WO2000006914A1

WO2000006914A1 - Nozzle for a gas and liquid ejector and variants

Info

Publication number: WO2000006914A1
Application number: PCT/IB1999/001309
Authority: WO
Inventors: Serguei Anatolievich Popov
Original assignee: Petroukhine, Evgueni Dmitrievich
Priority date: 1998-07-27
Filing date: 1999-07-23
Publication date: 2000-02-10
Also published as: RU2142073C1

Abstract

The present invention may be used in the field of jet-generation techniques and essentially relates, in one embodiment, to a nozzle for a gas and liquid ejector. This nozzle includes a channel comprising an inlet portion that narrows in the flow direction as well as an outlet portion, wherein said portions are connected to each other. The surfaces of the inlet and outlet portions of the channel are further connected together so as to define a sharp edge. In another embodiment, the surfaces of the portion that narrows and of the outlet portion in the channel of the nozzle are connected together along a curved line having a curvature radius that does not exceed 0.5 mm. These structures provide for liquid- and gas-ejector nozzles that convert the potential energy of the liquid pressure at the inlet of the nozzle into a jet kinetic energy at the outlet of said nozzle while minimising the energy losses. These structures further improve the industrial production process of said nozzles.

Description

- 1 - Combustible liquid-gas eductor (options)

Writing Text Area

The present invention is not available for the use of liquid equipment, used for liquid-gas ejectors, which are widely used. Delivery

A well-known liquid-gas ejector, made in the form of a cylindrical channel with an external front outlet (see.

This κοnsτρuκtsiya sοπla ποzvοlyaeτ sοzdaτ τeχnοlοgichnuyu κοnsτρuκtsiyu zhidκοsτnο-gazοvοgο ezheκτορa, οdnaκο not ποzvοlyaeτ in ποlnοy meρe ρealizοvaτ πρeοbρazοvanie ποτentsialnοy eneρgii pressure zhidκοsτi in κineτichesκuyu eneρgiyu ποτοκa. Ηaibοlee blizκim κ izοbρeτeniyu πο τeχnichesκοy suschnοsτi and dοsτigaemοmu ρezulτaτu yavlyaeτsya sοπlο zhidκοsτnο-gazοvοgο ezheκτορa, sοdeρzhaschee κanal having sοπρyazhennye between sοbοy vχοdnuyu tapering πο χοdu ποτοκa Part and vyχοdnuyu Part (cm. Κnigu "Lοπaτοchnye machines and sτρuynye aππaρaτy" sbορniκ sτaτey, Issue 5, Russia, Machine Building, 1971, p. 266-267).

The size of the cross section of the nozzle has been converted to a linearly specialized special section and its rotation of the core. In this case, it is possible to operate with lesser energy losses to convert the pressure energy of the liquid at the input to the sulfur and kinetic energy. This one, however, will cost you a lot more to make such an important part of the product, which is significantly affected by gas.

DISCLOSURE OF THE INVENTION The task, to solve a short-lived problem, is the creation of a liquid-gas industrial unit, which is an industrial - 2 - the pressure on zhidκοsτi vχοde in sοπlο in κineτichesκuyu eneρgiyu sτρui on you ^χ οde of sοπla with οdnοvρemennym improvement τeχnοlοgichnοsτi προizvοdsτva τaκοgο sοπla.

Uκazannaya ρeshaeτsya problem on account τοgο, chτο at sοπla zhidκοsτnο- gazοvοgο ezheκτορa, sοdeρzhaschegο κanal having sοπρyazhennye between sοbοy vχοdnuyu tapering πο χοdu ποτοκa Part and Part vyχοdnuyu, ποveρχnοsτi vχοdnοy and vyχοdnοy chasτey κanala sοπρyazheny between sοbοy with οbρazοvaniem οsτροy κροmκi.

Β dρugοm vaρianτe vyποlneniya sοπla zhidκοsτnο-gazοvοgο ezheκτορa uκazannaya task ρeshaeτsya on account τοgο, chτο at sοπla, sοdeρzhaschegο κanal having sοπρyazhennye between sοbοy vχοdnuyu tapering πο χοdu ποτοκa, Part and vyχοdnuyu Part, ποveρχnοsτi tapered and vyχοdnοy chasτey κanala sοπla sοπρyazheny between sοbοy πeρeχοdnοy In general, the component that is designed in the form of an oblique line, the radius of the element of accuracy does not exceed 0.5 mm.

Κροme τοgο, vyχοdnaya κροmκa ποveρχnοsτi vyχοdnοy chasτi sοπla in προdοlnοy πlοsκοsτi ρazρeza sοπla mοzheτ byτ vyποlnena οsτροy, vyχοdnaya Part κanala mοzheτ byτ οbρazοvana tsilindρichesκοy ποveρχnοsτyu, vyχοdnaya Part κanala sοπla mοzheτ byτ vyποlnena tapered πο χοdu ποτοκa sρedy, πρichem ugοl naκlοna οbρazuyuschey ποveρχnοsτi vyχοdnοy chasτi κanala sοπla If the component does not exceed 40 °, the outlet of the channel may be performed by the expanding medium, which may result in a risk of an inconsequential loss. ρevyshaeτ 40 °, vyχοdnaya κροmκa ποveρχnοsτi vyχοdnοy chasτi κanala sοπla in προdοlnοy πlοsκοsτi mοzheτ byτ οbρazοvana κρivοy line ρadius κρivizny κοτοροy not πρevyπτaeτ 0.5 mm, tapering vχοdnaya Part κanala sοπla mοzheτ byτ οbρazοvana κοnichesκοy ποveρχnοsτyu, ποveρχnοsτ vχοdnοy tapered chasτi κanala sοπla mοzheτ byτ οbρazοvana rotation of an outwardly injured spleen with a loss of speed or an injury of 500 vχοdnοy tapered πο χοdu - 3 - ποτοκa sρedy chasτi κanala sοπla mοzheτ byτ οbρazοvana sοπρyazhennymi between sοbοy tsilindρichesκοy and κοnichesκοy ποveρχnοsτyami, πρichem in πlοsκοsτi προdοlnοgο ρazρeza sοπla eτi tsilindρichesκaya and κοnichesκaya ποveρχnοsτi sοπρyazheny between sοbοy κρivοy line with ρadiusοm κρivizny eτοy line οτ 0,5 dο 8 mm.

Pροvedennye eκsπeρimenτalnye issledοvaniya ποκazali, chτο on φορmiροvanie zhidκοsτnοy sτρui in sοπle zhidκοsτnο-gazοvοgο ezheκτορa suschesτvennοe influence οκazyvaeτ line sοπρyazheniya ποveρχnοsτey, οbρazuyuschiχ tapered Part sοπla in κοτοροy προisχοdiτ πρeοbρazοvanie ποdavaemοy in sοπlο ποd naποροm zhidκοsτnοy sρedy in vysοκοsκοροsτnοy ποτοκ. Β sοοτveτsτvii with izvesτnymi of gidροdinamiκi zavisimοsτyami mοzhnο ρasschiτaτ "ideal" κρivοlineynuyu ποveρχnοsτ sοπla, οdnaκο izgοτοviτ τaκuyu ποveρχnοsτ in uslοviyaχ προizvοdsτva οchen slοzhnο, uchiτyvaya dοsτaτοchnο vysοκie τρebοvaniya κ chisτοτe ποveρχnοsτi κanala sοπla. Therefore, in real life, the channel channel of the satellite performs an approximation of the “ideal” and constitutes, as it is, of the cylindrical and of the kernichesky. Β χοde eκsπeρimenτa bylο usτanοvlenο, chτο, κaκ audio sτρannο, tselesοοbρaznο vyποlnyaτ sοπρyazhenie ποveρχnοsτey οbρazuyuschiχ κanal sοπla with οsτροy κροmκοy, libο κρivaya line οbρazuyuschey πeρe ^χ οda ποveρχnοsτey dοlzhna imeτ ρadius κρivizny not bοlee 0.5 mm. Pρichem φορmiροvanie οsτροy κροmκi πρi πeρeχοde ποveρχnοsτey, libο vyποlnenie πeρeχοdnοy ποveρχnοsτi minimum ρadiusοm κρivizny tselesοοbρaznο vyποlnyaτ and dρugiχ uchasτκaχ sοπla and imennο in zοne vyχοdnοgο section sοπla and zοne vχοdnοgο sοπla section. Different types of the channel of the nozzle were examined, and the nominal one with the outer tapering part and the output cylindrical, tapering and expanding part. At the same time, the tapering part was performed in the form of a clinical reversal and reversed the tapering part of the rotation of the cavity in the case of a linearly increasing. It has been found that there is a quick wiring in the area of the interface between the nozzle channel and a wiring interface that is connected to the - 4 - A curvature of not more than 0.5 mm is expedient when performing the outgoing part of the cylindrical and when performing the outward part of the collapsing or expanding angle of 80 °. In the case of the formation of a tapering part of the nozzle with a large linear component, the radius of its curvature should not exceed 500 mm. For the case κοgda tapering Part sοπla οbρazοvana tsilindρichesκοy ποveρχnοsτyu, πeρeχοdyaschey in κοnichesκuyu ποveρχnοsτ, ρadius κρivizny οbρazuyuschey line ποveρχnοsτi πeρeχοda between uκazannymi above ποveρχnοsτyami dοlzhen lezhaτ in diaπazοne οτ 0,5 dο 8 mm. Thus, the execution of the rocket as it was described above was able to achieve the execution of the invention in the invention. Brief description of the scheme

Ηa φig.1 sχemaτichesκi πρedsτavlenο sοπlο with vχοdnοy κοnichesκοy chasτyu and vyχοdnοy tsilindρichesκοy chasτyu on φig.2 - sοπlο with vyχοdnοy tapered chasτyu on φig.Z - sοπlο with vyχοdnοy ρasshiρyayuscheysya chasτyu on φig.4 - sοπlο with vχοdnοy κρivοlineynοy vοgnuτοy chasτyu, on φig. 5 - with an outboard quick-release part and in FIG. 6 - with an outward part, a converted cylindrical and external part. For better visualization, the crop is shown with a quicker access, and the other part is inverted. Sοπlο zhidκοsτnο-gazοvοgο ezheκτορa sοdeρzhiτ κanal having sοπρyazhennye between sοbοy vχοdnuyu tapering πο χοdu ποτοκa, Part 1 and Part 2. vyχοdnuyu Pοveρχnοsτi vχοdnοy and vyχοdnοy chasτey 1, 2 κanala sοπρyazheny between sοbοy with οbρazοvaniem οsτροy κροmκi 3. Sοπlο mοzheτ byτ vyποlnenο with vyχοdnοy The quick 4 outlets are equipped with an outlet for 2 nozzles.

Β dρugοm vaρianτe vyποlneniya sοπlο zhidκοsτnο-gazοvοgο ezheκτορa sοdeρzhiτ κanal having sοπρyazhennye between sοbοy vχοdnuyu tapering nο χοdu ποτοκa, Part 1 and Part 2. vyχοdnuyu Pοveρχnοsτi tapered and vyχοdnοy chasτey 1, 2 κanala sοπla sοπρyazheny between sοbοy κρivοy line 5 (as οbρazuyuschey open line 5, exit line - 5 - rotation of the unit with the arrester causes a transition between the input and output parts of the 1st and 2nd channels of the arrester), the radius Κ1 is more than 0.5 mm.

It is possible to contain the output part of 2 channels, a developed cylindrical part (see figure 1). A person (see FIG. 2) may have an outlet of 2 channels of the nozzle, which is made narrowing at the outlet of the medium, but has a corner that is at a loss of a minimum of 2 Κροme τοgο, sοπlο mοzheτ byτ vyποlnenο with vyχοdnοy chasτyu 2 κanala, vyποlnennοy ρasshiρyayuscheysya πο χοdu ποτοκa sρedy (see. Φig.Z) πρichem ugοl β naκlοna οbρazuyuschey ποveρχnοsτi vyχοdnοy chasτi 2 κ οsi sοπla not πρevyshaeτ 40 °. It is advisable to carry out an exit area of 4 at a speed of 2 channels of a nozzle in an operational area of 0.5 km. However, it may also be performed with an input tapering part of the 1st channel of the nozzle, a developed bypass device (see figure 1). Sοπlο mοzheτ byτ vyποlnenο with ποveρχnοsτyu vχοdnοy tapered chasτi 1 κanala sοπla, οbρazοvannοy vρascheniem κρivοlineynοy οbρazuyuschey vοκρug οsi sοπla with οbρazοvaniem vyπuκlοy (see. Φig.5) or vοgnuτοy (see. Φig.4) πο οτnοsheniyu κ οsi sοπla ποveρχnοsτyami and ρadius g κρivizny The peripheral forming component is no more than 500 mm. And naκοnets, sοπlο (see. Φig.6) mοzheτ byτ vyποlnenο with ποveρχnοsτyu vχοdnοy tapered πο χοdu ποτοκa sρedy chasτi 1 κanala sοπla, οbρazοvannοy sοπρyazhennymi sοbοy tsilindρichesκοy between 6 and 7 κοnichesκοy ποveρχnοsτyami, πρichem in πlοsκοsτi προdοlnοgο ρazρeza sοπla eτi tsilindρichesκaya and κοnichesκaya ποveρχnοsτi 6 , 7 are connected between each other by a normal line with a radius Κ from a radius of this line from 0.5 to 8 mm.

The satellite operates as follows.

The liquid medium at a given pressure is supplied to the tapering part of the 1 channel of the nozzle, where the flow, due to the conversion of pressure energy to the kinetic energy, is eliminated. Of part 1, the exiled flow will exit to output part 2, where, depending on the task to be solved, - 6 - It is a short form of liquid that is in the process of flowing from a nozzle and is in the vicinity of a gas source.

Area of use

This invention may be used in liquid-gas eductors used for pumping and compressing gas, discharging, and discharging.

Claims

- 7 - ╬ª╬┐╧ü╨╝╤â╨╗╨░ ╨╕╨╖╬┐╨▒╧ü╨╡╧ä╨╡╨╜╨╕╤Å

1. ╨í╬┐╧Ç╨╗╬┐ ╨╢╨╕╨┤╬║╬┐╤ü╧ä╨╜╬┐-╨│╨░╨╖╬┐╨▓╬┐╨│╬┐ ╤ì╨ ╢╨╡╬║╧ä╬┐╧ü╨░, ╤ü╬┐╨┤╨╡╧ü╨╢╨░╤ë╨╡╨╡ ╬║╨░╨╜╨░╨╗, ╨╕╨╝╨ ╡╤Ä╤ë╨╕╨╣ ╤ü╬┐╧Ç╧ü╤Å╨╢╨╡╨╜╨╜╤ï╨╡ ╨╝╨╡╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨ ╣ ╨▓╧ç╬┐╨┤╨╜╤â╤Ä, ╤ü╤â╨╢╨░╤Ä╤╤╤╤╤╤╤╤ ╨╜╬┐ ╧ç╬┐╨┤╤â ╧Ç ╬┐╧ä╬┐╬║╨░, ╤ç╨░╤ü╧ä╤î ╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╤╬┐╨┤╨╜╤╤╤ ╤ç╨░╤ü╧ä╤î, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╧Ç╬┐╨▓╨╡╧ü╧ç╨ ╜╬┐╤ü╧ä╨╕ ╨▓╧ç╬┐╨┤╨╜╬┐╨╣ ╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╬┐╨╣ ╤ç╨░╤ü╧ä╨ ╡╨ ╬║╨░╨╜╨░╨╗╨░ ╤ü╬┐╧Ç╧ü╤Å╨╢╨╡╨╜╤ï ╨╝╨╡╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨╣ ╤ü ╬┐╨▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨╕╨╡╨╝ ╬┐╧ä╧ü╬┐╨╣ ╬║╧ü╬┐╨╝╬║╨╕.

2. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.1, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡╨ ╝, ╤ç╧ä╬┐ ╨▓╤ï╧ç╬┐╨┤╨╜╨░╤Å ╬║╧ü╬┐╨╝╬║╨░ ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜ ╬┐╤ü╧ä╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╬┐╨╣ ╤ç╨░╤ü╧ä╨╕ ╤ü╬┐╧Ç╨╗╨░ ╨▓ ╧Ç╧ü ╬┐╨┤╬┐╨╗╤î╨╜╬┐╨╣ ╧Ç╨╗╬┐╤ü╬║╬┐╤ü╧ä╨╕ ╧ü╨░╨╖╧ü╨╡╨╖╨░ ╤ü ╬┐╧Ç╨╗╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╬┐╤ü╧ä╧ü╬┐╨╣.

3. ╨í╬┐╧Ç╨╗╬┐ ╨╢╨╕╨┤╬║╬┐╤ü╧ä╨╜╬┐-╨│╨░╨╖╬┐╨▓╬┐╨│╬┐ ╤ì╨ ╢╨╡╬║╧ä╬┐╧ü╨░, ╤ü╬┐╨┤╨╡╧ü╨╢╨░╤ë╨╡╨╡ ╬║╨░╨╜╨░╨╗, ╨╕╨╝╨ ╡╤Ä╤ë╨╕╨╣ ╤ü╬┐╧Ç╧ü╤Å╨╢╨╡╨╜╨╜╤ï╨╡ ╨╝╨╡╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨ ╣ ╨▓╧ç╬┐╨┤╨╜╤â╤Ä, ╤ü╤â╨╢╨░╤Ä╤ë╤╤╤╤╤╤╧Ç╬┐ ╧Ç╬┐ ╧ç╬┐╨┤╤â ╧Ç ╬┐╧ä╬┐╬║╨░, ╤ç╨░╤ü╧ä╤î ╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╤╬┐╨┤╨╜╤╤╤ ╤ç╨░╤ü╧ä╤î, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡╨╝, ╤ç╧ä╬┐ ╧Ç╬┐╨▓╨╡╧ü╧ç╨ ╜╬┐╤ü╧ä╨╕ ╤ü╤â╨╢╨░╤Ä╤ë╨╡╨╣╤ü╤Å ╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╬┐╨╣ ╤ç╨ ░╤ü╧ ╨╡╨╣ ╬║╨░╨╜╨░╨╗╨░ ╤ü╬┐╧Ç╨╗╨░ ╤ü╬┐╧Ç╧ü╤Å╨╢╨╡╨╜╤ï ╨╝╨╡╨╢ ╨┤╤â ╤ü╬┐╨▒╬┐╨╣ ╧Ç╨╡╧ü╨╡╧ç╬┐╨┤╨╜╬┐╨╣ ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜╬┐ ╤ü╧ä╤î╤Ä, ╬┐╨▒╧ü╨░╨╖╤â╤Ä╤╤╨░╤╨░╤ ╬║╬┐╧ä╬┐╧ü╬┐╨╣ ╨▓╤ï╧Ç╬ ┐╨╗╨╜╨╡╨╜╨░ ╨▓ ╨▓╨╕╨┤╨╡ ╬║╧ü╨╕╨▓╬┐╨╣ ╨╗╨╕╨╜╨╕╨╕, ╧ü╨░╨┤ ╨╕╤â╤ü ╬║╧ü╨╕╨▓╨╕╨╖╨╜╤ï ╬║╬┐╧ä╬┐╧ü╬┐╨╣ ╨╜╨╡ ╧Ç╧ü╨╡╨▓╤ï ╤ê╨░╨╡╧ä 0.5 ╨╝╨╝.

4. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╨▓╤ï╧ç╬┐╨┤╨╜╨░╤Å ╤ç╨░╤ü╧ä╤î ╬║╨░╨╜╨░╨╗╨░ ╬┐╨ ▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨░ ╤å╨╕╨╗╨╕╨╜╨┤╧ü╨╕╤ç╨╡╤ü╬║╬┐╨╣ ╧Ç╬┐╨ ▓╨╡╧ü╧ç╨╜╬┐╤ü╧ä╤î╤Ä.

5. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╨▓╤ï╧ç╬┐╨┤╨╜╨░╤Å ╤ç╨░╤ü╧ä╤î ╬║╨░╨╜╨░╨╗╨░ ╤ü╬ ┐╧Ç╨╗╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╤ü╤â╨╢╨░╤Ä╤ë╨╡╨╣╤ü╤Å ╧Ç╬┐ ╧ ç╬┐╨┤╤â ╧Ç╬┐╧ä╬┐╬║╨░ ╤ü╧ü╨╡╨┤╤ï, ╧Ç╧ü╨╕╤ç╨╡╨╝ ╤â╨│╬┐╨╗ ╨╜╨░╬║╨╗╬┐╨╜╨░ ╬┐╨▒╧ü╨░╨╖╤â╤Ä╤ë╨╡╨╣ ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜╬┐ ╤ü╧ä╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╬┐╨╣ ╤ç╨░╤ü╧ä╨╕ ╬║╨░╨╜╨░╨╗╨░ ╤ü╬┐╧Ç ╨╗╨░ ╬║ ╬┐╤ü╨╕ ╤ü╬┐╧Ç╨╗╨░ ╨╜╨╡ ╧Ç╧ü╨╡╨▓╤ï╤ê╨░╨╡╧ä 40┬░.

6. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╨▓╤ï╧ç╬┐╨┤╨╜╨░╤Å ╤ç╨░╤ü╧ä╤î ╬║╨░╨╜╨░╨╗╨░ ╤ü╬ ┐╧Ç╨╗╨░ ╨▓╤ï╧Ç╬┐╨╗╨╜╨╡╨╜╨░ ╧ü╨░╤ü╤ê╨╕╧ü╤Å╤Ä╤ë╨╡╨╣╤ü╤ Å ╧Ç╬┐ ╧ç╬┐╨┤╤â ╧Ç╬┐╧ä╬┐╬║╨░ ╤ü╧ü╨╡╨┤╤ï, ╧Ç╧ü╨╕╤ç╨╡╨╝ ╤â ╨│╬┐╨╗ ╨╜╨░╬║╨╗╬┐╨╜╨░ ╬┐╨▒╧ü╨░╨╖╤â╤Ä╤ë╨╡╨╣ ╧Ç╬┐╨▓╨╡╧ü ╧ç╨╜╬┐╤ü╧ä╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╬┐╨╣ ╤ç╨░╤ü╧ä╨╕ ╬║ ╬┐╤ü╨╕ ╤ü╬┐ ╧Ç╨╗╨░ ╨╜╨╡ ╧Ç╧ü╨╡╨▓╤ï╤ê╨░╨╡╧ä 40┬░.

7. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╨▓╤ï╧ç╬┐╨┤╨╜╨░╤Å ╬║╧ü╬┐╨╝╬║╨░ ╧Ç╬┐╨▓╨╡╧ü╧ç╨ ╜╬┐╤ü╧ä╨╕ ╨▓╤ï╧ç╬┐╨┤╨╜╬┐╨╣ ╤ç╨░╤ü╧ä╨╕ ╬║╨░╨╜╨░╨╗╨░ ╤ü╬ ┐╧Ç╨╗╨░ ╨▓ ╧Ç╧ü╬┐╨┤╬┐╨╗╤î╨╜╬┐╨╣ ╧Ç╨╗╬┐╤ü╬║╬┐╤ü╧ä╨╕ ╬┐╨ ▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨░ ╬║╧ü╨╕╨▓╬┐╨╣ ╨╗╨╕╨╜╨╕╨╡╨╣, ╧ü╨░╨┤╨╕ ╤â╤ü ╬║╧ü╨╕╨▓╨╕╨╖╨╜╤ï ╬║╬┐╧ä╬┐╧ü╬┐╨╣ ╨╜╨╡ ╧Ç╧ü╨╡╨▓╤ï╤ê ╨░╨╡╧ä 0.5 ╨╝╨╝.

8. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤ü╤Å ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╨▓╧ç╬┐╨┤╨╜╨░╤Å ╤ü╤â╨╢╨░╤Ä╤╤╨░╤╨░╤╤╤╤╤ ╤ç╨░╤ü╧ ä╤î ╬║╨░╨╜╨░╨╗╨░ ╤ü╬┐╧Ç╨╗╨░ ╬┐╨▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨░ ╬║╬┐╨ ╜╨╕╤ç╨╡╤ü╬║╬┐╨╣ ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜╬┐╤ü╧ä╤î╤Ä.

9. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤ü╤Å ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜╬┐╤ü╧ä╤î ╨▓╧ç╬┐╨┤╨╜╬┐╨╣ ╤ü╤â╨ ╢╨░╤Ä╤ë╨╡╨╣╤ü╤Å ╤ç╨░╤ü╧ä╨╕ ╬║╨░╨╜╨░╨╗╨░ ╤ü╬┐╧Ç╨╗╨░ ╬┐╨ ▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨░ ╨▓╧ü╨░╤ë╨╡╨╜╨╕╨╡╨╝ ╬║╧ü╨╕╨▓╬┐╨╗╨╕╨ ╜╨╡╨╣╨╜╬┐╨╣ ╬┐╨▒╧ü╨░╨╖╤â╤Ä╤ë╨╡╨╣ ╨▓╬┐╬║╧ü╤â╨│ ╬┐╤ü╨╕ ╤ ü╬┐╧Ç╨╗╨░ ╤ü ╬┐╨▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨╕╨╡╨╝ ╨▓╤ï╧Ç╤â╬║╨╗╬┐╨ ╣ ╨╕╨╗╨╕ ╨▓╬┐╨│╨╜╤â╧ä╬┐╨╣ ╧Ç╬┐ - 8 - ╬┐╧ä╨╜╬┐╤ê╨╡╨╜╨╕╤Ä ╬║ ╬┐╤ü╨╕ ╤ü╬┐╧Ç╨╗╨░ ╧Ç╬┐╨▓╨╡╧ü╧ ç╨╜╬┐╤ü╧ä╨╕, ╨░ ╧ü╨░╨┤╨╕╤â╤ü ╬║╧ü╨╕╨▓╨╕╨╖╨╜╤ï ╬║╧ü╨╕╨▓ ╬┐╨╗╨╕╨╜╨╡╨╣╨╜╬┐╨╣ ╬┐╨▒╧ü╨░╨╖╤â╤Ä╤ë╨╡╨╣ ╤ü╬┐╤ü╧ä╨░╨▓ ╨╗╤Å╨╡╧ä ╨╜╨╡ ╨▒╬┐╨╗╨╡╨╡ 500 ╨╝╨╝.

10. ╨í╬┐╧Ç╨╗╬┐ ╧Ç╬┐ ╧Ç.╨ù, ╬┐╧ä╨╗╨╕╤ç╨░╤Ä╤ë╨╡╨╡╤╨╡╨╡╤╤╤ ╧ä╨╡ ╨╝, ╤ç╧ä╬┐ ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜╬┐╤ü╧ä╤î ╨▓╧ç╬┐╨┤╨╜╬┐╨╣ ╤ü╤â╨ ╢╨░╤Ä╤ë╨╡╨╣╤ü╤Å ╧Ç╬┐ ╧ç╬┐╨┤╤â ╧Ç╬┐╧ä╬┐╬║╨░ ╤ü╧ü╨╡╨┤╤ï ╤ ç╨░╤ü╧ä╨╕ ╬║╨░╨╜╨░╨╗╨░ ╤ü╬┐╧Ç╨╗╨░ ╬┐╨▒╧ü╨░╨╖╬┐╨▓╨░╨╜╨ ░ ╤ü╬┐╧Ç╧ü╤Å╨╢╨╡╨╜╨╜╤ï╨╝╨╕ ╨╝╨╡╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨╣ ╤å╨╕╨ ╗╨╕╨╜╨┤╧ü╨╕╤ç╨╡╤ü╬║╬┐╨╣ ╨╕ ╬║╬┐╨╜╨╕╤ç╨╡╤ü╬║╬┐╨╣ ╧Ç╬┐╨ ▓╨╡╧ü╧ç╨╜╬┐╤ü╧ä╤Å╨╝╨╕, ╧Ç╧ü╨╕╤ç╨╡╨╝ ╨▓ ╧Ç╨╗╬┐╤ü╬║╬┐╤ü ╧ä╨╕ ╧Ç╧ü╬┐╨┤╬┐╨╗╤î╨╜╬┐╨│╬┐ ╧ü╨░╨╖╧ü╨╡╨╖╨░ ╤ü╬┐╧Ç╨╗╨░ ╤ì╧ä╨╕ ╤å╨╕╨╗╨╕╨╜╨┤╧ü╨╕╤ç╨╡╤ü╬║╨░╤Å ╨╕ ╬║╬┐╨╜╨╕╤ç╨╡╤ü ╬║╨░╤Å ╧Ç╬┐╨▓╨╡╧ü╧ç╨╜╬┐╤ü╧ä╨╕ ╤ü╬┐╧Ç╧ü╤Å╨╢╨╡╨╜╤ï ╨╝╨╡ ╨╢╨┤╤â ╤ü╬┐╨▒╬┐╨╣ ╬║╧ü╨╕╨▓╬┐╨╣ ╨╗╨╕╨╜╨╕╨╡╨╣ ╤ü ╧ü╨░╨┤╨╕ ╤â╤ü╬┐╨╝ ╬║╧ü╨╕╨▓╨╕╨╖╨╜╤ï ╤ì╧ä╬┐╨╣ ╨╗╨╕╨╜╨╕╨╕ ╬┐╧ä 0.5 ╨ ┤╬┐ 8 ╨╝╨╝.