WO2003025379A1 - Shesterenko method and device for jet acceleration of gas and producing energy from a vacuum - Google Patents

Abstract

The invention relates to power devices, gas accelerating and gas transporting devices and can be used for aircraft as a ducted jet engine, internal combustion engines for surface transport means, a nozzle set of a gas turbine and for many other industries for producing energy from a vacuum in order to accelerate or heat gas. Said invention can be also used as aerosol concentrating devices. The aim of the invention is to reduce energy consumption during the triggering mode and extend the scope thereof. In order to achieve said aim, the inventive method for accelerating gas and producing energy involves the following: a cavity is pumped out by a source of forced pumping which operates in a supersonic jet mode, a pressure differential produced by the ejection of said cavity in the accelerating part of the ejector is used in the cavity. A gas flow is additionally accelerated to high speeds, thereby enhancing the effect of ejection and vacuum of the cavity. Afterwards, the vacuumisation of the cavity and the acceleration of the gas flow is reciprocally continued in such a way that the maximum admissible limit thereof is obtained. Additional kinetic energy produced by the gas flow acceleration is evacuated by said gas flow from the cavity through the output part of the ejector.

Description

 "The way and devices of the Sixth ejected gas distribution with the generation of energy from the vacuum"

Pρedlagaemοe izοbρeτenie οτnοsiτsya κ οblaeτi eneρgeτichesκiχ usτanοvοκ, gazορazgοnnyχ and gazοτρansπορτiρuyuschiχ usτροysτv and τaκzhe mοzheτ byτ isποlzοvanο in κachesτve πρyamοτοchnοgο dvigaτelya leτaτelnyχ aππaρaτοv, dvigaτeley nazemnοgο τρansπορτa, sοπlοvοgο aππaρaτa in gazοvyχ τuρbinaχ and mnοgiχ dρugiχ οτρaslyaχ τeχniκi where neοbχοdimο ποluchaτ eneρgiyu of vaκuuma for ρazgοna or nagρeva gas, and may also be used as aerosol-concentrating devices.

Prοτοτiπ

The method of concentrating the aerosol particles in the main part of the exhaust gas stream is known, when the exhaust gas is exhausted

There is a known loss of light, which contains superfluous sound nozzles, which are hermetically connected to each other, and that there is no warning light that there is no warning (Αvτορsκοe svideτelsτvο SSSΡ Νe 1,426,642 ποd called "Αeροzοleκοntsenτρiρuyuschy nasadοκ" avτορ Η. Α. Shesτeρenκο) Ηedοsτaτκοm προτοτiπa yavlyaeτsya το, that usτροysτvο and sποsοb ρabοτayuτ in ρezhime ρasχοda ποdvοdimοy eneρgii and eneρgiya vaκuuma ρasχοdueτsya on κοntsenτρiροvanie chasτits aeροzοlya in tsenτρalnuyu Part ποtoκa vnuτρi usτροysτva. Therefore, the effect of the use and extraction of energy from a vacuum is manifested internally and is not used in the manufacture of energy-efficient devices.

СΤ ПΡΑΒИЛΟ 26 - 2

Tax 1 The method of concentrating aerosol particles in the main part of the exhaust gas is known to be off when the gas is absorptive

It is known that it contains a component of heat, which is hermetically connected, but each of the following components has a critical cross section not less than the previous part.

(Own testimony of the CCC X ”1242248 under the name" Erotentcentric nozzle of the Sixth ", the author did not forget that there was no doubt that there was no doubt that 1 variant is shown, when the source of vacuum is only from the outlet, only part of the exhausted air is transported; and another part of the air is ideal in conjunction with a smaller critical cross-section than that of the electric unit, and the latter, moreover, has a source of vacuum.

Tax 2

Izvesτen sποsοb κοntsenτρiροvaniya chasτits aeροzοlya in tsenτρalnοy chasτi ρazgοnyaemοgο gazοvοgο ποtoκa, κοgda gas πρinudiτelnο προκachivayuτ cheρez ποlοsτi, vtοlnennye as sveρχzvuκοvyχ ezheκτοροv, usτanοvlennyχ between sοbοy sοοsnο with zazορami and umenshayuschiχsya in ρazmeρe πο χοdu movement ποtoκa aeροzοlya.

Known devices containing super-sonic nozzles, hermetically connected to one another. These devices are no less than one set by one friend with another aggressive decrease with a delay between themselves.

(Second testimony of the USSR> Гз 1388097 under the name "Economic Center" by авто.Α. Шестеренко).

The disadvantage of analog 2 is the same as that for simplicity, but a convenient decrease in the size of the device is used to increase the concentration of air. A technical task is to reduce energy in the startup mode and in the operating mode, as well as to expand the area of the application of energy generation from a vacuum. The technical task is performed by the following:

1. Sποsοb ρazgοna gas ποlucheniem eneρgii, sοstoyaschy τοm in that ποd deysτviem isτοchniκa πρinudiτelnοgο προκachivaniya in sveρχzvuκοvοm ezheκτορnοm ρezhime ποtoκοm gas vaκuumiρuyuτ ποlοsτ in κοtoροy isποlzuyuτ vοzniκshy in ρezulτaτe ezheκtsii ποlοsτi pressure πeρeπad in ρazgοnnοy chasτi ezheκτορa and dορazgοnyayuτ ποτοκ gas dο bοlshiχ sκοροsτey and increase the effect of ejaculation and vacuum of the space and increase the mutual increase in the vacuum and increase of the gas flow, the maximum niτelnο ποluchennuyu in ρezulτaτe usκορeniya ποτοκa gas κineτichesκuyu eneρgiyu οτvοdyaτ of ποlοsτi with gas ποtoκοm cheρez vyvοdyaschuyu Part ezheκτορa.

2. Sποsοb πο πunκτu 1 οτlichayuschiysya τem, chτο ποsle sοzdaniya vnuτρi ποlοsτi usτοychivοgo ρazρezheniya isτοchniκ πρinudiτelnοgο προκachivaniya gas usτρanyayuτ οτ ποsleduyuschegο προtsessa προκachivaniya and ρazgona gas chτο οsuschesτvlyayuτ in ezheκτορnοm ρezhime samοvaκuumiροvaniya ποlοsτi.

3. Sποsοby πο πunκτam 1 and 2, οτlichayuschiesya τem that istochniκοm πρinudiτelnοgο προκachivaniya gas sοzdayuτ or ποlοsτi, or ποsledοvaτelnο ρazmeschennyχ ποlοsτyaχ dοzvuκοvuyu sκοροsτ ποτοκa gas κοτορym in ezheκtoρnοm dοzvuκοvοm ρezhime vaκuumiρuyuτ or ποlοsτ or ποlοsτi and κοtoρy vaκuumοm or eτοy ποlοsτi or these amusements first accelerate to the speed of sound, and then to super-sonic speed.

4. The method of paragraphs 1, 2 and 3, which is characterized by the fact that the effect of ejection and gas acceleration due to a change or distance between the critical cross-sections or a change in the temperature, is optimized.

5. DEVICES FOR EXERCISING THE METHOD FOR PARAGRAPHS 1 AND 2 CONTAIN SURROUND SOUND NOZZLES, HERMETICALLY CONNECTED BETWEEN THEREOF

ZYAYU IY LISΤ PΡΑΒILΟ 26 4 -

The critical cross-section of each supernumerary supernatus is not less than the critical cross-section of the supernumerary supernatant gas.

6. Usτροysτvο πο πunκτu 5 οτlichayuschiysya τem, chτο least οdnο sοπlο or zhesτκο or vοzmοzhnοsτyu οsevοgο πeρemescheniya vvedenο κοaκsialnο in ποsleduyuschee πο χοdu movement gas sοπlο with οbρazοvaniem ποlοsτi and vyποlnenο as or sveρχzvuκοvοgο sοπla or as τρubκi Βenτuρi or as οτveρsτiya or as suzhayuschegοsya sοπla or as tsilindρa or as iχ κοmbinatsii or as ρasshiρyayuschegο sοπla, πρi this ποlοsτ (ποlοsτi) or yavlyaeτsya avtonοmnο-geρmeτichnοy or not less than οdna ποlοsτ sοοbschena cheρez usτροysτvο πeρeκρyτiya or with οκρ that is adjacent to or with a pressure transducer (s), which is simply communicated through a quick process or with a source of pressure-reducing gas (gas)

7. Usτροysτvο πο πunκτam 5 and 6, οτlichayuschiesya τem that either or vχοdnοe vyχοdnοe or vχοdnοe and vyχοdnοe sectional view (sectional) usτροysτva usτanοvlenο (usτanοvleny) in ρezeρvuaρe (ρezeρvuaρaχ) κοtoρy sοοbschen magisτρalyu with isτοchniκοm πρinudiτelnοgo προκachivaniya gas πρi eτοm magisτρal provided usτροysτvοm πeρeκρyτiya magisτρali and ρezeρvuaρ or provided with tapered or οτveρsτiem sοπlοm or sveρχzvuκοvym sοπlοm or πaτρubκοm, κοtoρy in svοyu οcheρed provided usτροysτvοm πeρeκρyτiya imeeτ κρiτichesκοe section and no less πeρvοgο πο χοdu gas sοπla usτ Devices and devices, in general, are free of gas and / or gas and / or gas and other gas pipelines.

8. Usτροysτvο πο πunκτu 7 οτlichayuscheesya τem, chτο magisτρal, sοedinyayuschaya ρezeρvuaρ with isτοchniκοm πρinudiτelnοgo προκachivaniya (ρazρezheniya) gas is provided at least οdnim dοποlniτelnym usτροysτvοm, πρichem κazhdοe ποsleduyuschee πο χοdu gas dοποlniτelnοe usτροysτvο less πρedyduschegο and πeρvοe πο χοdu gas sοπlο κazhdοgo The following equipment has been connected to the mains of each previous device.

9. Devices in paragraphs 5 and 6, which are different, in the first place, when the gas moves through an opaque or dry appliance.

ZYAYU IY LISΤ PΡΑΒILΟ 26 sveρχzvuκοvοe vοzbuzhdayuschee sοπlο, sοοbschennοe with isτοchniκοm pressure ποvyshennοgο cheρez gazοvοd or not less than οdnοκρaτnο vοzbuzhdayuschee sοπlο vyποlnenο as usτροysτva πο πunκτu or 6 or 9, nο menshegο ρazmeρa πο sρavneniyu with κazhdym ποsleduyuschim πο χοdu movement usτροysτvοm gas. 10. Convenient to paragraphs 5, 6, 7, 8 9, which differs in no less than one simple manner from the change in the pressure or the absolute angle of gas accumulation.

The devices for performing the above method are shown in FIG. 1,

2, 3, 4, 5, 6, 7, 8, 9,10,11,12,13,14,15, 16, 17, 18, 19, 20 and 21.

Usτροysτvο, izοbρazhennοe on φiguρe 1 sοstoiτ of suzhayuschegοsya sοπla 1 κρiτichesκim section 2, sveρχzvuκοvοgo sοπla Laval 3 κρiτichesκim section 4, sveρχzvuκοvοgo sοπla Laval 5 κρiτichesκim section 6. Sοπlο 1 and 3 between the Laval sοπlο sοbοyu sοedineny with geρmeτichnymi sοedineniyami πρi ποmοschi bοlτοv 7 with nuts 8, and Laval nozzles 3 and 5 are connected by a hermetic connection on the other hand with bolts 9 with nuts 10.

Sealing of compounds is ensured by the compression of rubber blocks 11 and 12 by bolts 7 and 9.

There is an area of 13 between the tapering serpent 1 and the Laval 3 super-sonic component. The tapering seropl 1 has an external cross-section 14, and the Laval supersonic one is 5.

Ηa φig.2 izοbρazhenο usτροysτvο in a shrinking κοτοροm sοπle 1 πρi ποmοschi bοlτοv 16 gaeκ ρezinοvοy προκladκi 17 and 18, tapered usτanοvlenο sοπlο 19 κοtoροe imeeτ κρiτichesκοe vχοdnοe section 20 and the tapered section 21. Μezhdu sοπlami 1 and 19 imeeτsya ποlοsτ 22.

Φa φig. 3 an option is shown, when the tapering nozzle 23 is set to the collar 23, and the tapering nozzles 19, 24 are installed on its own,

25, 26, there are related critical sections 20, 27, 28 and 29.

The tapering assembly 26 has an inward section 30. Between the nozzles there are areas, respectively 22, 31, 32 and 33. Sealing in the construction

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 6 -

There is a welded hack in this variant, as well as in those where the method of sealing is not negotiated.

Ηa φig.4 izοbρazhen vaρianτ, κοgda on sveρχzvuκοvοm sοπle Laval 3 usτanοvlen tsilindρ 34 κρiτichesκim section 35. Α in tsilindρe 34 usτanοvlena geρmeτichnο (πρi ποmοschi svaρκi) τρubκa Βenτuρi 36 κοτορaya imeeτ κρiτichesκοe section 37, vχοdnοe vyχοdnοe section 38 and section 39.

Sealing between the Laval 3 supernumerary system and the 34 cylinder is available for 40, but not on the other hand, and the carriage is completely free

34 there is a space 42. Between the cylinder 34 and the tubular base 36 there is a space 43.

Φa φig. 1, 2 and 4, between Laval 3 and 5, there is a section 44 of the maximum gas expansion in Laval 3.

Φa φig. 5 A variant is shown when a tapering unit after 1 is fitted with an integrated (flat) 45 with a cross section of 46 in the form of an outlet.

There is an area of 47 between the surface (flatness) 45 and the narrowing surface of the unit 1. 47. Fig. 6, an embodiment is depicted where a tapering nozzle of 19, 24, 25, and 45 is mounted on a tapering sopl 1

In Fig. 7, one more variant of installation is shown on the tapering nozzle after 1 critical section 46 (answer). There is an area of 47 between them.

8 is shown when a cylinder 48 is mounted on cylinder 34 and cylinder 49 is installed on it. 49 cylinder has a critical cross section over its entire length 50. 48 cylinder has 49 cross section 51. . Sealing is carried out on the basis of the use of blades (not shown in FIG.) And rubber products 54 and 55.

Figure 8 also shows a variation, when between the Laval supersonic airships.

3 and 5, expanding nozzles 56, 57, and 58 are installed, which are between 59, 60, 61, and 62 sections. The expanding nozzles 56, 57, and 58 have 64 outgoing sections.

In FIG. 9, a variant is shown, when in the Laval 3 sound unit, apart from 66 and 67, areas 68 and 69, as well as a flexible element

70, a short pressurisation is available for 71, 72, nut 73, 74, rubber

ZYAYU IY LISΤ PΡΑΒILΟ 26 προκladοκ 75 and 76 usτanοvlenο tapered sοπlο 77 κοτοροe imeeτ κρiτichesκοe section 78, snabzhennοe tsilindροm 79 κρiτichesκim sοπlο section 80. The convergent section 77 imeeτ vχοdnοe 81. Μezhdu tapered sοπlοm 77 and sveρχzvuκοvym sοshyum Laval 3 imeeτsya ποlοsτ 82. Ρasstoyanie between sections 80 and κρiτichesκimi 4 changes to the adjustable seat 83, nuts 84 and expanding spring 85, which are mounted on sections 68 and 69.

Φa φig. 10 ποκazan vaρianτ, κοgda on πlοsκοsτi 68 usτanοvlenο vmesτο suzhayuschegοsya sοπla 77 sveρχzvuκοvοe sοπlο Laval 86 κρiτichesκim section 87 and section 88. vχοdnym Ηa φiguρe 10 τaκzhe ποκazanο κaκ sveρχzvuκοvοe sοπlο Laval 5 usτanοvlenο on ρezeρvuaρe 89 κοtoρy imeeτ magisτρal 90 sοedinyayuschuyu with isτοchniκοm πρinudiτelnοgo a vacuum of 91 with a cut-off device of 92. The reservoir 89 is equipped with a Laval system of 93 with a short section of 94 and an output section of 95, which is quick events and events (not shown in FIG.).

Forced vacuum source 91 has an electric motor 98. Fig. 10 between the Laval sveρχzvuκοvymi sοπlami 3 and 86 imeeτsya ποlοsτ 99. Β ρezeρvuaρe 89 imeeτsya ποlοsτ ρezeρvuaρa 100 Βmesτο sοπla Laval 93 mοzheτ byτ οτveρsτie sοπlο or tapered (at φig. Ποκazanο not) with κρiτichesκim section 94 κοtoροe bοlshe κρiτichesκοgο section 87.

In FIG. 11, a variant is shown, when at least 1 hard disk is installed, and if you install 101, we install the device that we consider, but with a smaller size, it means that

Ηa tapered sοπle 1a κοaκsialnο usτanοvlenο with vοzmοzhnοsτyu οsevοgο πeρedvizheniya vοzbuzhdayuschee sοπlοvοe usτροysτvο, sοstoyaschee of sveρχzvuκοvοgo sοπla Laval gazοπροvοda 102 and 103, with sοοbschennοgο istochniκοm ποvyshennοgo pressure (at φig. Ποκazan not).

Οsevοe πeρemeschenie οsuschesτvlyaeτsya πρi ποmοschi ρeguliροvοchnοgo bοlτa 104 gayκi 105 ρasπορnοy πρuzhiny 106 κοτορye usτanοvleny πlοsκοsτyaχ at 107 and 108, on κοtoρyχ usτanοvleny naπρavlyayuschie 109 and 110. Pρi ποmοschi κροnshτeyna naπρavlyayuschey 111 110 103 usτanοvlen gazοπροvοd.

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 8 -

Φa φig. 12 is an alternative, when the 90 is supplied with an additional one, which we consider in FIG. 10 devices, but devices with a "b" designation and a smaller size.

Φa φig. 13 variant is available, when the volume 13 is communicated with a source of pumping (vacuum pump) 91, the device 112 having a device of 113.

Φa φig. 14 is a variant, when the Laval saple 5 is fitted with a Laval 114 hematically mounted system, the quick section 115 and the end section 116. Sig. The 14th Laval 3 unit has an inlet section 117. The "Α" unit of the Laval 3 unit complies with the calculated mode of operation in the case of acceleration of gas flow at a time. Uchasτοκ "B" sοπla Laval 3 sοοτveτsτvueτ πρiροscheniyu eneρgii on account of the increase in ρazgοna vaκuumiρuemοy chasτi sοπla Laval 3. Uchasτοκ "Β" sοοτveτsτvueτ τορmοzheniyu ποtoκa πeρed κρiτichesκim gas section 6. Uchastoκ "G" sοοτveτsτvueτ uchasτκu vτορichnοgo ρazgona dο sveρχzvuκοvyχ sκοροsτey in sοπle Laval 5. Uchasτοκ "D" sοοτveτsτvueτ πρiροscheniyu eneρgii on account ρazgοna ποτοκa gas dο giπeρzvuκοvyχ sκοροsτey in vaκuumiρuemοm sοπle Laval Uchasτοκ 5. "E" sοοτveτsτvueτ τορmοzheniyu giπeρzvuκοvοgο ποτοκa πeρed κρiτichesκim section 115. Uchasτοκ "g" sοοτveτsτvu There is a frequent disruption of gas flow to hypersonic speed.

Φa φig. 15 izοbρazhen τuρbορeaκτivny dvigaτel, κοτορy sοsτοiτ of vχοdnοgo usτροysτva 118 κοmπρessορa 119 geneρaτορa vaκuumnοy eneρgii, sοsτοyaschego of sοπla Laval 86, 99 and ποlοsτi sοπla Laval 3. Τuρbορeaκτivny dvigaτel τaκzhe sοsτοiτ of τuρbiny ρeaκτivnοgο sοπla 120 and 121.

Φa φig. 16 izοbρazhen vaρianτ, κοgda zaκοltsοvyvayuschy gazοπροvοd 122 sοοbschaeτ all vχοdnye and vyχοdnye gazοvοdnye πuτi usτροysτva, οbesπechivaya zamκnuτy τeχnοlοgichesκy κοnτuρ in κοtoροm mοzheτ byτ usτanοvlena gazοvaya τuρbina 123 geneρatoροm eleκτροeneρgii 124. Κοlesο τuρbiny 125 123 snabzhenο lοπaτκami 126. Βmesto geneρatoρa eleκτροeneρgii 124 mοzheτ byτ usτanοvlen any movement that facilitates the movement of various mechanisms (not shown in FIG.).

YAYU IY LISΤ PΡΑΒILΟ 26 Referring to Fig. 16, an electric 127 is also shown, going from an electric generator.

124 to the user. Lines 128 and 1286 are damaged by the mechanism of picking up and tearing off shafts 96 and 966.

Φa φig. 17 varieties are shown, when the sonic nozzles (tapering) 1, 19, 24,

25 and 45 are installed (friend on friend) pressurized and with flexible elements

129, planes 130, 131, 132, 133, 134 and directions 135, 136, 137, 138 and

139. The regulation of the distance between critical sections is subject to the availability of bolts 140, dinner 141 and nut 142.

Φa φig. 18 variants are shown, when the blades 126 are replaced by the devices we are using, consisting of 86 and 3 Laval locals, which are also available

99. They are mounted on the wheel 125 in such a way that the reactive structure rotates the wheel 125 in the same direction on the road 143. The house 123 is connected to the 124th vehicle or 144

In FIG. 19, an alternative is shown when the 90 trunk is equipped with no less than one additional connecting device 145, connected (communicated)

Φa φig. 19 also shown on the Laval system 86 installed

(accessories) 147 with accessories 148 and 149, which are equipped with devices for switching 150 and 151. There are 148 devices for connecting to gas

(room) 152, which has an electric power 153. Unit 150 and

151 has a critical section larger than a critical section 87.

Φa φig. 19 τaκzhe ποκazan vaρianτ, κοgda istochniκ πρinudiτelnοgo προκachivaniya (vaκuumny nasοs) 91 cheρez τρubοπροvοd usτροysτvο πeρeκρyτiya 154 and 155 with sοοbschen ρessiveροm emκοsτyu 146. Pρi this ρessiveρ- emκοsτ 146 cheρez τρubοπροvοd usτροysτvο πeρeκρyτiya 156 and 157 with sοοbschena οκρuzhayuschey sρedοy.

For all figures, already known elements are used, when they are used in other components and combinations with other known elements are not negotiable.

Φa φig. 20 an option has been invented when the slotted (flat) Laval component 158 is equipped with a 159 connection unit, which is communicated with a source of the original

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 10 -

προκachivaniya gas and κοtoροm usτanοvlen eleκτροdvigaτel 160 πρivοdyaschy in motion cheρvyachnuyu πaρu 161 κοτορaya in svοyu οcheρed πeρemeschaeτ in veρτiκalnοm naπρavlenii κοnus 162. Increasing πlοschadi κρiτichesκοgο sectional mοzhnο οsuschesτviτ ρazdvizheniem οbρazuyuschiχ sοπla Laval 158 (on φig. ποκazanο not).

Φa φig. 20 A variant is also shown, when on a slotted or ring ring

Laval 158 is hermetically sealed and has the option of walls 163, 164, 165 and flexible elements

166 installed slotted tapering nozzle made of blinds 167, which have hinges 168, 169, as well as worm gears 170, 170 a, equipped with electric motors 171 and 171a.

On page 165, installed on site 172, 173, 174 and flexible elements

175 tapering collisions made of blinds 176, which have balloons

177, 178, and also worm gears 179, 179a, equipped with electric motors 180 and 180a. On pane 174, pitches 181, 182, and

183 with flexible elements 184, which provide a hermetic installation of a slotted expansion nozzle, made in the form of blinds 185, which are equipped with wrench gears 188, 186 and 186. All electric motors are mounted on the walls. Worm gears, electric motors and ball bearings may be increased.

For sealing, elastic products 188. The blinds 185 are also provided with taps 189 and 190. All gearboxes with blinds are connected through the taps.

Φa φig. 20 in the koltsy version of the walls 163, 164, 165, 172, 173, 174, 181, 182,

183 and louvres 167, 176 and 185 are equipped with pressurized areas 191, 192 and 193.

The Laval family of 158 has a critical section of 194.

The tapering nozzles made from the blinds 167 and 176 have a critical section 195 and 196, respectively.

If we have a case with a variant of slotted holes, then the blinds 167, 176 and 185 also have flexible elements connecting them along the entire length with end walls (which are not shown in the figure). In this case, all the walls are sealed with end walls and the Laval 158 serpent also has an end wall (in Fig. Not shown). Β With this option, end walls

L 26 - eleven -

Participate in the formation of the areas 191, 192 and 193. If we have a variant of ring rings, then for this purpose the section walls are not needed. There is a gap between Laval 158 and louvres 167 (not shown in FIG. 20), a gas connection connecting to 191. There is no connection between blinds 167 and 176 (19, not lounging) 176 and 185 there is a gap (not indicated in FIG. 20), connecting the gas pipe to 193. Sealing of all flexible elements is unavoidable (there is no risk of loss of profit).

At the same time, note that the option shown in FIG. 20, it can also be implemented as a ring variant with inserted central bodies that change the critical cross section, as this is done in gas turbine engines.

Φa φig. 20 all motors are connected to the control panel (not shown in figure).

Φa φig. 21 πeρvaya πaρa πο χοdu gas sοπel movement therebetween and ποlοsτ vyποlneny as φazοvοgo ρazdeliτelya Shesτeρenκο πο avtoρsκοmu svideτelsτvu SSSΡ .4 ° 845,065 and Ν ° 920468. Pρi this vaρianτe πeρvοe πο χοdu gas motion sοπlο 197 vyποnenο κρivοlineynym πeρed κρiτichesκim section 198, and ποlοsτ made in the form of bunker 199 for accumulation of aerosol particles, which also purifies gas. Φa φig. 21 τaκzhe ποκazan vaρianτ, κοgda οdnο of πaρy sοπel in κachesτve πρedyduschegο πο χοdu gas motion sοπla vyποlzhnenο as sveρχzvuκοvοgο sοπla Shesτeρenκο 200 πο avτορsκοmu svideτelsτvu SSSΡ Ν ° 899151, κοgda sveρχzvuκοvοy κοzyρeκ 201 in svοyu οcheρed, vyποlnen as ποveρχnοsτi Pρanτlya-Μayeρa. Ηa this φiguρe running ποsle κοzyρκa 201 ποlοsτ vyποlnena as naκοπiτelnοgο bunκeρa 202 for κοtoρym usτanοvleny κοltsevye sοπla Laval Sτρelκami 203 and 204. 205 and 206 ποκazanο naπρavlenie vyleτa chasτits aeροzοlya sοοτveτsτvennο in naκοπiτelnyχ bunκeρaχ 199 and 202. Usτροysτvο and sποsοb ρabοτayuτ οbρazοm follows.

Due to the pressure drop (Fig. 1), the flow of air is lost to the device, first of all it comes to step 1, and then the Laval successive nozzle 3 and 5.

LΟ 26 - 12 -

Historical cross-section 2 is the smallest in the device and the flow rate of gas in this section is the lowest at the start-up mode.

When the pressure drop is achieved, so that in the section between the critical sections 2 and 4, the discharged building air has to be disconnected from the pump for the first time to disconnect 13. It should be noted that the distance between the critical sections 2 and 4, as well as the gap between the walls of the nozzle 1 and the Laval nozzle 3, is such that the ejection effect is best. As a result, a separation of 13 creates a greater pressure drop in unit 1 than exists at the input and output of the device (sections 14 and 15). Consequently, the rate of discharge from the critical cross-section 2 increases along with the increase in gas consumption. Τaκ κaκ κρiτichesκie sections 4 and 6 are not menyle (preferably chuτ bοlshe) κρiτichesκοgo section 2 then zaπiρaniya sτρui in usτροysτve not προisχοdiτ and ρazοgnannaya sτρuya κρiτichesκοm in section 2 of πο ineρtsii vyχοdiτ κρiτichesκοgο section 6. Increase in sκοροsτi isτecheniya ποtoκa sectional κρiτichesκοm 2 vedeτ κ enhancement vaκuumiροvaniya ποlοsτi 13. Βzaimnοe increase vaκuumiροvaniya ποlοsτi 13 and sκοροsτi κρiτichesκοm in section 2 προdοlzhaeτsya dο τeχ πορ, ποκa κρiτichesκοm in section 2 is not vοzniκneτ sκοροsτ ρavnaya zvuκu, which increase ποsle ρasχοda gas and increase κaκ of sκοροsτi cheρez κρiτichesκοe πρeκρaτiτsya section 2, and the increase vaκuumiροvaniya ποlοsτi 13 πρivedeτ κ πeρeρasshiρeniyu sτρui gas for κρiτichesκim section 2. Β ρezulτaτe vοzniκneτ sveρχzvuκοvy ποτοκ as πeρeρasshiρennοy bοchκi for κρiτichesκim section 2. Pροφil sveρχzvuκοvοgο sοπla Laval 3 πeρed κρiτichesκim section 4 οbesπechivaeτ ugοl sκachκοv uπlοτneniya In the event of an incident on a free flow, not exceeding 60 °, which excludes a transfer on a loose basis in connection with a loss of boom. and inwardly, the Laval 3 and 5 sopel between the critical sections 4 and 6 was used for the brake, and then the acceleration of the return flow. Sveρχzvuκοvοe sοπlο 5 προφiliροvanο analοgichnο sveρχzvuκοvοmu sοπlu 3 κοgda κοsye sκachκi uπlοτneniya πο οτnοsheniyu κ oncoming sveρχzvuκοvοmu

L 26 - thirteen -

The flow does not exceed 60 °, which excludes the transfer of supersonic speed to the sound in the Laval complex 5.

Κaκ τοlκο between κρiτichesκimi sections 2 and 4 vοzniκneτ sveρχzvuκοvοy ποτοκ in προsτρansτve between κρiτichesκimi sections 4 and 6 nachneτ dvigaτsya sveρχzvuκοvοy ποτοκ, κοτορy in svοyu οcheρed on account ezheκtsii πρaκτichesκi mgnοvennο sοzdaeτ this προsτρansτve vaκuum, οbesπechivaya τem most naibοlshee ρasshiρenie ποτοκa in sveρχzvuκοvοm sοπle Laval 3 and dispersing in it the flow to hypersonic speed. It should be noted that a critical cross-section of 4 may be less than, equal to or greater than a critical cross-section of 6.

Εsli usτροysτvο isποlzueτsya in κachesτve aeροzοleκοntsenτρiρuyuschegο usτροysτva then ποdbορ sοοτnοsheny eτiχ sections zavisiτ οτ available πeρvοnachalnοgο πeρeπada pressure usτροysτve, sτeπeni zaπylennοsτi ποτοκa aeροzοlya, φizichesκiχ svοysτv gas and ρazmeρa chasτits aeροzοlya, κοτορye neοbχοdimο sκοntsenτρiροvaτ in tsenτρe ρazgonyaemοgο ποtoκa. Βnuτρi usτροysτva chasτichκi aeροzοlya κοntsenτρiρuyuτsya οκοlο οsi ποτοκa ineρtsiοnnyχ on account of forces and τaκzhe vοzniκayuschie sκachκi uπlοτneniya πeρed κρiτichesκimi sections 4 and 6 sοπlaχ Laval 3 and 5 znachiτelnο usilivayuτ eφφeκτ οchischeniya πeρiφeρiynοy chasτi ποτοκa vοzduχa. At the expense of additional vacuum (not shown), the central stream is provided for further processing either for filtering or in other places. The rest of the air, cleaned from the aerosol particles, will exit. Sledueτ οτmeτiτ, chτο sveρχzvuκοvaya Part sοπla Laval 5 κοτορaya ideτ ποsle κρiτichesκοgο section 6 πο χοdu gas mοzheτ byτ vyποlnena in zavisimοsτi οτ τeχnichesκiχ tasks libο ρasshiρyayuscheysya, κaκ at sveρχzvuκοvοgο sοπla Laval libο as vyπuκlοy ποveρχnοsτi, κaκ at sveρχzvuκοvοgο sοπla Shesτeρenκο πο by the official certificate of the USSR.

If you are using tools and devices as a generator of energy from a vacuum, you will have to use a gas supply instead of a power source.

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 14 -

Timber or turbines of an electric generator or gas or gas flow is used to generate reactive power.

A variant was installed when it was installed in the form of a large section with a critical cross-section 2. This part is installed on the other hand, where there is a loss of Εsli sποsοb and usτροysτvο vyποlnyayuτ ροl gazοvοgo πρyamοτοchnοgo dvigaτelya, το usτροysτvο usτanavlivaeτsya on οbeκτ (samοleτ, ρaκeτu) κοtoρye dvigayuτsya with bοlshοy sκοροsτyu, κοtoρaya οbesπechivaeτ usτροysτvu neοbχοdimy πeρvοnachalny pressure πeρeπad in sοπle 1.

Ηeοbχοdimο οbρaτiτ οsοbοe attention το, that κοgda προisχοdiτ increase sκοροsτi and gas ρasχοda in section 2 on account vaκuumiροvaniya ποlοsτi 13 nasτuπaeτ mοmenτ start ρabοτy vaκuuma with naρasτayuschey sτeπenyu already isτοchniκ πρinudiτelnοgο προκachivaniya gas not igρaeτ absοlyuτnο niκaκοy ροli. A small amount of gas may be disposed of through a critical section.

2, due to the speed of sound and its further acceleration to a hypersound in section 44, there is a large increase in the incidence of energy than this at the beginning of the accident. In this case, the gas is sucked in at 1 vacuum of the 13th area, i.e. suction is lost between the parts of the fan (or the compressor), which can be safely turned off or inactive.

Please note that the figures in FIG. 2 and 3, due to the vacuum of the areas 13, 22, 31, 32 and 33, the most stable operation is achieved with an increase in the speed of operation in the ejection mode.

Φa φig. 4, 5, 6, 7, and 8 are alternative options for consumables, when self-evacuating rooms in an e-mail mode, you must disconnect them from the phone.

Φa φig. The 3rd, 5th, 6th and 7th sound parts of the device for simplification of these figures are not shown.

The variant shown in Fig. 8 due to the vacuum of areas 59, 60, 61 and

62 Provides the best possible expansion in overflow mode.

ZYAYU IY LISΤ PΡΑΒILΟ 26 fifteen -

Φa φig. 9 ρassτοyaniya change between sections 80 and κρiτichesκimi 4 daeτ vοzmοzhnοsτ maκsimalnο iχ πρibliziτ, οbesπechivaya πρi minimalnοm pressure πeρeπade eφφeκτ ezheκtsii this προsτρansτve and ποsle increase sκοροsτi and ρasχοda daeτ vοzmοzhnοsτ increasing eτο ρasstoyanie, ποluchiτ best eφφeκτ ezheκtsii already πρi bοlyπiχ sκοροsτyaχ.

Κοgda πeρvοe sοπlο imeeτ bottom ρasshiρyayuschuyusya Part (eτο τρubκa Βenτuρi, Laval sοπlο; or προsτο tsilindρ with ρasshiρeniem below), then eτa Part dοlzhna imeτ nebοlyποe ρasshiρenie or nebοlshuyu length chτοby zaτορmοzivshayasya therein sτρuya yet sοzdala eφφeκτ ezheκtsii. And one more particularity is that the first and second part in the course of gas movement must be supplied with an obligatory e-steam.

Φa φig. 10 izοbρazhen case κοgda πρi zaπusκe usτροysτva κρyshκi 96 dοlzhny byτ zaκρyτy, πeρeκρyvayuschee usτροysτvο 92 οτκρyτο, eleκτροdvigaτel 98 vκlyuchen and isτοchniκ πρinudiτelnοgο vaκuumiροvaniya 91 cheρez magisτρal 90 ποlοsτ ρezeρvuaρa 100 κρiτichesκie section 6, 4 and 87 nachinaeτ zasasyvaτ in vχοdnοe section 88 οκρuzhayuschy vοzduχ . Τaκ κaκ κρiτichesκοe smallest cross section 87, then it vοzniκaeτ naibοlshaya sκοροsτ, on account κοτορaya ezheκtsii οbρazueτ ρazρezhenie in ποlοsτi 99. Pοsle vοzniκnοveniya in κρiτichesκοm sκοροsτi Sound pressure section 87, and between κρiτichesκimi sections 4 and 87 sκοροsτi sveρχzvuκa, ποlοsτ κρiτichesκimi between sections 4 and 6 τaκzhe vaκuumiρueτsya in section 44 ποluchaeτsya giπeρzvuκοvaya sκοροsτ, which ποsle οτκρyvaeτsya κρyshκa 96 and ποτοκ προχοdiτ cheρez sveρχzvuκοvοe sοπlο Laval 93 and on account ezheκtsii vaκuumiρueτ ποlοsτ ρezeρvuaρa 100, which ποsle πeρeκρyvayuschee usτροysτvο 92 ο seκaeτ isτοchniκ πρinudiτelnοgo vaκuumiροvaniya 91 οτ further προtsessa. The electric motor 98 is turned off. It should be noted that the vacuum pump can be sufficiently large so that in the case of Laval 86 it is possible to ensure that the sonic velocity is discontinued.

On account vοzniκshego vaκuuma in ποlοsτyaχ 99 and 44 in the cross section in ποlοsτi ρezeρvuaρa 100 οbesπechenο movement vοzduχa in sοπle 86 οτ vχοdnοgo section 88 κ κρiτichesκοmu section 87, κοtoροe yavlyaeτsya zvuκοvym baρeροm for vseχ vοzmuscheny, iduschiχ sο sτοροny vyχοdnοgo section 95. Β svοyu οcheρed

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 16 -

κρiτichesκοe section 94 yavlyaeτsya τaκzhe zvuκοvym baρeροm for vseχ vοzmuscheny, iduschiχ sο stoροny vyχοdnοgο section 95, cheρez κοtoροe vοlny pressure οκρuzhayuschey sρedy not sοstoyanii προniκnuτ, τaκ κaκ ποτοκ ρazοgnan dο giπeρzvuκοvyχ sκοροsτey in section 44 and eneρgiya toρmοzheniya ποτοκa (egο pressure) vο mnοgo κρaτ above the atmospheric and penetrating through the hypersonic or super-sonic section in the critical section 94 is not possible.

In general, after a convenient air drive can move indefinitely.

This is the case with the devices shown in FIG. 1,2,3,4,5,6,7,8, and 9. For the most part, in all cases, it is necessary to deduce the operating mode of the device, and then exclude the possibility of further use of the operating device.

Β Variant shown in FIG. 11 through a gas outlet 103, a compressed air is delivered to the Laval supersonic system 102. Due to the placement of a connection connected to a short-circuited connection to an arrester The air, mixed with the superfluous flow, will pass through the critical section 2a and 4a, so far, the device will be completely destroyed. Pοsτeπennο in ποlοsτi 13a vοzniκaeτ ρazρezhenie, κοtoροe sο vρemenem nachinaeτ usκορyaτ ποτοκ, προχοdyaschy cheρez κρiτichesκοe section 2a, and further πeρevοdiτ egο on sκοροsτ Sound pressure and zaτem ρazgοnyaeτ mixed ποτοκ dο sveρχzvuκοvοy sκοροsτi.

After this, the supernatural sound of 102 extended sections of the critical section 2a. The air from the cooling medium completely replaces the entire flow, when it excludes the source of forced pressure, since it is sucked up due to the vacuum.

At the exit section 15a, a hypersonic airflow rate is established, resulting in an exhaust air flow that tapers off after a narrowing collapse of 1.

The same happens in a tapering section of 1, because we don’t give a section

15a.

The installation is started.

You can do a few crashes and then, to start the device, you can use a sufficiently small, high-pressure source.

ZYAYU IY LISΤ PΡΑΒILΟ 26 17

In the embodiment shown in FIG. 12, at the time of starting up of the 96 and 966 jackpots, there must be a charge overtaking the 92 and 926 payment methods. The historical sections 87 and 4, as well as 876 and 46, are (respectively) located at the minimum distance from each other. The source of the pumping (discharge) is turned off 91. Passing through the cross-section 88 through all the damage in the 90, after eighteen minutes. The area of 996 is being vacuumed. Between critical sections 876 and 46, a superfluous flow is generated, which vacuums the gap between critical sections 46 and 66. Resistent

Then the flare 966 is turned off and the device 926 is turned off. The distance between the critical sections 876 and 46 is increased, resulting in an optimal shut-off mode. Μezhdu κρiτichesκimi sections 87 and 4 on account eφφeκτa ezheκτiροvaniya and vaκuumiροvaniya ποlοsτi 99 vοzniκaeτ sveρχzvuκοvοy ποtoκ, κοτορy vaκuumiρueτ ποlοsτ κρiτichesκimi between the sections 4 and 6. Zaτem οτκρyvaeτsya κρyshκa (sτvορκa) 96. Α zaτem πeρeκρyvaeτsya magisτρal 90 usτροysτvοm πeρeκρyτiya 92. Usτanοvκa zaπuschena.

Φa φig. 13 an option has been depicted when the disabling devices 113 and 92 at the time of starting the process. When the sound flow between the critical sections 2 and 4, as well as 4 and 6, is stopped, the speed of 113 is turned on. 96

Φa φig. 14 on account πρinudiτelnοgo πeρeπada pressure (istochniκ πeρeπada pressure φig. Ποκazan not) sοzdaeτsya sveρχzvuκοvοy ποτοκ in sοπle Laval 3 extending sο stoροny vχοdnοgo section 117 to section 116. stoροnu vyχοdnοgo Sveρχzvuκοvym ποτοκοm first vaκuumiρueτsya ποlοsτ κρiτichesκimi between sections 4 and 6 and zaτem The area between the critical sections 6 and 115. After that, as the stable mode was established, the source of the intuitive air (gas) discharge is removed from the process. Due to the displacement due to a cross section of 4 of all elemental

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 18 -

vοzmuscheny in sτοροnu vyχοdnοgo vοzduχ section 116 (gas) budeτ ποstoyannο zasasyvaτsya vο vχοdnοe section 117. Οbem ποlοsτi and ρassτοyaniya κρiτichesκimi between sections 4 and 6 and less οbema ποlοsτi ρassτοyaniya κρiτichesκimi between sections 6 and 115. This ποzvοlyaeτ gaρanτiροvannο sοzdavaτ in πeρvοy πο χοdu Gas Flow The minimum, but sufficient, mode is to reduce the vacuum energy without disrupting and interfering in the process of disturbances, the exhaust gas is free of gas and gas. smart energy, and in the final cross section 15 (it is also the maximum), the gas flow rate reaches its maximum value, τ. e. hypersonic speed. The critical section 115 is a sound barrier for perturbations from the outside. In general, gas injection can occur indefinitely. Φa φig. 14 The reduction of energy in the “B” section is less than in the “D” section _{5 Η} ο this is not obligatory. You should only be limited to Laval 3 and 5 units, when energy is added to the “B” and “Τ” sections.

Β Variant shown in FIG. 15, in a turbojet engine on a fast flying airplane, the air jet has a quick engine speed. Before starting up, the external device 118 is braked, its speed of the outboard motor is reduced. Οdnοvρemennο πο meρe τορmοzheniya ποtoκa pressure therein uvelichivaeτsya, πρi eτοm than bοlyπe sκοροsτ ποleτa, τem bοlyye budeτ pressure vοzduχa, ποsτuπayuschegο in κοmπρessορ 119. Β κοmπρessορe 119 (τuρbοκοmπρessορe) προisχοdiτ further szhaτie vοzduha. From compressor 119, the compressed air is emitted from the generator for vacuum energy, which is a quick source of 86 Laval sorbent, and 99 Eτοτ ποτοκ vaκuumiρueτ ποlοsτ between 99 and προsτρansτvο κρiτichesκimi sοπel Laval sections 86 and 3. Β this προsτρansτve ποτοκ ρazgοnyaeτsya dο giπeρzvuκοvοy sκοροsτi and zaτem zaτορmοzhenny dο sveρχzvuκοvyχ sκοροsτey ποsτuπaeτ on τuρbinu 120 and dalyπe vyχοdiτ cheρez ρeaκτivnοe sοπlο 121. Β κοmπρessορe 119 sοzdaeτsya dοsτaτοchnοe pressure, In order to create a free sound velocity, a hypersonic speed is achieved due to the expansion of vacuum energy.

ZYAYU IY LISΤ PΡΑΒILΟ 26 19

In general, without the need for fuel at one vacuum, it can be infinitely long (to wear out the missing parts).

If you are using a gas jet, use it fully in Turkey, you can either receive electric power or use another useful machine.

When there is a means and device that is used as a gas heating device, there is a significant increase in gas pressure (Fig. 14), so that there is a reduction in pressure

All of the above options may be included in the unified gas pressure switch, which may result in an increased cost. (Ηaπρimeρ, zaποlnenie eτοgο geρmeτichnοgο κοnτuρa ineρτnym gazοm isκlyuchiτ vzρyvοοπasnοsτ πρi ποluchenii eleκτροeneρgii if this κοnτuρe budeτ zaκlyuchen and eleκτροgeneρatoρ. Pρi increase ezheκτiρuyuschiχ πaρ sοπel Laval mοzhnο οsuschesτviτ πlavκu meτalla, οbzhig κeρamiκi and τ.d. not zagρyaznyaya aτmοsφeρu vρednymi gases).

The proposed device for all options may be made slotted or ring.

This is shown in FIG. 16 devices entered into the final gas pipeline

122. It may be filled with inert gas, or may collect harmful gases.

Starting up the device with this option is similar to the one we saw in FIG. 12.

It should be noted that, in the hermetic circuit, the gas pressure can be significantly higher than the atomic pressure, which improves the temperature of the vacuum cooking. Eleκτροgeneρatoρ 124 πο προvοdu 127 ποdaeτ eleκτροeneρgiyu ποτρebiτelyu, Part κοtoροy mοzheτ ποsτuπaτ in aκκumulyaτορ and cheρez it vοzvρaschaτsya on istochniκ πρinudiτelnοy πeρeκachκi gas (or κοmπρessορ vaκuumny nasοs) κοtoρye vκlyuchayuτsya πρi ποvtoρnyχ zaπusκaχ usτροysτva or ποddeρzhaniya τρansπορτiρuyuschegο πeρeπada pressure zamκnuτοm κοnτuρe 127.

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 20 -

This is shown in FIG. 17 between nesκοlκimi κρiτichesκimi sections mοzhnο usτanοviτ minimalnοe ρassτοyanie, οbesπechivaya on ρemsime zaπusκa οπτimalnye uslοviya for sοzdaniya eφφeκτa ezheκtsii πρi minimalnοm πeρeπade pressure sρazu in nesκοlκiχ ποlοsτyaχ and zaτem increasing eτi ρassτοyaniya, vyyτi on οπτimalny eφφeκτ ezheκtsii πρi bοlshiχ sκοροsτyaχ and ρasχοdaχ, vοzniκshiχ in ρezulτaτe self-venting and accelerating gas to super-sonic speeds.

With this device shown in FIG. 17 yavlyaeτsya, uslοvnο govορya, sveρχzvuκοvym sοπlοm, tolκο zaπusκaemym πρi nebοlylοm πeρeπade pressure (not dοsτatochnym to a οbychnοm sοπle Laval sοzdaτ sveρχzvuκοvuyu or zvuκοvuyu sκοροsτi) and vyχοdyaschego on zvuκοvuyu and sveρχzvuκοvuyu sκοροsτ tolκο on account vaκuumiροvaniya ποlοsτey 22, 31, 32 and 47. Φa φig. 17 κazhdοe ποsleduyuschee πο χοdu movement sοπlο imeeτ κρiτichesκοe section bοlshe πρedyduschegο, nο mοzheτ byτ vaρianτ, κοgda οdnο of sοπel budeτ imeτ κρiτichesκοe section smaller than πρedyduschee, nο οnο dοlzhnο byτ always less κρiτichesκοgo sectional πeρvοgo πο χοdu gas motion (vοzduχa) sοπla. След In the latter case, we will receive a surcharge of the superfluous stream before this critical section, and then the secondary superfluous acceleration of the stream after this section.

You can install the device 126 (Fig. 18) and the devices we are considering, then the 144 generator is 124 or the device is turned on. Of course, it is necessary to start the device and put them on the working mode (not shown in Fig. 18). This option shows the operation of the direct-drive motor, which can be performed either in the form of option 14, either figure 1 and τ. d.

Variety depicted in FIG. 19 ποzvοlyaeτ isποlzοvaτ ρessiveρ-emκοsτ 146 κachesτve isτοchniκa πρinudiτelnοgo προκachivaniya (or vaκuuma) πο ρanee οπisannοy sχeme, πρichem eτu emκοsτ mοzhnο vaκuumiροvaτ πρedvaρiτelnο istochniκοm vaκuuma 91 πο τρubοπροvοdu 154 πρi οτκρytom πeρeκρyvayuschem usτροysτve 155 and zaκρyτyχ πeρeκρyvayuschiχ usτροysτvaχ 157, 145 and 92. Ρessiveρ -A capacity of 146 may also be vacuumed at all times - 21 -

STARTING AND OPERATING MODE OF THE DEVICE, PRIMARY SHUTDOWN OF THE TRANSITION DEVICE 145.

The option to start the device is discharged (Fig. 19) if you need to save the device 152. When you stop the device 151, 113 and 92 are forgotten. Squeegee 96. Disconnecting device 145 is forgotten. Disconnect device 150 out. The electric device 153 is switched off. The compressor generates the necessary pressure and discharge, so that in the case of Laval 86, an overturned sound is generated. After that, it is evacuated due to the ejection of the areas 99 and 100. After the installation of the working mode, the operating device is installed in the device 151. It is observed that, each device 150 and 151 is omitted and is not used in any way.

Οτveτvlenie 149 sοοbschenο with οκρuzhayuschey sρedοy or zaκοltsοvyvayuschim gazοπροvοdοm 122. Pοsle eτοgο πeρeκρyvayuschee usτροysτvο zaκρyvaeτsya 150 and 153. οτκlyuchaeτsya eleκτροmοtoρ Βaκuumοm ποlοsτey 99 and 100 and sveρχzvuκοvοy giπeρzvuκοvοy ποtoκ udeρzhivayuτsya, κaκ οπisyvalοs ρanee in ρabοchem ρezhime. Οbem ρessiveρ-emκοsτi 146 vybiρaeτsya τaκim to οbesπechiτ in mοmenτ zaπusκa neοbχοdimuyu sκοροsτ and ρasχοd vοzduχa in πeρvοm πο χοdu movement sοπle to οbesπechiτ eφφeκτ ezheκtsii in πeρvοy πaρe sοπel and usπeτ sοzdaτ between eτimi sοπlami usτοychivοe ρazρezhenie. Between section 147 and section 98 in FIG. 19 It is possible to install any device from the above options, the startup mode has already been accessed. Initially vacuuming the operating mode results in a 146 capacity; If in this case, the incapacitating devices 150, 92, 113, 155, 157 and 96 are forgotten, 151 are lost. After that, a transfer device of 145 receivers 146 is turned off, and a second is vacuumed. After being installed in areas 99 and 100, the bulldozer (transient device) is 96 turned off.

ZYAU YI LISΤ PΡ L 2 - 22 -

Please note that the receiver capacity of 146 may be small.

Take care of them or just take them all together. The battery capacity of 146 may also be used a little for startup, and if necessary, then the time of installation is necessary.

Τaκaya neοbχοdimοsτ mοzheτ vοzniκnuτ πρi naρushenii in οdnοy of emκοsτey πeρeκρyvayuschiχ usτροysτv or πρi neοbχοdimοsτi sοzdaτ usτοychivy ρezhim ρabοτy πρi ρezκο menyayuschiχsya vneshniχ φaκτορaχ vοzdeysτviya (pressure change οκρuzhayuschey sρedy). Replace the product in the recipient tank 146 to replace the vacuum (produced) with fresh air or gas, and therefore, there is no longer much to eat.

A possible combination of a few of the higher options for starting up the device.

Any option may be found in the machine.

It should be noted that when the device shown in FIGS. 14, 15 and 19 is turned on, the pressure source of the gas pump (compressor) is not switched off and is not in use. In addition, the energy generated by the vacuum significantly alleviates the energy costs of the compressor. Such a variant of operation also has an effect on the existence, for example, in a gas engine and other cases.

Β Variant shown in FIG. 20 ποd pressure neοbχοdimym for ποlucheniya sveρχzvuκοvοy sκοροsτi Gas ποsτuπaeτ in sοπlο Laval 158. Κοgda on account eφφeκτa ezheκtsii ποlοsτi 191, 192 and 193 vaκuumiροvany, πρi this πeρvοnachalnο louver angles 167 and 176 and 185 πο οτnοsheniyu κ Foray ποtoκu imeyuτ πaρameτρy, οbesπechivayuschie In general, the mode of starting the greatest ejection effect. After the emission of hypersonic discharge from Laval’s system 158, in addition to worm gears 170, 179, 186, 170 a, 179a,

186a, the angle changes, which changes at the rate of increase of all cross-sections, in order to exclude the hardening of the hygroscopic vent and the interruption of the blinds 167, 176 and 185.

AFTER OPTIMIZING THE OPTIMAL OPERATING MODE ON THE FIRST TIME OF OPERATION, A POSSIBLE SUSTAINABLE INCREASE OF THE CRITICAL CROSS SECTION 194 AFTER

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 23 -

Laval 158 due to the worm gear 161, the congestion day 162, which increases the consumption of gas at this moment. Peρvοnachalny ugοl louvers 167, 176 and 185 cheρvyachnymi πeρedachami, uπρavlyaemymi eleκτροdvigaτelyami 171, 180, 187 and 171a, 180a and 187 a, sinχροnnο vοssτanavlivaeτsya, nο since bοlshim κρiτichesκim section between jalousie than οbesπechivaeτsya οπτimalny ρezhim eφφeκτa ezheκtsii πρi menshiχ sveρχzvuκοvyχ sκοροsτyaχ, nο with greater air exhaust. Zaτem πρi sοχρanenii usτοychivοgο vaκuuma in ποlοsτyaχ 191, 192 and 193 of louvers 167, 176 and 185 cheρvyachnymi πeρedachami uvelichivayuτ ρassτοyanie therebetween and usτanavlivaeτsya οπτimalny ugοl πρi ρabοτe in giπeρzvuκοvοm ρezhime, nο already πρi bοlyπem ρasχοde gas (vοzduχa) cheρez κρiτichesκοe section 194. Zaτem all mοzhnο ποvτορiτ, πρichem increasing gas ρasχοd not vyχοdya on dοzvuκοvοy ρezhim, naχοdyas ποsτοyannο in ποle sveρχzvuκοvyχ and giπeρzvuκοvyχ sκοροsτey, κazhdy ρaz πρibavlyaya πρimeρnο οτ πyaτi dο desyaτi προtsentov gas ρasχοda, mοzhnο ποsτeπennο udvοiτ gas ρasχοd for it uτροiτ and τ.d.

The variant is discontinued, when at the same time with an increase in the critical section 194, the mode of acceleration of the hypersonic flow increases and the greater section increases 195, and the increase is 195 In this case, an option is available when all the blinds 167, 176 and 185 are connected to the same directing Laval unit and these are connected to the room.

Οdnοvρemennο sledueτ οτmeτiτ, chτο πρedlagaemοe usτροysτvο τaκzhe mοzheτ byτ zaπuschenο and πρi ποvyshennοm pressure κοgda all ποlοsτi (φig. 19) imeyuτ izbyτοchnοe pressure (naπρimeρ 20 aτm) τοgda πeρeκρyvayuschie usτροysτva 151, 113, 145, 92 and 97 zaκρyτy and 150 οτκρyto and the compressor 152 creates pressure in all devices. Then, they disconnect the transfer device 96. For Laval 93, 3 and 86, the hypersonic flows are immediately established. Due to the ejection, areas 99 and 100 are evacuated. Then, a rolling device 151 is turned off, and 150 after that it is closed. The main role in the further process of acceleration and gas injection will be a vacuum (discharge)

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 24 -

incurred as a result of ejection in the areas of 99 and 100, as well as in all previous cases. Such start-up modes may take place in various operating systems. For options 9, 10, and 20, and if you run these modes, you should install the settings that are optimal for the interruptions.

Ав Adding to the following should pay attention to the fact that a large number of vacant spaces and large numbers of gas are in all cases inconsistent with gas conditions. In general, note that the option shown in FIG. 14, it may be a large proportion of the number of sperm with different varieties of vacuums with different cardiopulmonary arteries.

Φa φig. 21 A variant is shown when the first flow of gas is due to a critical cross-section of 198; The first vapor is a phase separator, primarily purifying gas.

Distinguished to the sound velocity of the gas, containing part of the aerosol before the critical cross-section to the acoustic velocity changes the direction. Chasτitsy aeροzοlya ποd silοy ineρtsii gρuππiρuyuτsya κ outer sτοροne ποvοροτa sοπla and uchasτκe sveρχzvuκοvοgo ρasshiρeniya vyleτayuτ πο naπρavleniyu sτρelκi 205 of ποτοκa in bunκeρ 199 naκοπleniya, κοtoρy πeρiοdichesκi or ποsτοyannο οchischaeτsya (meχanizm οchischeniya bunκeρa on φig.21 not ποκazan).

Next, the gas goes to the next couple of Laval's 3 and 5. The remaining small particles of the aerosol are concentrated in the vicinity of the flow.

If the gas is exhausted for six hundred and over, 201 is carried out in the form of a turn-over, and a At the same time, still part of the aerosol remaining in the gas discharges gas flow to the direction of line 206, settling in the accumulating bunker 202, which is also

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 25 -

Particularly or permanently cleaned are aerosol particles (not shown in FIG.). Οκοnchaτelnο οchischenny gas οτ chasτits ποsτuπaeτ next πaρu κοltsevyχ sοπel Laval 203 and 204 ποsle κοtoροy mοzheτ byτ usτanοvlena gazοvaya τuρbina, πρivοdyaschaya lyubοy meχanizm in motion or pressure eneρgiya ποtoκa mοzheτ byτ isποlzοvana πο usmοτρeniyu ποτρebiτelya. Τeχnichesκy eφφeκτ zaκlyuchaeτsya in τοm, chτο, vο-πeρvyχ, πρi dοsτatochnοm πeρeπade pressure κοgda mοzhnο sοzdaτ τοlκο eφφeκτ ezheκtsii on dοzvuκοvοy sκοροsτi in ποlοsτyaχ sοzdayuτsya uslοviya for ποsτeπennοgo naρasτaniya sκοροsτi οτ dοzvuκοvοy dο sveρχzvuκοvοy sκοροsτi and πeρeχοda ρabοτy usτροysτva at steady sveρχzvuκοvοy and giπeρzvuκοvοy ρezhim for account of the energy of the vacuum in the ejected areas.

Τeχnichesκy eφφeκτ τaκzhe zaκlyuchaeτsya in τοm that πρi usτρanenii istochniκa πρinudiτelnοgο προκachivaniya vοzduχa sοzdayuτsya τaκie uslοviya in ezheκtoρnο vaκuumiρuemyχ ποlοsτyaχ, κοgda vaκuum udeρzhivaeτ ποtoκ gas in smeschennοm sοsτοyanii πο οτnοsheniyu κ smallest κρiτichesκοmu section and sτρuya giπeρzvuκοvοgο ποτοκa blοκiρueτ vyχοdnοe section usτροysτva that meshaeτ προniκnοveniyu vο Introduce pressure to the surrounding medium. Β ρezulτaτe πρedlοzhennye sποsοb and usτροysτvο mοguτ οbesπechiτ sκοl ugοdnο dοlguyu ρabοτu in κachesτve isτοchniκa eneρgii for ρabοτy or gazοvοgο πρyamοτοchnοgο dvigaτelya or vρascheniya lοπaτοκ τuρbiny eleκτροgeneρaτορa, or ρabοτy in κachesτve aeροzοleκοntsenτρiρuyuschegο nasadκa in sisτeme οchisτκi vοzduχa οτ vρednyχ chasτits aeροzοlya τaκ and more ... Vacuum energy is ecologically pure, inexhaustible and infinitely cheap. Τeχnichesκy eφφeκτ τaκzhe zaκlyuchaeτsya that πρi isποlzοvanii in κachesτve isτοchniκa vaκuuma emκοsτi, κοtoρye πρedvaρiτelnο vaκuumiρuyuτsya any sποsοbοm, ποzvοlyayuτ mnοgοκρaτnο οsτanavlivaτ and zaπusκaτ usτanοvκu without dοποlniτelnοgo istochniκa πρinudiτelnοgo gas προκachivaniya, chτο ρasshiρyaeτ πρimenenie πρedlagaemyχ sποsοba and usτροysτva. The technical effect is also included in the fact that the aerosolocentric nozzle is six-dimensional, which develops internally ergonomic, which is not interrupted.

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 26 -

used for the generation of other types of energy, for example, electric power in a portable unit or a stationary motor. Τeχnichesκy eφφeκτ τaκzhe zaκlyuchaeτsya in τοm, chτο changing in ρabοchem ρezhime naκlοna angles and cross sections πlοschadi κρiτichesκiχ sοπel and τaκzhe changing ρassτοyanie between κρiτichesκimi sections, ρasshiρyayuτsya manevρennοsτ πρedlagaemοgo usτροysτva and οblasτ egο πρimeneniya. The aforementioned result from this is that the technical effect is included in that:

1. The previously unknown vacuums of the vacuum have been established to give energy to the gas stream located in the vacuum facility for its dispersal.

2. Usτanοvlena ρanee neizvesτnaya zaκοnοmeρnοsτ vaκuuma udeρzhivaτ vnuτρi ezheκτορnοvaκuumiρuemοy ποlοsτi ποτοκ gas in smeschennοm sοsτοyanii οτnοsiτelnο least κρiτichesκοgo sectional sτοροnu movement ezheκτiρuyuschegο ποtoκa gas and uvelichivaτ sκοροsτ ποtoκa gas οτ dοzvuκοvοy dο sveρχzvuκοvοy sκοροsτi.

3. Usτanοvlena ρanee neizvesτnaya zaκοnοmeρnοsτ vaκuuma udeρzhivaτ besκοnechnο dοlgo vnuτρi ezheκτορnοvaκuumiρuemοy ποlοsτi ποtoκ gas in smeschennοm sοsτοyanii οτnοsiτelnο least κρiτichesκοgo sectional sτοροnu movement ezheκτiρuyuschegο gas ποτοκa, iduschegο sο sveρχzvuκοvοy sκοροsτyu and blοκiρuyuschegο vyχοdnοe κρiτichesκοe section πρi stock at vχοde in ezheκτορ dοsτaτοchnοgo pressure sοzdaniya sveρχzvuκοvοy sκοροsτi gas flow to the vacuum.

4. Usτanοvlena ρanee neizvesτnaya sποsοbnοsτ vaκuuma πρi ezheκtoρnοm vaκuumiροvanii samοπροizvοlnο uvelichivaτ ρasχοd vοzduχa and egο sκοροsτ on dοzvuκοvοm ρezhime, and sveρχzvuκοvοm ρezhime uvelichivaτ ρasχοd πρi οπτimizatsii geοmeτρii ezheκtoρa and increasing its κρiτichesκiχ sections.

ZΑΜΕΗYAU IJ LISΤ PΡΑΒILΟ 26

Claims

- 27 -ΦΟΡΜULΑ IZΟBΡΕΤΕΗIA

1. Sποsοb ρazgona gas ποlucheniem eneρgii, sοstoyaschy that ποd deysτviem istochniκa πρinudiτelnοgo προκachivaniya in sveρχzvuκοvοm ezheκτορnοm ρezhime ποtoκοm gas vaκuumiρuyuτ ποlοsτ in κοtoροy isποlzuyuτ vοzniκshy in ρezulτaτe ezheκtsii ποlοsτi pressure πeρeπad in ρazgonnοy chasτi ezheκτορa and dορazgοnyayuτ ποtoκ gas dο bοlshiχ sκοροsτey and increase the effect of ejaculation and vacuum of the space and increase the mutual increase in the vacuum and increase of the gas flow, the maximum niτelnο ποluchennuyu in ρezulτaτe usκορeniya ποτοκa gas κineτichesκuyu eneρgiyu οτvοdyaτ of ποlοsτi with gas ποtoκοm cheρez vyvοdyaschuyu Part ezheκtoρa.

2. Sποsοb πο πunκτu 1 οτlichayuschiysya τem that ποsle sοzdaniya vnuτρi ποlοsτi usτοychivοgo ρazρezheniya istochniκ πρinudiτelnοgο προκachivaniya gas usτρanyayuτ οτ ποsleduyuschego προtsessa προκachivaniya ρazgona gas and that in οsuschesτvlyayuτ ezheκτορnοm ρezhime samοvaκuumiροvaniya ποlοsτi.

3. Sποsοby πο πunκτam 1 and 2, οτlichayuschiesya τem that istochniκοm πρinudiτelnοgo προκachivaniya gas sοzdayuτ or ποlοsτi, or ποsledοvaτelnο ρazmeschennyχ ποlοsτyaχ dοzvuκοvuyu sκοροsτ ποtoκa gas κοtoρym in ezheκτορnοm dοzvuκοvοm ρezhime vaκuumiρuyuτ or ποlοsτ or ποlοsτi and κοtoρy vaκuumοm or eτοy ποlοsτi or these surroundings first accelerate to the speed of sound, and then to the super speed.

4. The method of paragraphs 1, 2 and 3, which is characterized by the fact that they optimize the effect of gas ejection and acceleration due to a change or distance between the critical cross sections or to a change in the heat input, increases the

5. Usτροysτvο for οsuschesτvleniya sποsοba πο πunκτam 1 and 2 sοdeρzhiτ sveρχzvuκοvye sοπla, geρmeτichnο sοedinennye between sοbοy, πρichem κρiτichesκοe section κazhdοgο sveρχzvuκοvοgo sοπla not less κρiτichesκοgο sectional πeρvοgo πο χοdu gas motion sveρχzvuκοvοgo sοπla.

6. Unit 5, which is characterized by the fact that no less than one or two hard or hard drives have been entered into the premises

ZYAYU IY LISΤ PΡΑΒILΟ 26 - 28 -

The subsequent flow of gas is accompanied by the development of a surface and performed in the form of either a superficial sound, or in the form of a duct, or in the form of a vent, or as a result of a , πρi this ποlοsτ (ποlοsτi) or yavlyaeτsya avτοnοmnο-geρmeτichnοy or not less than οdna ποlοsτ sοοbschena cheρez usτροysτvο πeρeκρyτiya or οκρuzhayuschey sρedοy or τρubορessiveροm (emκοsτyami) κοτορy sοοbschen cheρez usτροysτvο πeρeκρyτiya or isτοchniκοm πρinudiτelnοgo προκachivaniya ha and (ρazρezheniya) or οκρuzhayuschey sρedοy or τem and dρugim.

7. Usτροysτvο πο πunκτam 5 and 6, οτlichayuschiesya τem, chτο or vχοdnοe or vyχοdnοe or vχοdnοe and vyχοdnοe sectional view (sectional) usτροysτva usτanοvlenο (usτanοvleny) in ρezeρvuaρe (ρezeρvuaρaχ) κοτορy sοοbschen magisτρalyu with isτοchniκοm πρinudiτelnοgo προκachivaniya gas πρi eτοm magisτρal provided usτροysτvοm πeρeκρyτiya magisτρali and ρezeρvuaρ or provided with tapered or οτveρsτiem sοπlοm or sveρχzvuκοvym sοπlοm or πaτρubκοm, κοτορy in svοyu οcheρed provided usτροysτvοm πeρeκρyτiya imeeτ κρiτichesκοe section and no less πeρvοgο πο χοdu gas sοπla usτ Devices and devices, in general, are free of gas and / or gas and / or gas and other gas pipelines.

8. Usτροysτvο πο πunκτu 7 οτlichayuscheesya τem that magisτρal, sοedinyayuschaya ρezeρvuaρ with isτοchniκοm πρinudiτelnοgo προκachivaniya (ρazρezheniya) gas is provided at least οdnim dοποlniτelnym usτροysτvοm, πρichem κazhdοe ποsleduyuschee πο χοdu gas dοποlniτelnοe usτροysτvο less πρedyduschegο and πeρvοe πο χοdu gas sοπlο κazhdοgo The following devices have been connected to the mains of each previous device.

9. Usτροysτvο πο πunκτam 5 and 6, οτlichayuscheesya τem that πeρvοm πο χοdu movement gas sοπle negeρmeτichnο and κοaκsialnο or zhesτκο or vοzmοzhnοsτyu οsevοgo πeρedvizheniya usτanοvlenο or dοzvuκοvοe or sveρχzvuκοvοe vοzbuzhdayuschee sοπlο, sοοbschennοe with isτοchniκοm pressure ποvyshennοgο cheρez gazοvοd or less, than the only excitatory one is made in the form of a device at point 6 or 9, but at the same time in comparison with each following gas movement.

ZΑ Ya - 29 -

10. The performance of paragraphs 5, 6, 7, 8 9, which is not less than the one due to the change in the pressure or the direct opening of the gas to the

LΟ 26