SU1483108A1 - Thermal hoist - Google Patents

Abstract

The invention relates to the field of pump construction, in particular, to the construction of an oil thermal lifter, and can be used in the design of thermal hydrotransport devices. The purpose of the invention is to increase the efficiency by reducing the hydraulic resistance. When compressed air is supplied through channel 14, the ignition mechanism 4 is turned on and part of the oil is burned in ejector 5. Combustion products enter the mixing chamber 12 through an additional nozzle 11 and the oil flows through holes 9.10 in pipe 3, which due to the gas-lift effect enters the surface. Part of the combustion products and heated air through the recirculation pipe 13 comes to the lower section of the pipe and liquefies the oil. Above, the oil is aerated by contact with the heated parts of the thermal lifter. 1 il.

Description

(54) THERMAL LIFT (57) The invention relates to the field of pump engineering, in particular to the construction of an oil thermal elevator, and can be used in the design of thermal hydrotransport devices. The purpose of the invention is to increase efficiency by reducing hydraulic resistance. When compressed air is supplied through the channel 14, the ignition mechanism 4 is turned on and part of the oil is burned in the ejector 5. The combustion products through an additional nozzle 11 enter the mixing chamber 12 and oil is sucked through the holes 9, 10 in the pipe 3, which, due to the gas-lifting effect, enters the surface. Part of the combustion products and heated air through the recirculation pipe 13 enters the lower pipe section and dilutes the oil. Above, oil is aerated due to contact with heated parts of the thermal lift. 1 ill.

1483108 A1

The invention relates to a pump engineering industry, in particular to thermal lifts operating due to the products of combustion of a portion of the produced oil, and can be used in the design of inkjet devices for transporting combustible liquid media.

The purpose of the invention is to increase efficiency by reducing hydraulic resistance.

The drawing schematically shows a thermal lift, a longitudinal section.

The thermal lift comprises a casing 1, installed inside it with the formation of an annular space 2, the pipe 3, connected with the latter in the lower part, a burner device with an ignition mechanism 4 located inside the pipe, made in the form of an ejector 5, the active nozzle 6 of which is communicated with a source of compressed air, (not shown), and the passive nozzle 7 has an annular space 2, the active nozzle 6 being oriented upward. The elevator term is equipped with a packer 8, under which holes 9 and 10 are made in the pipe, additional nozzle 11 and a mixing chamber 12 located above the burner device above and below holes 9 and 10, and a recirculation pipe 13 communicating the pipe cavity 3 under the additional nozzle 11 with the lower part of the pipe 3. In the packer 8, a channel 14 is made for the passage of air to the active nozzle 6 of the ejector 5.

Thermal hoist works as follows.

The pipe 3 and the packer 8 with the ejector 5, the ignition mechanism 4 and the mixing chamber 12 are lowered into the casing 1. Low pressure air is supplied through the channel 14, which aerates the upper layer of the well fluid. Then the air pressure is increased and the ignition mechanism 4 is turned on. 5 Part of the produced fuel is burned, and the combustion products entrain the oil into the mixing chamber 12 and then through the pipe 3 to the surface. Part of the heated air with combustion products through the recirculation pipe 13 is fed to the lower cut of the pipe 3, heating the oil in the casing 1 and reducing its viscosity. Higher oil liquefies due to heating of an additional nozzle 1 L

Claims (1)

15 claims A thermal lift containing a casing installed inside it to form an annular space to the pipe, 2Q communicated with the latter in the lower part, a burner with an ignition mechanism located inside the pipe, made in the form of an ejector, the active nozzle of which is connected to a source of compressed air, and the passive nozzle an annular space, 25 characterized in that, in order to increase efficiency by reducing hydraulic resistance, the active nozzle is oriented upward, the thermal lift is equipped with a packer, under which e openings 30 additional nozzle and a mixing chamber arranged above the burner apparatus, respectively above and below the holes, and fitting recirculation who report tube cavity under additional nozzle to the lower portion of the tube and in the chamber vy35 total channel air passage to the active nozzle of the ejector. Compiled by V. Boytsov Editor A. Ogar Order 2800/29 Tehred I. Veres Corrector M. Pozho Circulation 522 Subscription