SU1598A1 - Apparatus for obtaining high-pressure gas mixture - Google Patents

Description

The subject matter of the present invention is an apparatus for producing a high-pressure gas-vapor mixture. The apparatus is applicable to both stationary and mobile installations in various fields of technology and for different purposes, such as, for example, ep: to obtain a high vapor-gas pressure suitable for driving turbo machines now operating with superheated steam; for central heating of buildings, instead of steam and water boilers; for baking bread, instead of oil nozzles, firewood, and for many other technical and household purposes. FIG. 1 shows the front view of the apparatus proposed, and FIG. 2 - cut it. The apparatus consists of a metal cylinder /, equipped with a jacket 2; in the space 5 between the walls of the cylinder / and the jacket 2, water is placed, inside the same cylinder there are four coils 4, 5, 6, 7 of refractory metal. (The number of coils can be arbitrary). Around the cylinders /, 2 there are five metal cylinders 8, 9, 10, 11, 12 of smaller diameter; of these, two cylinders S, P, located at the top and directly connected by means of the branching tube 13 to the central cylinder / and its water space 3, are filled with water at the same time, when charged to the maximum level. The third middle cylinder 10, located between the cylinders S, 9, is filled with compressed air, which enters the cylinder through conduit 14, & then goes from this cylinder through tube 15 to chamber cMenie 16 and to two lower cylinders / 7, 12. One lower cylinder (left) // is filled with water through a pipeline //. which brings it to the water space 3 of the central cylinder U, to the coils b and 5 and to the front and rear cooling siphon rings 7S, 79. The other lower cylinder (right) 72 connected to the coil 7 is filled with oil or other fuel. The level of water and oil in the cylinders is determined by gauge glasses 20, 21,22,23, the pressure in the central cylinder 7, and in the five cylinders S, 9, 70, 77,72 surrounding it, is determined using pressure gauges 30, 31, 32, 33, 34, 35.

To achieve complete safety from the explosion of the central cylinder and the upper cylinders 8, 9, 10, there are safety clans with counterweights 36, 37, 38. The specified order of placement of the cylinders is not obstructed.

To activate the device, it must be pre-charged. For this purpose, a water supply line is supplied from the city water supply or from another source, which is connected to the process of the pipe 39 through a pressure pump. The water inlet valves 40, 41,42 will be unlocked and the space will be filled until 3 the double jacket of the central cylinder and cylinders //, 5, 9 to the ire.uchny level (shown by the dotted line), which can be observed through the gauge glass 20, 21, 22 or the opening of taps 24-25, 26-27 and 28, after which the , 40, 41, 42 close. Then, an oil pipeline from any source is connected to the process pipe 43 via a mefte-injection pump; open the taps 44, 45 for oil supply and keep them open until the cylinder 12 is filled to the maximum level (indicated by the dotted line and), which can also be seen through the indicator glass 23 or the breakdown of the valve 29. Upon reaching this, the taps 44, 45 airs. Further, compressed air is pumped into the upper middle cylinder 10 by means of an ordinary pump-compressor, the pipeline of which is connected to the branch of the pipe 14. The air pressure in the cylinder 10 is determined by a pressure gauge 31.

At the initial charge, the air introduced 1 в into the cylinders //, 12 to displace water and oil, respectively, pumped by a conventional manual pump, a rubber hose connected to the process of tube 46. Upon reaching pressure in the cylinders 11. 12, pressurize the atmosphere, air pumping stop. Close the crane 47; the pressure is determined by a pressure gauge 34, 35.

By charging the apparatus, its preparation for action is produced, for which the valve 48 is opened, and the oil in the cylinder 12 is forced out of the air pressure through the tube and the valve

49 nostunayet in coil 7, located inside the central cylinder /.

When the coil 7 inside the cylinder and the coil 50 under the ignition chamber 51 are filled with oil, the gas tap 52 is opened, making it possible to verify that there is oil in the coils 7, 50; at the same time, oil is poured into the cup 54 through the nozzle 53, then the lid 55, located under the ignition chamber 51, and the safety valve 56, which is located in the exhaust pipe 57 and equipped with a counterweight 38, are opened.

Putting a little tow in the oil-filled cup 54, the latter is ignited, and the original: 1e, formed from the burning of oil in the cup 54, the combustion products are sucked out through the hole 55, which serves as a blower. For usi.; 1 ti gi ni to add gases from the room to the atmosphere on the free end of the pipe 57 of the safety valve 56 impose additional traction: 13b (not shown not drawing).

While the coil 50 is heated and the oil in it evaporates, four water taps 41, 59, 60, 61 and the water in the cylinder // are opened, air is displaced through tube 62, the coil 4 is filled, also located inside the central cylinder.

By filling the space 3, the double shaft of the central cylinder and the inside of the coils b, 5 to 4 with water inside it, and the coil 7 with oil, can, therefore, without any risk be inserted inside the cylinder / flame.

To do this, open the gas valve .52, which forms from the burning of oil in the coil 50, gas rushes through the nozzle 53, raising the teltrature and, therefore, amplifying and gassing to an extent sufficient for the initial operation.

For further development and acceleration, it is possible through the valve 63 to inject oil gas into the mixing chamber 16, from which, with the gradual opening of the valve 64, gas enters the ignition chamber 5 /, and the presence and quality of the mixture in the mixing chamber is determined by a special control tube 65. When oil gas enters the chamber of ignition 51, its initial flash comes from the flame penetrating this chamber through the suction port 55 in the coil 50. It is possible to ignite the gas and an electric spark from special tool 66 which fits against the gas outlet. The gas coming from the chamber 16 into the chamber 5 /, instantly flashes and the entire mass of the flame formed in it spreads throughout the cylinder, where the coils 4, 5, 6, 7 are located. At the same time, all the heat that develops from burning inside the cylinder, it is transmitted to the inner walls of the cylinder itself and the walls of four coils, of which one 7 is filled with oil and 4, 5 and 6 water. The oil and water filling the coils, being separated by thin layers under the action of a high flame temperature, quickly evaporate. The gas obtained from the oil in the coil 7 enters the discharge tube 67, passes through the coil 50 and through the valve 63, enters the mixing chambers} 16 n, since the screw 64 is open, then through its opening into the ignition chamber 51. Thus Continued admission and combustion are maintained, and consequently, continuity of gas generation in the coil 7 with full heat release to both the walls of the cylinder and the walls of the coils 4, 5, b, 7. Couples formed from water in coils 4, 5, 6, accelerated boil water in the jacket of the central cylinder and in the ba wombs 8, 9, up to half filled with water. The described process must be maintained until boiling of water in the above-mentioned containers is achieved and the steam pressure in cylinders 8 and 9 is increased to five or more atmospheres. The magnitude of the vapor pressure in the cylinders 8, 9 is determined by gauges 30, 32; as soon as the vapor pressure in the cylinders 8, 9 of the specified value (from 5 to 6 atm.), the valve 65 is opened and steam is let into the compressor pump (not shown in the diagram), driving it to inflate the air into the cylinder 10. When the pressure in the cylinder 10 reaches 5-6 atmospheres, taps 69, 70, 71 are opened, and the air, having passed through the tube 72, enters the cylinders // and 12, producing pressure on the water and oil in them instead of air, which , at the beginning of the action, was pumped into them by a hand pump. Subsequently, the taps 69, 70, 71 remain open and the pumping up of air by the steam compressor continues until the known maximum of high pressure is reached in the cylinder 10, as well as in the / 7 and / 2 cylinders connected to it. In parallel with the increase in the air pressure in the cylinders 11, 12 and 10, the vapor pressure in the cylinders 8, 9 also increases, and the air pressure should not exceed the vapor pressure and vice versa. When the air pressure in the cylinder 10 and the vapor in the cylinders 5, 9 reach 5075 atmospheres, immediately turn off the valve 59 and open the valve 75, 74. This stops the influx into the coil 4 from the cylinder // water, instead of which saturated steam is introduced 8 through pipe 75 or from coils 5, 6 through pipe 76, 62 through valve 73. Saturated steam when heated through coil 4 overheats to a high temperature; of course, it is necessary to take into account the melting temperature of the metal from which parts of the apparatus are made, which are exposed to this high temperature, which is determined by the thermometer 77 inside the central cylinder and in the ignition chamber 51. The superheated steam obtained in the coil 4 is sent to the cylinders 8, 9 is not still the way through valve 78, since it closes at this time, and through pipe 79 goes to valve 80. However, internal combustion continues to be maintained by atmospheric air flowing through the 5S opening. Until now, the combustion inside the central cylinder was maintained exclusively by air coming from the atmosphere through the opening 55, and all the products obtained from the combustion of gases inside the cylinder also entered the atmosphere through the chimney 57. Now that the pressure in the cylinder 10 has reached 50- 75 atmospheres, hole 55

gradually shut off the flames and this stops the flow of air from the atmosphere; at the same time, the valve 81 and the valve 82 are opened and the mixing chamber 16 is also allowed to air from the cylinder 10, which air replaces the air that has so far through the hole 58 from the atmosphere. Simultaneously with the closure of the opening 55, it is also necessary to close the opening of the exhaust pipe 57 1 by washing the safety valve 56. Subsequently, 15 the smoldering chamber 16 will receive oil gas from the coil 7, superheated steam from the coil 4 and compressed air from the cylinder 10 the same high pressure, at which the inflow in the required quantity is regulated by valves 63, 64, 80, 82. In the chamber / b there is a mixture of gases, which, under pressure from arrows 1-1-1-1, rush into the chamber of ignition 51 through the opening of the control valve 64. Processes combustion becomes more intensive, as the temperature rises further leaching, despite the fact that the atmospheric air and free exit of combustion products into the atmosphere is discontinued.

Consideration of the chemical composition of benzcBB (air, water, oil), forming a mixture, taken in% attribution, suggests that the burning of the elements in a closed cylinder is quite acceptable, at a very high temperature.

From the fiery combustion of gases in a closed cylinder, gaseous combustion products are obtained, which, expanding from the continuous combustion, continuously deliver a high pressure acting on the walls of the cylinder. This pressure is transmitted to the central pilind pz through the opening of the pipe 83 for disposal with appropriate technical or economic purposes.

In order for the high temperature of the internal gases of the fiery combustion not to have a destructive effect on the coils 4.5, 6.7 located inside the cylinder, it is necessary to lower the temperature inside the cylinder to a limit harmless to the coils. For this purpose, there is a special ring tube 18 located in the front part of the cylinder and equipped with Fia all

of its circumference by a number of small holes opening towards the coils 4, 5, 6, 7. From the cylinders S, 9 through the taps 84, 85 into the ring / S they let in a rich barn, which through the said holes enters the sphere of the flame, cm and the desired temperature reduction is achieved; this steam, in addition, enhances the density of gases in the cylinder, hrn than the ring 18, along with the thermometer, helps push the combustion products out of the cylinder.

If saturated steam were not sufficient to cool the fiery gases, the required amount of water could be sent through valve 86 to the same ring 8, being under high air pressure from the JL cylinder. Exit from the holes of the J8 ring and coming into contact with coil. and with a flame, water will contribute to a stronger cooling of the coils, at that, ca., from contact with the flame and from being very hot. CTenKasni is converted into steam, which increases the density of gases in the cylinder 1.

In the case of applying the obtained pressure of flame gases, not for prices of | -ral heating or so-called. For the purpose of actuating the turbo-machine, in order to eliminate the destructive effect of high temperature on the blades of the turbo arm in the rear part of the cylinder /, a second siphon flimsy ring 19 is installed in the direction towards the outlet of the pipe 83, the device and operation likewise with the | -akovy. and the front one.1. 18. From the described operation of the apparatus it can be concluded that the efficiency of the proposed apparatus should be very high, so no calorie of developing heat goes into the space previously used Because of its use, not a single cubic centimeter of gas and steam does not go away without producing some useful work.

P R D D .1; I P l I ii nt.

An apparatus for producing a vapor-gas mixture of high pressure, characterized by the use of a working 1 cylinder 7 with a water jacket 3 - 2 filled with heating

coils 4, 5, 6 7 equipped with a fuse 56 and an outlet pipe 83, into which the chamber under pressure through the mixing chamber 16 and the incendiary chamber 51 are supplied: oil heated up in coils 7 and 50, compressed air from a cylinder 10 overheated in coils of steam from cylinders 5 and P and steam or water from the cylinder // through annular tubes 18 and 19, while the mixture in the balloon is in working condition / must be under pressure; while burning with the aid of an incendiary device 50, 53 and 54 with an open aperture 58 and with the help of a chimney fitted on the outlet 57 of an open safety device, the working chamber can communicate with the atmosphere.