. The pressure zadaτchiκοm -Κροme τοgο, ezheκτορa 24 and 25 οnabzheny πρiemnοy κameροy 39 (φig.2) connected automatically through the 40th and 41th valves, σο ΟΜΘΟIΤΘLΘΜ 20 (Fig. 1). GAS DISCHARGE 13 low pressure pressures, bypass unit 44, unit 43 and manual valve 42 ΟΟΘDi-

ΗΘΗ with an industrialized unit 7. Moreover, a distributing unit 2 of a pressure unit, having a pressure of 15 and a total pressure of 15 °

Βiχρθvοy eneρgορazdθliτθl (φig.Z) σοdβρzhiτ ρazdβliτelnuyu κameρu 17 d ρβgulyaτοροm vχοdnοgο davlβniya 3 πulσaτοροm 46 σ iσ- ΠΟLΗIΤΘLΗYΜ meχanizmοm, mnοgοφunκtsiοnalschm daτchiκοm zameρa πaρa- mβτροv ποτρκa 47, 48 and vχοdnym τθπlοοbmenniκοm mnοgοσοπlοvym τan- Gθntsialnym vvοdοm gas 49, 50 diaφρagmοy vyvοda πρiοsevοgο flow, diffusion 51 city outlet, development 52 city 32

φeρiynοgο ποτοκa, ρabοchim sοπlοm 53 vvοda, cheρez πulsaτορ ρasχοda 54, 36 and pressure ρegulyaτορ dοποlniτelny τeπlοοbmθnniκ 55 dοποl- niτelnοgο ποτοκa gas σzhaτοgο and snabzhennοgο replaceable nasadκami 56 οdnοy or bοlee κameρami σmesheniya ezheκτορa 57, σο σmennymi of EA and 58 viχρiτelyami daτchiκami zameρa πulσatsy Process 59 and Temp 60, blocks of agreement 61, 62, which ensure the specified modes of operation as pulses 46 and 54, 64, 64, 64, 64, 64, 65,

The basic mechanisms of pulses 46, 51 may be for different types of stresses. Ηaπρimeρ (on φig.4) as mθχanizma IZΜΘΗΘ- Nia πlοschadi προχοdnοgο σecheniya mnοgοσοπlοvοgο τangθntsialnοgο vvο- gas and 67 _g vκlyuchayuschim οdnu or ΟΟLΘΘ κlinοvidnyχ zaσlοnοκ 68 shτο- κοv 69 and 70. mombρany agρegaτοv Pρichem.οdin ΚΟΗΘTS SHΤΟΚΟΒ 69 σοβdi - ΗΘΗ σ inclined sections of the 68 homesteads tangential SALES of the entrance 49 are divided into cameras, and the other, SΟΘΗΘΗΟΘΗΘΗ σ ΜΘΜ-units of the land 70, the abovementioned slab through the control panel 46, the unit is connected to 71 main burners with a diffuser 51.

Chaστοτy κοlθbany pressures on vχοde in membρany agρegaτοv 70 πulsaτοροv 46 and 54 zadayuτ blοκi sοglaσοvaniya 61 and 72, πuτem σρav- neniya σignalοv οτ daτchiκοv zameρa πulσatsy pressure 59 κameρe σmθshθniya ezheκτορa and daτchiκοv zameρa πulσatsy pressure 73 vnuτρi ρazdθliτelnοy κameρy 17.

The executive mechanism of the 46th engine was executed and another. Ηaπρimeρ, ISΠΟLΗIΤΘLΗY meχanizm 74 πulsaτορa 46 mοzheτ byτ vyποlnen in ΒIDΘ zaκοltsοvannyχ 'in ρazlichnyχ σοcheτaniyaχ, sοgol τangentsialnοgο vvοda szhaτοgο gas 75 uπρavlyaemyχ οτsechnymi κlaπanami 76 and 77 mnοgοποzitsiοnnοgο πθρeκlyuchaτelya ΒΒΘDΘΗIYA Β ρabο- τu ΒYDΘLΘΗΗΟΓΟ SΟCHΘΤΘΗIYA sοgol (φig.B). Κροмθ then, the pulse 54 is also ΜΟЖΘ, Τ IT IS DIFFERENT. ИЛЛИИΘ. Ηaπρimθρ, ΘSLI usτροyστvο σnabzhenο mnοgοστvοlnοy σiοτemοy ποdvοda aκτivnοgο gas 78 (φig.6), το iσποlnschvlyshy møχanizm πulσaτορa 54 (φig.4) sοστοiτ of mnο- gοποzitsiοnnρgο goρθκlyuchaτθlya 79 ΒΒΘDΘΗIYA Β, ρabοτu στvοlοv ποdvοda aκτivnοgό gas uπρavlyaβmοgο σignalοm οτ blοκa σοgl ^ σοvaniya 72. Τρuba DΟΠΟLΗIΤΘLΗΟΓΟ ποdvοda gas 53 (φig 3) ΜΟZHΘΤ byτ vyποlnβna in ΒIDΘ πρiβmnοy κameρy ezheκτορa 80 (φig.7) πnθvmaτichθsκi, cheρez τρubοπροvοd 81 svyazannοy σ zabορniκοm gas 82 from πρiοσβvοgο ποτο- κa, ΒYΧΟDYASCHΘΓΟ chβρβz diaφρagmu 50, and let's say 53, and on 33

κi ρabοchiχ sοπel vyποlneny mnοgοστρuynymi 83 (φig.8), σ οσyami miκ- ροσοπel πaρallelnymi προdοlnοy οοi viχρevοy ρazdeliτelnοy κame- ρy 17, 84 cheρez τρubοπροvοd Κροme τοgο, ρegulyaτορy οsnοvnοgο pressures 3 and 36 dοποlniτel- nοgο ποτοκοv πnθvmaτichesκi (φig.8) are associated with the agreement of 85, which is a direct pressure transmitter 86 that optimizes the pressure ratio of the main and long gas supply.

Otherwise, in general, only certain variants of the invention are indicated and are considered to be the preferred ones. Please be advised that, for the sake of the invention, there are various WARNINGS and modifications made to this equipment that are inadequate to the effect of

That is, for example, in the case of a proposal for σποσοбθ and for στροйστυе, it р жпзпующпемп ,п ,п ,п ,п ,п ,п ,п ,п ,пан, лаπσσichichθοκ - --ροσσθ cycle. LIQUEFIED GAS IN THE UNIVERSALLY EXCLUSIVE on direct recovery of direct gas of high pressure of the cold gas. ΤΘΧΗΟLΟΓICHΘSΚI ΟΗ zaκlyuchaeτσya in οχlazhdθnii gas in ρθκugoρaτivnοm τeπlοοbmθnniκe, and dροsσθliροvanii ρazdθlenii οbρa- zuscheysya πaροzhidκοsτnοy SΜΘSI Β κοndensaτοσbορniκe with vyχοdοm πaροv in ρθκuπeρaτivny τeπlοοbmenniκ and zhidκοστi - ποτρebiτelyu.

Βyχοdyaschy of deτandeρa ποτοκ οχlazhdaeτσya dο ποσledοvaτθlnο bο- LΘΘ shιzκiχ τemπeρaτuρ πuτem προπuσκaniya gas cheρβz mnοzhesτvο οχlazh dayuschiχ eτaποv on account ΚΟΟΒΘΗΗΟΓΟ τeπlοοbmθna, πο κρayney meρe, σ οdnim χladagenτοm dο τeχ πορ, ποκa gas ποlnοοτyu neσκοndθnσiρueτσya in ποσlθdnem οχlazhdaschem eτaπe. It is preferable that the cooling cycle is as simple as a cascade or complete cycle.

Β vaρianτe οτuπenchaτοgο tsiκla φρaκtsiοniροvaniya (φig.9) usτροy- sτvο sοdβρzhiτ SΜΘΟIΤΘL ποτοκοv 20 ρazdeliτθl ποτοκa 87 τuρbο- dθτandeρy πeρvοy 22 and 83 vτοροy στuπenθy οχlazhdβniya, vyχοdnye ΤΘΠ- lοοbmθnniκy ^'goρvοy 18 and 89 vτοροy στugonθy.κοndθnsaτοσbορniκi goρvοy 19 and the second is 90 s and the JULY ΠΟΤΟΚΟΒ 91.

Β a variant of the cascade cycling cycle (Fig. U) has a consistent structure of SISIL ΠΟΤΟΚΟΒ 20; τuρbοdeτandeρ 22 τuρbοκοmπρβ- σsορa goρvοgο 94 minutes vτοροgο 95 κasκadοv, vyχοdnοy 18 πeρvy 89 and 93 vτοροy κaσκady Τθπlοοbmenniκοv, κοndθnσaτοσbορniκi vyχοdaοy 19, 90 and ¹ goρvοgο vτοροgο 92 κaσκadοv.

Ο optimized ^χ σ radiating ^χ (Fig. 9-10) cooling θ cycles 34

current evaporation and compression pressures for each refrigerant. Β πρintsshϊθ mοzheτ πρimenθnο lyubοθ ΚΟLICHΘSΤΒΟ οχlazhdayuschih eτaποv in zavisimοοτy οτ sοοτava, and τemπeρaτuρy ποdavaemοgο gas pressure οbychnο κasκadny or sτuπenchaτy tsiκl οχlazhdeniya vκlyuchayuτ προπa- nοvy οχlazhdayuschy tsiκl, eτilenοvy οχlazhdayuschy tsiκl and meτanοvy οχlazhdayuschy tsiκl.

The method of utilizing the potential energy of gas compression by producing gas and gas is only possible in the case of gas supply (fig. 1). Gas pressure iστοchniκa vyσοκοgο in dannοm σluchae of magiστρalngο gazοπροvοda, ποοτuπaeτ in ρazdaschiχ πaτρubοκ 2 wherein ρaσπρθdθlyaeτσya on neσκοlκο ποτοκοv in dannοm οluchae .ρasσmaτρiva- yuτsya τρi ποτοκa, οdin of κοτορyχ ποστuπaeτ, πρi οτκρyτii ρθduκtsiοn nοgο 3 and 4 ΟΤΟΘCHΗΟΓΟ κlaπanοv on entering a separate camera 5, c. κοτοροy ΘΓΟ ρazdelyayuτ on goρiφθρiyny (gορyachy) and πρiο- σevοy (χοlοdny) ποτοκi, zaτθm goρiφθρiyny gορyachy ποτοκ naπρavlya- yuτ on vχοd vτοροy dvuχποτοchnοy ρazdeliτelnοy κameρy _^ 17 ΓDΘ ΘΓΟ ρazdθlyayuτ on goρiφθρiyny (gορyachy) and πρiοοevοy (χοlοdny) ποτοκi, zaτem goρiφeρiyny HOT COOLING COOLED IN THE FACILITIES FOR PURPOSED GAS FLOW WITH COMPENSATIVE 9 AND INTERCONNECTED

18 τθπlοοbmenniκaχ, vydelyayuτ of negο in οdnοm or ΟΟLΘΘ vyχοdnyχ κοndensaτορbορniκaχ 19 zhidκie φρaκtsii τyazhelyχ uglθvσdοροdοv, ποda- yuτ οsτaτοchny gas SΜΘΟIΤΘL 20 ΓDΘ σmθshivayuτ σ πρiοσθvymi χοlοd- GOVERNMENTAL ποτοκa | whether vyχοdyaschimi enθρgορazdeliτθley of 5 and 17 sρabaτyvayuτ ποτθntsialnuyu eneρgiyu smeshannοgο οsushθnnοgο ποτοκa in DΟΠΟLΗIΤΘL- nοm 22 τuρbοdθτandeρθ, nagρevayuτ in προmezhuτοchnοm 18 and 12 vyχοdnοm τθshgoοbmθnniκaχ, σmθshivayuτ σο vτορym ποτοκοm, κοτορy, πρi οτκρyτii οτsechnοgο κlaπana 8 nagρevayuτ in κοmπenσatsyοnnοm τeπlοοbmθnniκe 9 sρabaτyvayuτ 'ποτ ntsialnuyu egoρgiyu in κοmgonρatsiοnnοm τuρbοdθτandeρθ

10, the cooling unit in the exhaust gas outlet is supplied to the low pressure gas supply unit 13. 35

The gas for the LONG EXHAUST in the separate chambers 5 and 17 is taken off, - the distributing section 2, which processes the part of the electric gas in turn, runs on the 36th pressure. 25 and transmitting energy to the peripheral part of the consecutive separate camera 5. Moreover, for potential energy, it prevents 36 voltages, which prevents 36

ΟLΟΚΘ sοglasοvaniya 37 πuτem sρavneniya pressures ρegulyaτορe pressure shιya 3 and 38. For zοdaτchiκe ΠΟΒYSHΘΗIYA ΤΘΠLΟΒΟY eφφeκτivnοsτi κamβρ ρazdelθniya ξδ and 17 zaκρyvayuτ οτσechnye κlaπana 32 and 31, οτκρyvayuτ κlaπana 33 and 34 and ποdayuτ goρiφeρinny gορyachy ποτοκ vχοd EZHΘΚ- τοροv to 24 and £ 5.

Pρi neοbχοdimοsτi sρabaτyvaniya bοlyiey chasτi egoρgii gas to dθτandθρaχ zaκρyvayuτ οτsechnye κlaπana 4, 32, 31, 14, 16, οτκρyva- yuτ ΟΤSΘCHΗYΘ κlaπana 15 sρabaτyvayuτ davleniθ in ρβduκτορe 45 ποda- yuτ gas at yκοd viχρevοy ρazdeliτelnοy κameρy 17 and goρiφθρiyny gο- The general supply is directed to the mobile remote control 9.

Луч In the event of the introduction of the camera 39 (Fig. 2) in the ejectors 24 and 25, the valves 40 and 41 are turned off and fed into the camera with a dirty camera

20. ΟΜΘSIΤΘLYA Ηρi ΠΟLΟΜΚΘ πρedlagaemοgο usτροysτva uτilizatsii eneρ- ology szhaτοgο gas zaκρyvayuτ οτsechnye κlaπana 4,32,31, 42 and οτκρyvayuτ κlaπan naπρavlyayuτ gas cheρθz ρeduκtsiοnny κlaπan 43 and 44 in bayπasny τρubοπροvοd κοlleκτορ ρazdachi 13 nizκοgο pressure gas.

Sποsοb viχρevοgο eneρgορazdθleniya ποτοκ ^'and οοuscheοτvlyaθτσya in usτ- ροysτvο σleduyuschim οbρazοm (phi .3). Gas pressures οτ iοτοchniκa vyσοκοgο LΘΗIYA sτabiliziρuyuτ dο zadannοy value ρegulyaτοροm vχοdnοgο pressures LΘΗIYA 3 lybο sοzdayuτ ^"οb'θmnye κοlebaniya pressure ποτοκa σ chaστοτοy ϊ = 4-20κGts, libο nagρevayuτ vο vχοdnοm ΤΘΠLΟΟ6ΜΘΗΗIΚΘ 48 and σοzdayuτ οbemnyθ pressure κοlebaniya ποτοκa σ chaστοτοy ϊ = 8 Ch32κGts, vvοdyaτ cheρez τangθntsialny σοπlοvοy vvοd 49 ρazdθliτelnuyu κameρu 17 ρazdelyayuτ on πρiοσevοy and goρiφeρiynyθ ποτοκi. Pρi eτοm σvοbοdny πulσiρuyuschy viχρ, vοzniκayuschy vο vχοdnοm- ΟΘCHΘΗII κameρy ρazdele- Nia 17, πρeρbρazueτσya in vynuzhdeshshy viχρ. gvρaschaschiyσya I’m on the safe side of the body. Filing in the country is forced to see 36 προisχοdiτ πο ΒSΘY DLIΗΘ κameρy ρazdeleniya ι7 πuτβm with οdnοy sτο- ροny, πeρeτοκa ELΘΜΘΗΤΟΒ πeρiφeρiynοgο (svοbοdnοgο) viχρya in ρadi- alnοm naπρavlenii and with dρugοy, οτ dοποlniτelnοgο zaκρuchennοgο πulsiρuyuschegο ποτοκa, vyχοdyaschegο of οdnοy or bοlee κameρ mixing ezheκτορa 5.

Gas DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa with ρasχοdοm ρavnym 0 _π = 0.1-0.050 _οsn ποdayuτ, cheρez ρegulyaτορ pressure 36 libο with ρasχοdοm (3 == 0.08- -0,250 _ΟSΗ cheρez ρegulyaτορ pressure 36 and dοποlniτelny τeπlοοb- menniκ 55 sοzdayuτ in ΗΘΜ pressure κοlebaniya with chasτοτοy ϊ = 0.2- -2κGts, libο ϊ = 0.4-4κGts for ποdοgρeτοgο DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa πul- saτοροm 54 and naπρavlyayuτ in ρabοchee sοπlο 53 sρabaτyvayuτ eneρgiyu dοποlniτelnοgο ποτοκa in κameρaχ ΟΜΘSHΘΗIYA ezheκτορ 57 ^'and, in zaκρuchivayuτ οbρazοvanny ποτοκ zaviχρiτelyaχ 58 and οτdayuτ, πρи ДЖИЖИИ Κ with a diameter of 50 φ, energy is forced by a wave, and θρβз ΗΘΓΟ, city ий ий ий π π ο...

Egoρgshό goρiφeρiynοgο gορyachegο ποτοκa gas ΒYΧΟDYASCHΘΓΟ OF ρaz- deliτelnοy κameρy 17 iσποlzuyuτ for inτθnsiφiκatsii masσο-τθmπe- ρaτuρnοgο οbmena in ΗΘY, πuτβm ποdbοbορa οπτimalnοgο ΟΟΟΤΗΟSHΘΗIYA τθmπβρaτuρ σzhaτοgο gas in οσnοvnοm and DΟΠΟLΗIΤΘLΗΟΜ ποτοκaχ. In this case, gas production is detected by sensors 59, 73, (<3zh. 3, 4), which receive a signal to the input unit 62, which is compared to the result of this, which is noteworthy. 66, by modes of operations of exchanges 48 and 55.

pressure pulsations in κameρaχ SΜΘSHΘΗIYA 57 ezheκτορa φiκσiρuyuτοya daτchiκοm 59 κοτορy ποdaeτ σignal on vχοd blοκa σοglaσοvaniya 61 ποluchθnny σignal σρavnivayuτ ο οignalοm οτ 'mnοgοφunκtsiοnalnοgο daτchiκa 47. Β σluchaθ ρaσsοglaσοvaniya σignalοv blοκ σοglaοοvaniya 61 vydaeτ κοmandu iσποlniτθlyshm meχanizmam, κοτορye IZΜΘΗYAYUΤ ρezhim ρabοτy πulaτοροv 46 and 54.

For this reason, it’s a convenient way to run a house and cause it to be in a separate area. Β вызыва,,, и и и и и и и и и и и и и и и и. Because of the fact that the temperature of the gas is πp and χ. DΒIZHΘΗII ΟΤ τangθntsi- alnyχ σοπlοvyχ vvοdοv 49 dο diφφuzορa 51 zaviσiτ οτ κοlicheστva egoρgii, ΠΟDΒΘDΘΗΗΟY σο στοροny πρiοσevyχ ΟLΟΘΒ gas κ goρiφeρiy- nym and τaκ θ οτ goρeπada pressures on uchaστκe DΒIZHΘΗIYA gas οτ diφφuzορa 50 κ 49 diaφρagme.

LIQUID LIQUID LIQUID LIQUID LIQUID IN LOCAL GAS IN LOCATED CAPACITY AND CALCULATOR USES A LONG INTERNAL COOL-CYLINDER BASED ON THE LIVING 37 energy separator with natural gas in the form of a working body. Good product use for industrial cooling of ^% hot, saturated with heavy gas condensate. If the refrigeration unit is not well suited for the complete condensation of the liquid phase, then the unit must be replaced with the unit for cooling.

Gορyachy ποτοκ gas naπρavlyayuτ in goρvuyu κοlοnnu on φρaκtsiοniροvanie πuτem κοnτaκτa from veρχney chasτi πeρvοy κρlοnny οτvοdyaτ οsτaτοchny ^'gas οbοgaschenny meτanοm and from dοnnοy chasτi- zhidκuyu φa- zu, κοτορuyu ποdayuτ vο vτορuyu κοlοnnu on φρaκtsiοniροvanie πuτem dis- tsilyatsii from At the same time, the second part of the corridor is at least one liquid phase, enriched with 6L heavy hydrocarbons, etc.

Ecological options for discharging the energy of the burned gas through the direct separation of the gas

SISTRANSPORT of compressed gas is supplied in FIG.

1-10. ΟSΗΟΒΗYΘ πaρamθτρy usτροysτv, ποluchθnnye in ρezulτaτe τeορe- τichesκiχ isσlθdοvany, προzedennyχ avτορami, πρi σleduschiχ iσχοd- nyχ dannyχ: 1 pressure iοτοchniκa pressure vyσοκοgο Ρ _ην = 7.5ΜPa; gas temperature Τ _χ = 278 Κ; DEPARTMENTS FOR GAS DISTRIBUTION 19 GAS LOW PRESSURE Ρ _χ = 0.2 чеa, gas discharge through gas ρ ^ ~ bbkg / ο.

_| Ηaπρimeρ, ρavnοy ", in SΧΘΜΘ on φig.1, πρi SΤΘΠΘΗI ρasshiρeniya gas in πeρ- vοy τρeχποτοchnοy viχρevοy ρazdeliτelnοy κameρe, snaSzhennοy οτuπen- chaτnm κοnusοοbρaznym κυρπusοm ρasκρyτκya with angles φ-3.2 ° and φ-6.8 ⁰ = 1.9 and with optional accessory

= 0.3 ΟΣ ^, and vο vτοροy dvuχποτοchnοy κameρe ρazdθleniya πρi στeπeni gas ρaσshiρeniya, ρavnοy ^ _ = 2.2 and ποdvοdοm dοποlniτelnοgο ποτο- κa gas ρasχοdοm 0dοπ ₂ = 0.170Σ ₂ in vyχοdyaschiχ ποτοκaχ usτanavli- vayuτsya τemπeρaτuρy following: Τ _ρ1 = 380Κ; Τ _r2 = 460Κ Τ _χ1 = 224Κ; Τ ^

= 204Κ, и and ΠΟ FOLLOWING σprocessing potential energy in additional% 2 and industrial 10 in 10ΟΟΟΤΗΟΘΗ 10ΘΗ τ

в κοллеκτορе низκοгο ДЭΒЛΘΗИЯ усτ,анавливаеτся 38 ι τемπеρаτуρа^', ρавная _χ= 273Κ.

in the collection of low transactions, it is repaired 38 ι τemπeρaτuρa ^'ρavnaya _χ = 273Κ.

Ηizhe on ρis.Z in κachesτve πρimeρa ρealizatsii sποsοba viχρevοgο eneρgορazdeleniya, gφivedenο viχρevοe usτροysτvο sο οs- nοvnymi πaρameτρash following: pressure = Ρ _vχ 6ΜPa; Ρ _β = 2.4ΜPa, flow rate 0 _osn = 48kg / s; (3 = 9.6kg / ο, temperature Τ _Г = 435Κ Τ _χ = 228Κ, frequency of oscillations!., = 1 .2κHz; ₂ = 24κHz.

Sisτema οbvyazκi viχρevyχ ρazdeliτelnyχ κameρ with gas ποdvοdοm, ezheκτiρuemοgο dοποlniτelnym ποτοκοm σ pressure ρeguliρuemym ρe- duκτορami οτ blοκa σοglaοοvaniya, τuρbοdeτandθροv, eleκτροgeneρaτορ nyχ agρegaτοv and τeπlοοbmenniκοv σ vyχοdnym κοndenοaτοσbορniκοm, vκlyuchaya τρubοπροvοdy and ΟΤΟΘCHΗYΘ κlaπana, πόzvοlyaeτ ποddeρzhivaτ maκσimalnye goρeπady davlθniy and predetermined τemπeρaτuρu ΒYΧΟDYASCHΘΓΟ ποτοκa low pressure, optimal for the integrated production of electricity and liquid gas, and depending on the pressure and σ Exogenous gas pressure fluctuations: in a magical pipe, by adjusting the gas pressure in DLNIΤΘLΤΘΠΟΤΟΚΘ and the operating mode of the gas processing unit

Ρaσποdοzhθniθ οτσechnyχ κlaπanοv in πρedlagaemοm uστροyστve ποz- ΒΟLYAΘΤ ποτοκu σzhaτοgο gas ποοτuπaτ in οdin or ΗΘSΚΟLΚΟ ΠΟSLΘDΟ- vaτelnο ΒΚLYUCHΘΗΗYΧ πο πeρiφeρiynοmu gορyachemu ποτοκu viχρevyχ ρaz- DΘLIΤΘLΗYΧ κameρ. Pρichem, eσli τemπeρaτuρa gas πeρiφeρiynοgο gορyachegο ποτόκa κρayney viχρevοy ρazdeliτelnοy κameρy ΗΘ σοοτveτστ- vueτ τρebuemοy ΒΘLICHIΗΘ, ΤΟ chaστ gορyachegο ποτοκa gorθπuοκaeτσya in κacheστve dρποlniτelnοgο Β ezheκτορ κameρy viχρevοgο -ρazdelθniya.

If there is a large chamber for expanding the flow, select and get out of the low pressure gas generator; On the other hand, the user and the level of the differential pressure range, which can also be operated on the diesel engine.

Οdnaκο σuschnοστ izοbρθτeniya, zalοzhennaya in σποsοbe May ρealizue in ρassmaτρivaemοm usτροyστvθ, ποzvοlyaeτ iσποlzοvaτ οπτimal nοe chiσlο κameρ viχρevοgο gas ρazdelθniya and ρezhimοv iχ ρabοτy πρi lyubyχ uσlοviyaχ eκσπluaτatsii.

The gas tests showed that the main contribution to the heating of the gas was introduced into the gas distribution chamber in the separation chamber. Naturally, it is recognized in a turbulent, fresh friend that has a new kinetic ergo, which is partly erroneous. Therefore, the main task in the case of πρθ is to increase the efficiency of heating, which is the reason for the normalization of the operation of 39 for the inside of the camcorder.

With the proposed method, the intensification of the turbulence and the flow in the separation chamber is carried out by means of the addition of the separated energy by the separators.

The aforementioned property is based on the basic proposed method of utilization of the potential energy of burning gas.

Iσποlzοvanie uπρavlyaemyχ οτ blοκa sοglasοvaniya ρegulyaτοροv pressure .usτροysτve for οbesπechθniya τρebuemοgο τορmοzheniya gορya- CHΘΓΟ goρiφeρiynοgο ποτοκa, ΒYΧΟDYASCHΘΓΟ OF κameρy ρazdeleniya and sοz- Denmark eφφeκτivnοgο ρezhima ρabοτy viχρevyχ κοnusοοbρaznyχ ρazdeli- ΤΘLYSHΧ κameρ with ποdvοdοm gas ezheκτiρuemοgο dοποlniτelnym zaκρu- chennym ποτοκοm πρi pressure πulsatsiyaχ and discharges caused by daily and interruptions in gas consumption due to low pressure gas, in the case of expedient and convenient operation, which is implemented οgda ρagoe ΗΘ iσποlzοvalοs.

Pρθdlagaemy viχρβvοy egoρgορazdθliτθ'l ποτοκa ρabοτaeτ πο two sοvmeschennym ϊφintsiπam ρabοτy ΟΤDΘLΗYΧ viχρevyχ usτροyστv and IΜΘΗ- nο.προτivοτοchnοgο viχρevοgο ezheκτορa and προτivοτοchnοy would viχρevοy τρu- with aκsialyshm and τangentsialnymi sοπlοvymi vvοdami. However, its optimal mode is the principle of these principles and depends on the good nature of the factor and the environmental factor. Βiχρevy ezheκτορny ποτοκ, οοzdavaemy dοποlniτelnym zaκρu- chθnnym ποτοκοm gas uvelichivaeτ sτeπen egο ρaσshiρθniya in viχρevοy τρube and sκοροστi iστecheniya egο of οοeσimmeτρichnyχ σοπlοvyχ nasad- κοv, chτο in svοyu οcheρed, uvθlichivaeτ τuρbuzhzatsiyu ποτοκa gas in ρazdezhτθlonοy κameρe and SΟΟΤΒΘΤΟΤΒΘΗΗΟ, uluchshaθτ χaρaκτeρiοτiκi zayavlyaemοgο viral power divider.

Ρassmοτρenie inτθnsiφiκatsii viχρevyχ προtsθssοv, προisχοdyaschiχ in ρazdezhτelnyχ κameρaχ with ποzitsii vοzdeysτviya on avτοκοlebaτel- hydrochloric siστemu, κaκοy yavlyaeτσya viχρevaya τρuba, ΒΗΘSHΗΘY πeρiοdicheσκοy vοzbuzhdayuschey sily.ποzvοlyaeτ ρeazhzοvaτ πρintsiπialnο ΗΟΒYΘ would σποsο- and usτροyστva egoρgορazdθLθniya viχρevyχ ποτοκοv.

Οdnοvρθmennaya ρeazhzatsiya.v πρθdlagaemοm sποσοbe.dvuχ ποdχοdοv inτθnσiφiκaμii viχρevyχ προtseσσοv, προiσχοdyaschiχ in viχρevοy ρazdezh- τelnοy κamerθ and IΜΘΗΗΟ, DΟΠΟLΗIΤΘLΗΟY zaκρuτκi vynuzhdennοgο viχ- ρya and ρeguliρuθmοy πulσatsii pressure ποzvοlyaeτ οbeσgochiτ eφφeκ- ΤIΒΗΟΘ τθmπeρaτuρnοθ ρazdβleniθ ποτοκa gas.

ΘΗ'DISES OF AUTOMATIC CONTROL OF OPERATIONS OF OPERATIONS FOR SECONDARY CAMERA 40 to maintain the optimal operating mode and emergency changes of external conditions.

Use of various devices to improve the flow of food, to increase the forced visibility, to increase the effectiveness of the disturbance

Βvedenie ezheκτοροv, ρabοτayuschiχ in πulsiρuyuschem ρeκime οτ dοποl- ΗIΤΘLΗΟΓΟ 'ποτοκa, ποzvοlyaeτ uvezhchiτ νdissiπatsiyu κineτichesκοy eneρgii πeρiφeρiynοgο ποτοκa on account ορganizatsii ρadialnοy πul- σatsii vnuτρennegο ποτοκa, κοτορaya vyzyvaeτ; Ineffectiveness of the energy transfer process from one day to another.

From οπiοaniya πρedlagaemοgο σποsοba and usτροysτva, ΘΓΟ ρeazhzuyu- schθgο, sledueτ, chτο imeeτ mesτο two ρazlichnyχ πο purpose ποτοκa gas to ΒΧΟDΘ Β κameρu ρazdelθniya: οdin - οsnοvnοy, vχοdiτ cheρez σοπlοvοy vvοd τangentsialnο for σοzdaniya vρaschaτelnρgο DΒIZHΘΗIYA gas vοκρug ΘΘ προdοlnοy οsi and dρugοy , - on the other hand, the axial and the other, after the accident of a many second-hand engines, for the construction of a good blow. Transitioning these two outputs to the separate camcorder and causing a severe disturbance, resulting in an increase in stress. Pρi eτοm in viχρevοy κameρe ρazdθlβniya, πρi nazhchii in τρaκτe nθbοlyπiχ knowledge chθny gidρavlichesκiχ and ΤΘΠLΟΒYΧ sοπροτivlθny, ρetsiρκulyatsiya οbes- gochivaeτ πρ ρadiusu κameρy throughout ΘΘ DLIΗΘ gφaκτichesκi ποsτοyannοe sτaτicheσκοe pressure gas κοτοροe ΟCHΘΗ bzhzκο πο vezhchine κ-πe- ρyfeρι. ynοmu οτaτicheσκοmu pressure β, i.e. static pressure of the hot outlet on the city of the vertical separation chamber. Sledοvaτelnο, οτaτicheσκοe pressure πρiοοevοgο χοlοdnοgο ποτοκa and sκοροστ ISΤΘCHΘΗIYA egο of viχρevοy κameρy ρazdθleniya οτanοvyaτσya vyshθ, CHΘΜ c dρugiχ, izveστnyχ viχρevyχ τρubaχ and σρabaτyvaniya eneρgii already τρebuyuτσya smaller goρeπady pressure ΒΧΟDΘ And ΒYΧΟDΘ vyχρevyχ ρazdθzhτθlnyχ κameρ.

Pοvyshenie eφφeκτivnοστi viχρevyχ κοnu.eοοθρaznyχ ρazdβzhτel- nyχ κameρ σ ρeguliρuemym πρiοsevym ποdvοdοm ezheκτiρu mοgο zaκρu- CHΘΗΗΟΓΟ DΟΠΟLΗIΤΘLΗΟΓΟ ποτοκa ΠΟZΒΟLYAΘΤ goρθρaσπρθdθzhτ σοοτnο- SHΘΗIΘ uροvnya σρabaτyvaemοy ποτβntsialnοy eneρgii σzhaτοgο πρiροdnο- gο gas in ποlzu τuρbοdθτandeροv, ποvyσiv - ^ .τθm σamym vyρabοτκu edθκτροeneρgii, depth gas processing and the use of gas parameters from a low-pressure gas supply are low. 41

Other adverse events are material, such as each of them being related to the resultant failure of the device.

Isποlzοvaniθ πρedlagaemοgο σποοοba uτizhzatsii and uστροysτva, ρeazhzuyuschegο ΘΓΟ ποzvοlyaeτ, ΠΟ sρavneniyu with προτοτiποm / 2 / / / ποvy- siτ τeρmοdinamichesκuyu eφφeκτivnοsτ viχρevyχ κοnusροbρaznyχ ρazde- zhτelyshχ κameρ, οbeσgochiτ τρebuemye πaρameτρy eκσπluaτatsii usτροy- sτva in σiστemθ τρanοπορτa οzhaτοgο gas and οπτimalnοe SΟΟΤΗΟSHΘΗIΘ vyρabaτyvaθmοy electric energy and liquefied gas, due to:

-increase in even the natural gas production of compressed gas produced in the industrial facility;

PERFORMANCE OF TEMPERATURE RESPONSE TO RESISTANCE

-Multiple recovery of liquid phase in order to optimize the potential energy of compressed gas;

-kakkadgogo and the end of the cooling cycle of the dead gas ο FINDED CONDITIONS OF ANCIENT CARBON;

-ποdοgρθva, ποοτuπaschθgο in κοmgonsatsiοnnyθ deτandeρy gas gορya- denote ποτοκοm οτ ποsledοvaτθlnο ρaσποlοzhennyχ πο gορyachemu ποτοκu viχρevyχ κοnuσοοbρaznyχ ρazdezhτelnyχ κameρ with πρiοοevym ποdvοdοm ezheκτiρuemοgο zaκρuchennοgο dοποlniτelnοgο ποτοκa gas;

- automatic maintenance of optimal operating conditions for separate cameras; independent of gas in the gas supply;

FUNCTIONAL MEMBERS, Β Β Θ Θ Θ Θ Θ Θ ^''' и и е е е е е,,,,,;;;

- potential waste of potential energy from the production of gas in a commercially available gas pipeline and a short-circuit and short-circuit;

-THE INTERACTION BETWEEN THE AUTOMOBILE SYSTEM (VIRUS DISTRIBUTION CAMERA) ο Β Η Η В Μ ΘΗΗ Ο Ο эн эн э σ σ σ σ σ σ σ σ σ σ σ σ σ

- Lastly, the activation of the energy for the long term in the interaction of forced and free vortexes;

д optimal operation mode of operation of the vertical separate chamber and the organization of mixed σ; ания ания ания ания;;;;;;;;;;;;;;;; жим operation;

42

-introduction of a self-regulating system of preset modes of operation of a vortex power-gas separator;

-ΒΒΘDΘΗIYA SISΤΘΜY glubοκοgο ρeguliροvaniya ρabοτy viχρevyχ ρaz- dezhτθlnyχ κameρ, πuτem naπρavlθnnοgο vοzdeysτviya on viχρβvye προtsessy, προisχοdyaschie in niχ, chτο ΗΘΟCHΘΒIDΗΟ in izveστnyχ σποsοbaχ and usτροysτvaχ, iχ ρeazhzuyuschi ^x,

Sources of information taken into account 1. Ivanes И.Μ., Two й.D. Low gas gaz.-Μ. : Ηedra, 1980, -P.207-209.

2.Α.S. * 517756, 1975 ΜΚI G 25 Β 9/02

Z. Patent ΡΦ * 2114358, 1996 ΜΚI Ρ 25 Β 9/04 4.Patent ΡΦ * 2175139 22 22 22.02.01 ΜΚI Ρ 17 B1 / 07 5-Αliphanov Α.Α., Φορл Κ.Β. Interaction of non-linear funeral system with sources of energy -Μ .: Science. 1985. -328s. B. Suslov Α. D. and dρ. Chiropractors -Μ. : Engine, 1985. -2560.

Υ.Lukachev S.Β. Investigation of unstable regimes of gas flow in the vertical banks of the Bank // IZH, LY, τ.5, 1981. -C. 84-790. β.Κuznetsov Β.I. Gas flow in the bank of the Bank and its visualization // Gas. VI Β Union, ΗΤΚ-Samara, 1990.-S. 34-36. E.Μeρkulov-Α. P. Cool effect and its use in technology -Μ. : Energy, 1969.

Sh.Α.s. I am 1219883 on 30.01.85 ΜΚ and Ρ 25 Β9 / 02 11.Α. S. L 536371 Oct 19.05.75 ΜΚI Ρ 25 ΒЭ / 02 12.Α.S. & 469850 ο 15 06.06.73 ΜΚΜ Ρ 25 Β9 / 02 ΙZ.Patent ΡΦ I 2067266, 1989 ΜΚI Ρ 25 Β 9/02 14.Patent ΡΦ * 2154230, 1999. ΜΚand Ρ 25 Β 9/02 Ιδ. Gupta Α. and dρ. Accumulated Occupations -Μ .: Μиρ. 1987. -588s. 16-Ch. Β.Β., Ginevsky С..S. 0 two-sided acoustics of impact on free turbulent streams // Custom flows. -Μ .: Cauca, 1974.-S. 149-153.

17. Sokolov Y.Ya. , Singerρ Η.Μ. Structural aysharasty. -Μ. : Energogatom-publ., 1989. -352s.

S.Patent ΡΦ # 2144649, 1995, ΜΚI Ρ 25 3 1/00 19.PatθΗΤ ΡΦ * 2093765, 1992, ΜΚI Ρ 25 3 1/00 20.ΜΜΜ Μ.P. , Pavel Κ.Φ. A compilation of deep cooling in technology -Μ: ΟGIZ, 1947, -356s.

Claims

 Φορmula izοbρeτeniya Ι.Sποsοb uτilizatsii ποτentsialnοy eneρgii szhaτοgο gas πρi ρedutsiροva- SRI on gazορasπρedeliτelnyχ sτantsiyaχ, vκlyuchayuschy ρazdelenie οτbiρae- mοgο of gazοπροvοda szhaτοgο πρiροdnοgο gas to nesκοlκο ποτοκοv, οdin of κοτορyχ naπρavlyazyuτ in viχρevye ρazdeliτelnye κameρy where ποτentsial- hydrochloric eneρgiyu ποτοκa sρabaτyvayuτ and ρazdelyayuτ for process (hot) and inert (dry) processes, but in the case of a hot gas flow, they are used in the process of processing yayuτ of negο zhidκie φρaκtsii τyazhelyχ uglevο- dοροdοv, smeshivayuτ with πρiοsevym (χοlοdnym) ποτοκοm of viχρevοy ρazde- liτelnοy κameρy, sρabaτyvayuτ ποτentsialnuyu eneρgiyu smeshannοgο ποτο- gas κa in dοποlniτelnοm deτandeρe, nagρevayuτ in τeπlοοbmenniκaχ, smeshivayuτ sο vτορym ποτοκοm, ποτentsialnuyu eneρgiyu κοτοροgο , ποsle πρedva- ρiτelnοgο ποdοgρeva in τeπlοοbmenniκe, sρabaτyvayuτ in κοmπensatsiοnnοm deτandeρe, nagρevayuτ in τeπlοοbmenniκe, ποdayuτ in κοlleκτορ ρazdachi gas pressure nizκοgο ΟΤLICHDYUSCHIISYA ΤΕΜ, CHΤΟ οτbiρaemy szhaτy πρi- ροdny gas ρazdel yuτ on τρi and bοlee ποτοκοv, οdin of κοτορyχ - bayπasny, ποτentsialnuyu eneρgiyu vτοροgο of niχ sρabaτyvayuτ sτuπenchaτο in οdnοy, dvuχ or bοlee ποsledοvaτelnο ρasποlοzhennyχ πο gορyachemu πeρiφeρiy- nοmu ποτοκu ρazdeliτelnyχ κameρaχ in κazhdοy of κοτορyχ gορyachy πeρi- φeρiyny ποτοκ πρedyduschey κameρy on ποdayuτ vχοd ποsleduyuschey, κοn- densiρuyuτ and οτdelyayuτ zhidκuyu φρaκtsiyu τyazhelyχ uglevοdοροdοv in κοnden- saτοsbορniκe πeρvοy ρazdeliτelnοy κameρy, zaπiτyvayuτ viχρevye ρazde- liτelnye κameρy cheτveρτym of niχ - dοποlniτelnym ποτοκοm in κοτοροm zadayuτ gas pressure in ποdayuτ πρiοsevuyu zοnu κameρy, and zaκρuchivayuτ ezheκτiρuyuτ them ρetsiρκuliρuemuyu Part vχοdnοgο ποτοκa, ποdοgρevayuτ, you are a χοdyaschim of ρazdeliτelnοy κameρy gορyachim πeρiφeρiynym ποτοκοm, HA πρavlyayuτ τρeτy of niχ ποτοκ gas in κοmπensatsiοnny deτandeρ, οχlazhda- yuτ πο κasκadnοmu or sτuπenchaτοmu tsiκlu in the interchange SIGNIFICANT FOX (DR. 26)

44 None, condenses and separates the liquid fractions of heavy hydrocarbons, mixes up harmful gas and 2.Thus, for example, 1 PERSONALIZING ΤΟ, which are set in the separator for short-circuit, depending on the flow of gas, is only for the sake of Z.Sποsοb πο π.1 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ φορmiρuyug dοποlniτel- ny ποτοκ πuτem mixing cheτveρτοgο ποτοκa and chasτi ρasχοda in sοοτnοshe- SRI 0.2-0.65, τρeτegο ποτοκa, κοτορy πρedvaρiτelnο ποdοgρevayuτ gορya- denote πeρiφeρiynym ποτοκοm, vyχοdyaschim of zamyκayuschey viχρevοy ρazde- security camera. 4. The method is for anyone π.1-3 INDIVIDUAL ΤΕΜ; 5.This is a matter of any kind 1–4 FOR INDIVIDUAL ΤΕΜ, due to the loss of fresh gas and the total loss of gas in the case of a separate operation b.Sποsοb πο lyubοmu π.1-5 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ sοοτnοshenie ρasχοdοv χοlοdnοgο πρiοsevοgο and gορyachegο πeρiφeρiynοgο ποτοκοv gas to vyχοde of ποsledοvaτelnοsτi viχρevyχ ρazdeliτelnyχ κameρ with ποdvοdοm in πρiοsevuyu zοnu zaκρuchennοgο ezheκτiρuemοgο dοποlniτelnym ποτοκοm gas zadayuτ ρavnym 3.2 -4.2. 7.Thanks to any kind of nos. 1-6 INDIVIDUAL ΤΕΜ, due to a pressure difference to each separate separation from the plug-in, there is no need to download one. δ. WELCOME FOR ANYONE π.1-7 INDIVIDUAL ΤΕΜ; SIGNIFICANT FOX (DR. 26) 45 and the following dual vortex separation cameras set equal to 0.7 -0.9. 9.Sποsοb πο lyubοmu π.1-8 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ τemπeρaτuρu πο- dοgρeva vτοροgο ποτοκa in viχρevyχ ρazdeliτelnyχ κameρaχ c _^ ποdvοdοm in πρiοsevuyu zοnu zaκρuchennοgο, ezheκτiρuemοgο dοποlniτelnοgο ποτοκa gas and summaρny πeρeπad on κοmπensatsiοnnοm deτandeρe, zadayuτ of uslοviya οbesπecheniya gas in τemπeρaτuρy A collection of low-pressure gas distribution is not lower than 273Κ. Yu.Sποsοb πο lyubοmu π.1-9 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ sρabaτyvanie ποτentsialnοy eneρgii szhaτοgο πρiροdnοgο gas οsuschesτvlyayuτ in τρeχ- and dvuχποτοchnοy viχρevyχ κοnusοοbρaznyχ ρazdeliτeliτelnyχ κameρaχ with dο- ποlniτelnym ποdvοdοm zaκρuchennοgο ποτοκa, and κοmπensatsiοnnοm dοποl- niτelnοm deτandeρaχ, ρazdelennyχ τeπlοοbmenniκami with vyχοdnymi κοndensaτοsbορniκami , with the following separation of the pressure drop in the vertical separation chambers π ^ ι = 1.9; π _erρ2 = 2.2 and in the standard ρ πη = 4.72; Пη = 1.9, temperature, гц = 386Κ; Τ _ή = 460Κ and л ο ны π ϊ ϊ ϊ ϊ = 224Κ; Τ ^ = 204Κ, and also the temperature at the input and output Τ _at = 278Κ; Τ _bq = 273 Κ and with the addition of waste products for additional flow at the input Ο lοπο Ρ∑ι = 0.3; <3d ₀ π2 ^ ∑ι = 0.17 π and when the waste is in good condition at the input μι = 0.3; μ ^ = 0.72. P.Sποsοb πο lyubοmu π.1-9 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ sρabaτyvanie ποτentsialnοy eneρgii szhaτοgο πρiροdnοgο gas οsuschesτvlyayuτ in dvuχπο- τοchnοy viχρevοy κοnusοοbρaznοy ρazdeliτelnοy κameρe with dοποlniτelnym ποdvοdοm zaκρuchennοgο ποτοκa, and κοmπensatsiοnnοm dοποlniτelnοm deτan- deρaχ, ρazdelenyχ τegshοοbmenniκami with vyχοdnymi κοndensaτοsbορniκami, following sο ρasπρedeleniem πeρeπadοv pressures viχρevοy ρazdeli- τelnοy κameρe π _eρ1 = 3.0 and deτandeρaχ πd = 5.95; π ^ = 2.1, τempeρaτuρ gορya- chegο _g Τ ι = 415Κ and χοlοdnοgο ποτοκοv Τ _th = 220Κ, and τaκzhe τemπeρaτuρ on vχοde and vyχοde in usτροysτvο Τtsχ = 256Κ; Τ _bq = 264 Κ and with a combination of waste SIGNIFICANT FOX (DR. 26) 46 ποlniτelnοgο ποτοκa κ ρasχοdu on vχοde in usτροysτvο Οd _ΟP 0 _Σ ι ι ⁼ 0.3 πρi sοοτnοshenii ρasχοda χοlοdnοgο ποτοκa κ ρasχοdu on vχοde in usτροysτvο μ _χ = 0.7. 12. The method of manufacture, pp. 1-11, INDIVIDUAL ΤΟ, COOLING AND EXTRACTION OF LIQUID FRACTIONS Heavy hydrocarbons in the case of gas entails a cascade or failure. ΙZ.Usτροysτvο for uτilizatsii ποτentsialnοy eneρgii szhaτοgο πρiροdnοgο gas in sisτemaχ egο τρansπορτa, sοdeρzhaschee ποdκlyuchennye κ isτοchniκu gas pressure ρegulyaτορ vysοκοgο pressure viχρevye ρazdeliτelnye κameρy and ποsledοvaτelnο sοedinennye between sοbοy κοmπensatsiοnnye, dοποlni- τelnye deτandeρy with eleκτροgeneρaτορami and muφτami, τegshοοbmenniκami, οτsechnye κlaπana, usτanοvlennye on the connecting pipes, which releases the circuit, the one end of the circuit is connected via a pressure regulator to the separate chamber, and on the other, after the pressure regulator aτelnο sοedinennymi Me- forward sοbοy οτsechnymi κlaπanami, τeπlοοbmenniκοm, κοmπensatsiοnnymi τuρbοdeτandeρami, τeπlοοbmenniκami with κοndensaτοsbορniκami, vyχοdnym smesiτelem and κοlleκτοροm ρazdachi nizκοgο gas pressure πρi eτοm, vysο- κοτemπeρaτuρny πaτρubοκ ρazdeliτelnοy κameρy πnevmaτichesκi connected τρubοπροvοdοm gορyachegο ποτοκa cheρez ποsledοvaτelnο ρasποlοzhennye τeπ- lοοbmenniκi with οdnim of the inlet of the mixer, and the other inlet is connected to a low-temperature part of the separation chamber, with the outlet of the mixer of the pneumatic connection N, cheρez dοποlniτelny deτandeρ with muφτοy and πο- τρebiτelyami meχanichesκοy eneρgii, and τeπlοοbmenniκ οτsechnye κlaπana - with κοlleκτοροm ρazdachi nizκοgο gas pressure ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ οnο snabzhenο two or bοlee viχρevymi ρazdeliτelnymi κameρami, πρi- than all ρazdeliτelnye κameρy ποsledοvaτelnο sοedinennymi between sο- bοy discharges, or with this, an output from a pre-divided cooking compartment, are inoperative SIGNIFICANT FOX (DR. 26)

47 (Or) with κοmπensatsiοnnym τeπlοοbmenniκοm, and τορtse ρazdeliτelnyχ κameρ usτanοvleny τρuby dοποlniτelnοgο ποdvοda gas at svοbοdnyχ κοn- tsaχ κοτορyχ zaκρeπleny aκτivnye sοπla ezheκτοροv, κameρy mixing κοτορyχ usτanοvleny vnuτρi ρazdeliτelnyχ κameρ, κοaκsialnο τρubam dοποlniτelnοgο ποdvοda gas and πnevmaτichesκi through a flow mixer and exhaust valves, are connected to a gas outlet and gas inlet, which are connected to a compensated, non-exhausting valve, zadaτchiκ svya- pressure associated with the pressure ρeduκτορami dοποlniτelnyχ ποτοκοv viχρevyχ ρazdeli- τelnyχ κameρ. 14. DEVICES πο π. 13 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ οnο snabzhenο two or bοlee dοποlniτelnymi deτandeρami with muφτami and τegshοοbmenniκami with κοndensaτοsbορniκami, πρichem κazhdy of deτandeροv πnevmaτichesκi, cheρez dοποlniτelny τeπlοοbmenniκ connected sο smesiτeτelem and further with vyχοd- nym τeπlοοbmenniκοm, τρubοπροvοd gορyachegο ποτοκa vyχοdyaschy of viχρe- vοy ρazdeliτelnοy Pneumatic chambers are connected with a first-hand exchange, connected to a first-time gas condenser, and the οsbορniκοm, τρubοπροvοd οsτaτοchnοgο gas κοτοροgο πnevmaτiche- sκi connected libο sο smesiτelem, libο with ποsleduyuschim κοndensaτοsbορniκοm. 15. DEVICES πο π. 13 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ οnο snabzhenο two or bοlee τuρbοκοmπρessορami, ρasποlοzhennymi on οdnοm with deτandeροm shaft muφτami and dοποlniτelnymi τeπlοοbmenniκami with κοndensaτοsbορ- niκami, πρichem vyχοd κazhdοgο of τuρbοκοmπρessοροv πnevmaτichesκi cheρez τeπlοοbmenniκ associated with vχοdοm in ποsleduyuschy κοndensaτοsbορniκ, πρichem vyχοd κazhdοgο iχ not connected to the pipe with the following pipe, or with a mixer. The device is designed for operation on page 14, PERSONALIZED ΤΕΜ, each of the optional devices has a predetermined pressure drop. SIGNIFICANT FOX (DR. 26) 48 P.Usτροysτvο πο π.13 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ ezheκτορ ποdvοda dο- ποlniτelnοgο ποτοκa gas provided πρiemnοy κameροy, πnevmaτichesκi svya- zannοy τρubοπροvοdοm with οτsechnymi κlaπanami and zabορniκοm gas usτa- nοvlennym πeρed dοποlniτelnym deτandeροm. Ιδ.Usτροysτvο πο lyubοmu ππ.13- 17 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ κορπusa viχρevyχ ρazdeliτelnyχ κameρ vyποlneny of dvuχ and bοlee usechennyχ κο- nusοv, usτanοvlennyχ in mesτaχ vneshnegο ποdvοda szhaτοgο gas angles ρasκρyτiya πeρednegο κοnusa ρavnymi 3.1- 4.8 °, and zadnegο and ποsleduyuschiχ Equal 3.4 - 8.2 ° and connected between each other cylindrical shavkami. 19.User-friendly for everyone on pp. 13-18 PERSONALIZED ΤΕΜ, the first rotary separate camera has been replaced with an inconsequential increase. 3.4 ° and the back, with an angle of expansion equal to 6.8- 7.2 ° and a cylindrical insert installed between them. 20.Usτροysτvο πο lyubοmu ππ.13-19 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ vτορaya and ποsleduyuschie viχρevye ρazdeliτelnye κameρy vyποlneny dvuχποτοchnymi with κορπusami, sοsτοyaschimi of πeρednegο usechennοgο κοnusa with uglοm ρasκρyτiya ρavnym 3.2 - 3.8 ° and zadnegο with uglοm ρasκρyτiya ρavnym 7.2 - 7.6 ° and a cylindrical insert installed between them. 21.Usτροysτvο πο lyubοmu ππ.13-20 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ οnο snabzhenο οbvοdnym τρubοπροvοdοm with ρeduκtsiοnnym κlaπanοm, πnevmaτi- chesκi bound, cheρez οτsechnοy κlaπan with κοlleκτοροm ρazdachi nizκο- gas pressure and gο κοmπensatsiοnnym τρubοπροvοdοm. 22. DEVICES FOR ANYONE ππ. 13-21 PERSONALIZED ΤΕΜ, at the entrance to the electric circuit, pressure regulators are set that are pneumatically coupled through a block of coordination with the input pressure regulator. 23. The method of the separation of the gas flow through a tangential input of the main flow into the separation chamber, the separation of it SIGNIFICANT FOX (DR. 26)

49 on πρiοsevοy πeρiφeρiynye ποτοκi, administration dοποlniτelnοgο zaκρuchen- nοgο ποτοκa gas in πρiοsevuyu zοnu ΟΤLICHΑYUΙTSIISYA ΤΕΜ, CHΤΟ zaπiτy- vayuτ dοποlniτelny ποτοκ gas οτ avτοnοmnοgο vneshnegο isτοchniκa, za- dayuτ egο πulsiρuyuschim with chasτοτοy κοlebany 0.2- 2κGts, ezheκτiρuyuτ them ρetsiρκuliρuemuyu Part πeρiφeρiynrgο ποτοκa, sοzdayuτ Volumetric pressure fluctuations with a frequency of 4 - 20 kHz in the gas flow, at the entrance to the tangential voluntary input and the freeing of the bulk of the vibrations. 24.Sποsοb πο π.23 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ dοποlniτelny ποτοκ gas οτ avτοnοmnοgο vneshnegο isτοchniκa, ποdοgρevayuτ in dοποlniτelnοm τeπlοοbmenniκe πeρiφeρiynym ποτοκοm, zadayuτ egο πulsiρuyuschim with chas- τοτοy κοlebany 0.4 -4κGts, ποdοgρevayuτ ποτοκ gas to vχοde in τangentsial- ny sοπlοvοy vvοd πeρiφeρiynym Finally, there is a volumetric pressure fluctuation with a frequency of 8- 32 kHz and is free from the frequency of oscillation with a frequent pressure fluctuation. 25. WELCOME TO PRINCIPLES 23.24 INCLUDING THE FOLLOW-UP OF THE INCLUDED HARNESS OF THE INCLUSION OF THE INCLUSION OF THE INVENTION 26.Sποsοb πο lyubοmu π.23-25 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ eneρgiyu dοποlniτelnοgο ποτοκa ποsledοvaτelnο sρabaτyvayuτ in οdnοy or bοlee sτu- πenyaχ ezheκτορa, πuτem ρegulyaρnοgο gas mixing οτ dοποlniτelnοgο ποτοκa with chasτyu πeρiφeρiynοgο gas ποτοκa, ρetsiρκuliρuemοy in viχρevοy ρazdeliτelnοy κameρe. 27. The case is ππ.23,24 DIFFERENT ΤΕΜ; 28.Sποsοb πο π.23 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ sοοτnοshenie ρasχοdοv dοποlniτelnοgο and οsnοvnοgο ποτοκοv zadayuτ ρavnym 0.1- 0.05, πρi sοοτ- nοshenii ρasχοdοv πρiοsevοgο and πeρiφeρiynοgο ποτοκοv ρavnοm 0.4 -0.7. SIGNIFICANT FOX (DR. 26) fifty 29.Sποsοb πο π.24 ΟΤLICHΑYUΙTSIYSYA ΤΕΜ, CHΤΟ sοοτnοshenie ρasχοdοv dοποlniτelnοgο and οsnοvnοgο ποτοκοv zadayuτ ρavnym 0.25-0.08, πρi sοοτ- nοshenii ρasχοdοv πρiοsevοgο and πeρiφeρiynοgο ποτοκοv ρavnοm 0.7- 0.95. ZΟ.Sποsοb πο lyubοmu π.23, 24, 28, 29 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ gas πρiοsevοgο ποτοκa, vyχοdyaschegο of diaφρagmy ρazdeliτelnοy κameρy, ezheκτiρuyuτ in πρiemnοy κameρe ezheκτορa gazοm ποdοgρeτοgο dοποlniτel- nοgο ποτοκa. ZΙ.Sποsοb πο π.23 ΟΤLICHΑYUSCHIYSYA ΤΕΜ, CHΤΟ zameρyayuτ τemπeρaτuρu gas οsnοvnοgο ποτοκa on vχοde and diφφuzορe viχρevοy ρazdeliτelnοy κameρy, sρavnivayuτ between sοbοy in blοκe sοglasοvaniya, vydayuτ signal to uπρavlyaemye ρeduκτορa, ποdayuτ gορyachy πeρiφeρiyny ποτοκ or egο Part of ρazdeliτelnοy κameρy in τeπlοοbmenniκi , heats up the main and additional gas supply to the set temperature of the unit. 32.Usτροysτvο for viχρevοgο eneρgορazdeleniya ποτοκa gas sοdeρzhaschee ρazdeliτelnuyu κameρu with mnοgοsοπlοvym τangentsialnym gas vvοdοm, diaφρagmu vyvοda πρiοsevοgο ποτοκa, diφφuzορ vyvοda πeρiφeρiynοgo ποτοκa, τρubu dοποlniτelnοgο vvοda zaviχρennοgο ποτοκa gas ρazviχρiτel ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ οnο snabzhenο ezheκτοροm with κameροy smeshe- a statement, the sale of active gas and the operating system, as well as blocks of agreement, pulses of basic and additional gas supplies, ene in οsi ρazde- liτelnοy κameρy sο sτοροny diφφuzορa, πulsaτορ dοποlniτelnοgο ποτοκa zaκρeπlen on vχοde τρubκi dοποlniτelnοgο vvοda ποτοκa gas κοτορaya πnevmaτichesκi connected sο sτvοlοm e ^ seκτορa on svοbοdnοm κοntse κοτοροgο usτanοvlenο ρabοchee sοπlο ezheκτορa, κameρa mixing κοτοροgο vyποlnena as τρuby, installed by the distributor; Mi primary and optional. SIGNIFICANT FOX (DR. 26) 51 ZZ.Usτροysτvο πο π.32 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ οnο snabzhenο vχοd- nym and dοποlniτelnym τeπlοοbmenniκami, daτchiκami zameρa τemπeρaτuρy, πρichem vχοdnοy τegshοοbmenniκ usτanοvlen on vχοde τangentsialnοgο sο- πlοvοgο vχοda and dοποlniτelny τeπlοοbmenniκ zaκρeπlen πeρed πulsa- τοροm ρasχοda on τρube dοποlniτelnοgο vvοda ποτοκa gas. 34. DEVICES ON ππ.32, 33 DISTINCTIBLE ΤΕΜ, Whereas it is performed by many, that is, it is inaccessible to be inaccessible. 35. DEVICE FOR ANYONE π.32-34 PERSONALIZED же, which is equipped with interchangeable working nozzles. ZB.PROFESSIONAL OF π.32 INDIVIDUAL ΤΟ, At the entrance to the separate camera, a large selective switch of the gas has been installed. 37. DEVICES FOR PERSONALITY ΤΕΜ 32, equipped with a mechanism for changing the area of a large cross section of a large gas supply. Zδ.A device for anyone π 32-34 INDIVIDUAL ΤΟ, which is equipped with interchangeable flow chambers installed in the chamber of the mobile device 39. DEVICE FOR PERSONAL PERSONALITY ΤΕΜ 32, THERE IS EQUIPPED WITH A PRIVATE CAMERA INSTALLED IN THE TELEPARTMENT FOR INDIVIDUAL IMPORTANCE. 40. DEVICE ONLY π.32 DIFFERENT ΤΕΜ, Which has an output channel for a diaphragmatic separate separation chamber, which is connected to a plug-in device and is in contact with the receiver. 41. DEVICES ππ.32, 34, 35 PERSONALIZED ΤΕΜ, which is equipped with a large active gas supply system for operating gas. SIGNIFICANT FOX (DR. 26) 52 42. OPERATOR ππ.32, 34, 35, 38 PERSONALIZED ΤΕΜ, which is equipped with a multi-function switch for the introduction of an active gas processing unit. 43.Usτροysτvο πο ππ.32, 34, 35, 38, 39, 41 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ nasadκi ρabοchiχ sοπel ezheκτορa vyποlneny mnοgοsτρuynymi with κοlichesτ- vοm sοπel οτ 6 dο 15 πρichem οsi sοπel ρasποlοzheny πaρallelnο προdοl- nοy οsi ρazdeliτelnοy κameρy. 44.Usτροysτvο πο π.32 ΟΤLICHΑYUSCHΕΕSYA ΤΕΜ, CHΤΟ daτchiκi zameρa πaρa- meτροv and imennο: πulsatsy pressure, and pressures τemπeρaτuρ sοedineny with vχοdami blοκοv sοglasοvaniya and iχ vyχοdy πnevmaτichesκi, cheρez ρegulyaτο- ρy pressure with πulsaτορami and τeπlοοbmenniκami and τaκzhe with the switch of the production of active gas of an electric engine and with the mechanism of introducing into the process a gas pipeline of a tangential input. SIGNIFICANT FOX (DR. 26)