RU2232941C1 - Burner for oil heating unit - Google Patents

Abstract

FIELD: oil industry; pre-transport oil treatment at oil-fields and asphalt plants.

SUBSTANCE: proposed integrated-action multifuel burner has its burner stack body provided in addition with fuel gas feed pipe with gas damper and mounted on opposite end relative to air feed pipe, and each burner is provided with liquid fuel feed pipeline incorporating valve that communicates with liquid fuel tank on large base end of first burner component along liquid fuel flow.

EFFECT: enlarged functional capabilities and range of burners for oil heating unit.

1 cl, 1 dwg

Description

The proposal relates to the oil industry, in particular to the preparation of oil in the fields, and can be used to heat transported oil.

A gas burner is known [see US Pat. RU No. 2088849, F 23 D 17/00, publ. BI No. 24 for 1997], containing an air supply housing, inside of which there is a gas supply pipe with a manifold plugged from the outlet end and provided with nozzle apparatus in the form of slotted openings on the side surface, and a blade air swirl installed in the annular gap between the air supply body and the gas outlet pipe while the slotted holes are made in the form of radially narrow narrow slots evenly spaced along the perimeter of the lateral surface of the collector, The difference in the angles of inclination to the axis of the burner of the side walls of a larger area of these slots and the output sections of the swirl blades does not exceed 10 deg.

A gas burner of this design can be used in oil heating furnaces.

However, its use is limited due to the fact that the design of the burners is such that when the operating parameters of the air and gas are changed, they practically die out, which does not ensure the stability of the furnace, i.e. during operation, they are unreliable.

A burner is also known [see Pat. RU No. 1652751, F 23 D 1/02, publ. BI No. 20 for 1991], containing a cylindrical vortex chamber with tangential nozzles of primary and secondary air, a fuel pipe is coaxially located at the inlet of the vortex chamber, while the outlet end of the pipe is located inside the vortex chamber and is made in the form of a truncated cone with radial slots on its side surface moreover, the axis of the primary air nozzles is directed tangentially to the average diameter of the truncated cone.

The advantage of the burner is that the quality of fuel combustion is improved by improving its dispersion and mixture formation with air.

The disadvantage is the low reliability of operation when changing the operational parameters of gas and air, as well as limited use, since its effective operation is designed to supply gas at constant pressure.

A gas burner is also known [see autos USSR No. 1768871, 7 IPC F 23 D 14/00, 1992], containing a pre-combustion chamber of fuel, a package of burners, which is equipped with an air supply pipe.

The disadvantage is the low reliability of operation when changing the operational parameters of the gas and air supply.

The closest in technical essence and the achieved result to the proposed one is a gas burner for an oil heating furnace [see US Pat. RU No. 2193142, 7 IPC F 23 D 14/02; 14/62 of 03/07/2001, publ., BI No. 32 for 2002], containing a fuel combustion chamber, a package of burners, which is equipped with an air supply pipe, while the combustion chamber is rigidly connected to the housing of the burner package, which is coaxially and partially included inside the combustion chamber of the fuel through its end part, the end part of which forms protrusions on which the viewing windows are located outside and protrusions of the burner package on the inside of the combustion chamber, on which the igniter windows are located, a gate is installed inside the air supply pipe, the torches in the burner package are installed symmetrically with respect to the axis of the package, which is equipped with tangentially arranged air supply nozzles, and each of the burners is equipped with a gas supply pipe with a valve and consists of two elements representing a small and a large cylindrical-conical cavity, made in one housing, the first the element in the direction of movement of the gas with a small base is rigidly connected to the cylindrical part of the second element.

The advantage of a burner of this design is that it allows you to burn flare gas without additional special treatment.

The disadvantage is the limited use, since the burner requires gas to be effective, and subjective factors such as the lack of gas or its high cost make it impossible or economically disadvantageous.

The technical task to be solved is to expand the functionality and range of burners for the oil heating furnace by creating combined burners with a complex effect.

The problem is solved by the described burner containing a pre-combustion chamber of the fuel, a package of burners, which is equipped with an air supply pipe, while the pre-combustion chamber is rigidly connected to the housing of the package of burners, which coaxially and partially enters the pre-combustion chamber of the fuel through its end part, and the end part forms protrusions on which there is an inspection window on the outside and projections of the burner package on the inside of the combustion chamber, on which the igniter window is located, inside the air supply pipe flap gate, and the burners in the package of burners are installed symmetrically relative to the axis of the package, which is equipped with tangentially arranged air supply nozzles, consists of two elements representing a small and a large cylindrical-conical cavity made in one housing, the first element being rigidly connected to a small base the cylindrical part of the second element.

New is that the case of the burner package is additionally equipped with a fuel gas supply pipe with a gas valve and is located on the opposite side relative to the air supply pipe, and each of the burners is equipped with a liquid fuel supply pipe with a valve that is connected to the liquid fuel tank from the side of the large base of the first burner element in the direction of the liquid fuel.

The combination of distinctive features allows you to expand the functionality and range of burners for an oil heating furnace by creating combined burners with a complex effect, increase the furnace capacity, stabilize the fuel supply regardless of subjective factors, for example, in cases where there is no amount of fuel gas necessary to maintain the combustion process or its cost , which has a negative effect on the operation of the oil heating furnace as a whole, while maintaining such a positive fact lions, complete combustion of the fuel, the ability to control the combustion process used as the fuel gas - flare gas without additional special processing.

Analysis of the known similar solutions from the patent and scientific and technical literature allows us to conclude that there are no signs in them that are similar to the distinctive features in the claimed object, that is, on the compliance of the proposed solution with the criteria of the invention “inventive step”.

The drawing shows a General view of the burner for an oil heating furnace with a frontal cross-section.

The burner for the oil heating furnace contains a pre-combustion chamber 1 for fuel combustion, consisting of cylindrical and conical parts, the last of which has a taper of 15-20. The fuel combustion chamber 1 is rigidly connected to the housing 2 of the burner package, and the housing 2 of the burner package coaxially and partially enters the fuel combustion chamber 1, and the end part of the fuel combustion chamber 1, through which the housing 2 of the burner package enters, forms protrusions 3 on the end part there is a viewing window 4 for the pre-chambers 1. In addition, the gas burner has projections 5 of the burner package on the inside of the fuel combustion chamber 1, the housing 2 of the burner package is equipped with an air supply pipe 6, inside which a gate 7 is installed, enny high pressure fan. The burners in the burner package are installed symmetrically relative to the axis of the burner package, with each of the burners provided with a liquid fuel supply pipe 8 with valve 9, and the burner package, in turn, is provided with tangentially arranged air supply openings 10. Each burner consists of two elements, which are small 11 and large 12 cylindrical-conical cavities located in one housing 13, and the first element in the direction of gas movement by a small base is rigidly connected to the cylindrical part of the second element. The housing 2 of the burner package is equipped with a fuel gas supply pipe 14 with a gas valve 15 and is located on the opposite side relative to the air supply pipe 6, the liquid fuel supply pipe 8 with valve 9 is connected to the liquid fuel tank 16 and a large base 17 of the first burner element 11.

The burner operates as follows.

The tests were carried out in a PN-0.63 type tube furnace designed to heat oil emulsions during field preparation and transportation, with a productivity of 2500 tons / day in three options, when there is enough fuel gas for efficient operation of the burners - the first option, when there is no fuel gas - the second option, and when it is, but not in sufficient quantity, that is, it is not available or it is expensive in cost and its use becomes economically disadvantageous - the third option.

The first option: flare sulfur-containing gas with NGD “Nurlatneft” in an oscillating mode under a pressure of 0.01-0.5 kg / cm through the fuel gas supply pipe 14 and the gas valve 15 enters the housing 2 of the package of burners, consisting of five burners installed symmetrically relative to the axis of the packet. Air through the supply pipe 6 enters the small and large cylindrical-conical cavities 11 and 12 through the tangential openings 10 for the supply of primary and secondary air, as well as in the combustion chamber 1. The flare gas arriving simultaneously with air in a small cylindrical-conical cavity 11 swirls and mixes with the primary air, then the gas-air mixture enters the large cylindrical-conical cavity 12, where it swirls and mixes with the secondary air for the second time, as a result of which in the indicated cavities 11 and 12 a vacuum is created, which helps to increase the flow of associated gas, and the gas-air mixture prepared in the burner package enters the pre-chamber 1 of the fuel combustion, where additional mixing with air and burning fuel.

The second option: the supply of flare gas decreased sharply, which negatively affected the stable operation of the burners and the furnace as a whole. Made an additional supply of liquid fuel - oil or heating oil, for this, open the valve 9 on the pipeline for supplying liquid fuel 8 connected to the tank of liquid fuel 16 and a large base 17 of the first element 11 of the burner. Liquid fuel enters the small cylindrical-conical cavity of the burner, where it is mixed with primary air and gas - see further option 1.

The third option: the supply of flare gas from NGDU “Nurlatneft” was stopped, resulting in the threat of stopping the furnace for heating oil. To prevent an emergency, we close the gas valve 15 at the fuel gas supply pipe 14, open the valve 9 on the liquid fuel supply pipe 8 connected to the liquid fuel tank 16 and the large base 17 of the first burner element 11. Liquid fuel enters the small cylindrical-conical cavity of the burner, where it is mixed with primary air - see further option 1.

Through the igniter window and the inspection window 4, ignition and visual observation of the combustion process are carried out. When equipping a furnace for heating oil with burners, its volume is taken into account, and the larger the volume of the furnace, the more burners are installed in the burner package, and vice versa, due to compliance with the operating parameters both in terms of the operation of the furnace and the quality of the oil preparation.

The proposed burner for the oil heating furnace as a result of complex action allows, firstly, to expand the range of burners, secondly, to increase the capacity of the furnace, and thirdly, to stabilize the fuel supply for the efficient use of burners, regardless of factors such as the presence or absence of fuel gas etc., fourthly, it ensures the quality of preparation of transported oil by stabilizing the heating process and the smooth operation of the furnace, fifthly, reduces material costs by reducing repair and stop oil heating furnace, resulting damping gas burners burnout furnace walls, and the value used for the efficient operation of the burner feed.

Claims (1)

A burner for an oil heating furnace containing a fuel pre-combustion chamber, a burner package that is equipped with an air supply pipe, the combustion chamber being rigidly connected to the body of the burner package, which coaxially and partially enters the fuel combustion chamber through its end part, and the end part forms protrusions on which the viewing windows and projections of the burner package are located on the outside of the combustion chamber, on which the igniter windows are located, a gate is installed inside the air supply pipe, and the rails in the burner package are installed symmetrically with respect to the axis of the package, which is provided with tangentially arranged air supply nozzles, consists of two elements representing a small and a large cylindrical-conical cavity, made in one housing, the first element being rigidly connected to the cylindrical part of the second element by a small base characterized in that the housing of the package of burners is additionally equipped with a nozzle for supplying fuel gas with a gas valve and is located on the opposite side relative to air supply tube, and each of the burners is provided with a conduit supplying liquid fuel to the valve, wherein the conduit connected to the reservoir of liquid fuel from the large base of the first burner element.