PL175529B1 - Method and system of automatic control of heating oil jet burners - lighting-up and pilot burners for power boilers - Google Patents

Abstract

1. Method of automatic control of the operation of gas-dynamic mazut burners. lighting-containing in power boilers, in which mazut and steam are supplied to the burner, preferably through a burner module, and air through a throttle to the supply air box, and after previously heating the burner with steam, the ignition device is fired up and the flow of mazut is closed through a circulation line, characterized in that mazut with a pressure of 0.25 MPa to 0.3 MPa is supplied to the thus prepared mazut burner (I), and the desired efficiency of the mazut burner (1) is achieved by simultaneously changing the mazut pressure with a regulating and reducing valve (12) and the steam pressure with a regulating valve (11) via a microprocessor (3) in such a way that the difference between the steam pressure and the mazut pressure is constantly about 0.25 MPa, and after reaching the nominal efficiency of the mazut burner (I), the mazut combustion process is optimized with steam pressure by means of control valve (II) by controlling it with the signal (21) of the flame brightness sensor (22) of the mazut burner (1) through the microprocessor (3) until the flame (22) is between blue and yellow, while the desired level of CO and NOX in the burner (1) exhaust gases is set by regulating the throttle (25) of the air supply from the blower (26) to the supply air box (27), with the signal of the CO and NOX content meter (23) through the microprocessor (3) controlling the drive (24) of the throttle (25). 2. Automatic control system for the operation of gas-dynamic mazut burners, firing-igniting in power boilers, comprising a burner module, two outputs of which are connected to the steam and mazut lines of the mazut burner, while the third one is connected to the mazut recirculation line, and one input of which is connected to the regulating-reducing a mazout valve, and the second input with a steam control valve, in which the blower is connected via a throttle to the air box feeding the mazout burner provided with an ignition device, characterized in that it has a flame color sensor (2!) (22) of the mazout burner (1) mounted in the chamber (2) of the boiler, and the output of this sensor (21) is connected to the input of the microprocessor (3) and an analogously located and connected CO and NOX content meter (23), wherein the measuring outputs (19, 20) of the mazout and steam pressure of the burner module (8) are connected to the measuring inputs (17 and 18) of the microprocessor (3), and the separate, control outputs (33, 32, 34) of the microprocessor (3) are connected to the control

Description

The subject of the invention is a method and system for automatic control of the operation of gas-dynamic mazut burners, kindling and supporting in power boilers intended for use in the operation of power boilers, especially high-power ones, fired with coal dust, for preheating the boiler chamber, e.g. to a temperature of 500 ° C and initiating stable ignition of pulverized coal and for maintaining operation of pulverized dust burners at reduced load of the boiler, e.g. up to 70% of the rated power.

A method of controlling the operation of a mazut burner for power boilers is known and used, in which, after preparing the mazut burner for operation, it is fed to its

175 529 one track of mazout, and steam on the other track, and after igniting the mazout with an auxiliary gas burner, increasing the fuel pressure, the rated power of the burner is achieved, and the efficiency of the combustion process and the permissible level of CO and NO _{X content} in the exhaust gas of the mazout burner is achieved by measuring and adjusting steam and air supply to the air chamber of the burner.

From the patent description No. 162314 and from the patent application P-283890, a method of cooling and cleaning the head of an oil burner and a system for this method are known, as well as a node for burner fittings for cooperation with a mazut burner enabling a remote, convenient distribution of steam and mazout led to such a node between the tracks mazout and a pair of mazout burner. The known solutions facilitate and simplify the process of preparing the mazut burner to work in the desired regime and protect this burner during the operation of the pulverized power boiler burners and after their shutdown.

The known and used methods of managing the operation of the start-up-maintenance mazut burners do not allow reaching the rated power of the mazut burner under optimal combustion conditions, as well as the optimal combustion process of mazout under normal operating conditions of such a burner. The consequence of this is a certain level of pollution of the natural environment, waste of fuel oil, problems with the stable and reliable operation of the mazout burner, as well as fires of heating surfaces and air boxes of the boiler.

The method of automatic control of the operation of gas-dynamic mazut igniter-support burners in power boilers according to the invention is characterized by the fact that mazout with a pressure from 0.25 MPa to 0.3 MPa is fed to a mazut burner prepared for operation in a known manner, and the required performance of the mazut burner is is achieved by the simultaneous change of the fuel oil pressure with the control and reduction valve and the steam pressure with the control valve through the microprocessor in such a way that the difference between the steam pressure and the fuel oil pressure is constantly about 0.25 MPa, while after reaching the nominal efficiency of the mazut burner, the combustion process is optimized steam pressure by means of the regulating valve, controlling it with the signal of the brightness sensor of the mazut flame of the burner through the microprocessor, until the color of the flame is between blue and yellow. The desired level of CO and NOx in the exhaust gas of the mazut burner is determined by regulating the air supply from the blower to the air supply box with a signal from the CO content meter, ΝΟχ through the microprocessor controlling the throttle drive.

The automatic control system for the operation of gas-dynamic mazut burners, ignition-supporting in power boilers according to the invention, is characterized by the fact that it has a mazut flame color sensor embedded in the boiler chamber, and the output of this sensor is connected to the microprocessor input and has an analogically located and connected CO content meter and NOx, with the metering outputs of the mazout pressure and of the torch module vapor being connected to the measurement inputs of the microprocessor.

The separate control outputs of the microprocessor are connected to the control inputs of the mazut regulating-reduction valve, steam regulating valve and the drive of the fuel oil burner mazut flap. The other control outputs of the microprocessor are connected to the control inputs of the burner module.

The solutions according to the inventions make it possible to optimize the mazut combustion process when the mazut burner reaches its nominal power in the mode of operation of the kindling burner or the supporting burner under the conditions of incomplete load of the coal-fired boiler and in dynamic conditions of the burner operation, as well as automatic maintenance on the required, assumed the level of CO and NOx in the burner exhaust.

The most important advantage of the inventions is the stable and reliable operation of the mazout burner, which guarantees protection of the boiler chamber against flooding with mazout and fire on the heating surface.

The invention is explained in more detail in the working examples by means of a drawing which shows a block diagram of a system according to the invention.

175 529

In the method of automatic control of the operation of gas-dynamic mazut burners, kindling and supporting in power boilers, the mazut burner 1, embedded in chamber 2 of the boiler, is started in such a way that control signals from microprocessor 3, supplied from two control outputs 4 and 5 of this microprocessor 3 to two control at the inputs 6 and 7 of the burner module 8, this module 8 is controlled in such a way that both the input 9 of the mazut steam line of the burner 1 and the input 10 of the mazout line of the burner 1 module 8 supplies hot steam with a pressure of about 0.5 MPa, supplied to module 8 through the regulating valve 11. At the same time, the mazut pressed through the regulating-reduction valve 12 is fed to the mazut 13 inlet in the module 8 and returned through the recirculation conduit 14 to the mazut tank. After a several-minute heating process of the mazout burner 1, the ignition device in the form of a gas burner 15 is ignited, and the signal from the sensor 16, a gas ignition burner 15 with a level corresponding to the stabilized flame of this gas burner 15, is sent to the microprocessor 3 causing the burner microprocessor 3 to be actuated by this microprocessor 3 module 8 in such a way that the steam is supplied only to the input 9 of the steam line of the mazut burner 1, the mazut flow through the recirculating line 14 is closed in the burner module 8, and the mazout with a pressure of 0.25 is fed to the input 10 of the mazout line of the burner 1 MPa up to 0.3 MPa. After ignition of the supplied mazout, the desired rated capacity of 3t / h of the mazout burner 1 is achieved by simultaneously changing the pressure of mazout and the vapor pressure supplied to the mazout burner 1, so that the difference between the steam pressure and the pressure of the mazout is constantly around 0.25 MPa. The process of achieving the rated capacity is carried out for the exemplary mazout burner 1 with a rated capacity of 3 t / h, and until the mazout pressure is reached about 0.6 MPa, by controlling the mazut control valve 12 and the steam control valve 11 through the microprocessor 3, on which the measurement inputs 17 and 18 are given from the measuring outputs 19 and 20 of the burner module 8 information on the steam pressure at the input 9 of the mazut steam track of the burner 1 and at the input 10 of the mazout track of this burner 1. After reaching the nominal efficiency of the mazut burner 1, the mazut combustion process is optimized with pressure steam by means of the regulating-reduction valve 12, thus controlling it by the signal of the brightness sensor 21 of the flame 22 of the mazut burner 1 through the microprocessor 3, until the color of the flame 22 is between blue and yellow. Next, the desired level of CO and NO _X in the exhaust gas of the mazut burner 1 is determined by the signal from the CO and NO _X content meter 23, fed to the measuring input of microprocessor 3, causing the microprocessor 3 to properly control the drive 24 of the damper 25 regulating the air supply from the blower 26 to the chest 27 of the air supplying the mazut burner 1.

For example, the air supply is kept at such a level that the CO content is not more than 10 -: - 20 mg / Nm ³ and the NO _X content is not more than 200 mg / Nm ³ .

Microprocessor 3 is maintained regime burner operation achieved by the above-described method of making a continuous analysis of the color of the flame 22 and the level of NO _X and CO adjusting parameters for optimal supply of steam and air through the actuated control valve 11 and the actuator 24, the throttle 25.

The automatic control system for gas-dynamic mazut burners, kindling and supporting in power boilers is made of a microprocessor 3, whose two control outputs 4 and 5 are connected to the control inputs 6 and 7 of the burner module 8 located right next to the mazut burner 1, while the burner module 8 it has two outputs connected by separate lines to the input 9 of the steam line and the input 10 of the mazout line of the burner 1. As a burner module 8, the burner fittings node according to patent application No. P-283890 can be used. The third output of the module 8 is connected to the mazout recirculation line 14. One input 13 of module 8 is connected by a conduit to the mazut control and reduction valve 12, and the other input 28 of this module 8 is connected to the steam control valve 11 through which steam is supplied to module 8. Measuring outputs 19 and 20 of module 8 informing about pressure mazut and steam pressure at the inputs 9 and 10 of tracks of mazut burner 1 are connected to measuring inputs 17 and 18 of microprocessor 3. In chamber 2 of the boiler, at the head of mazut burner 1

175 529, an ignition device in the form of a gas ignition burner 15, powered by gas and designed to ignite the mazout burner 1, is fitted. The output of the sensor 16 of the stable ignition flame of the gas burner 15 is connected to the corresponding measuring input 29 of the microprocessor 3. In the chamber 2 of the boiler, next to it of the mazut burner 1, a brightness sensor 21 of the brightness of the flame 22 of the mazout burner 1 and a CO and NO _X content meter 23 are mounted, and the outputs of the sensor 21 and the meter 23 are connected to the measuring inputs 30 and 31 of the microprocessor 3. The control outputs 32, 33 and 34 are connected with the control inputs of the steam regulating valve 11, the mazut regulating-reduction valve 12 and the drive 24 of the air damper 25.

The operation of the system according to the invention is as follows.

After starting the procedure of starting the mazut burner 1, the microprocessor 3 controls the burner module 8 in such a way that the mazout fed to the input 13 of module 8 is returned back through the recirculation line 14 to the mazut tank, and the steam fed through the control valve 11 to the input 28 of module 8 is fed simultaneously, through module 8, to the input 9 of the steam path and the input 10 of the mazut mazut of the burner 1. After heating the burner 1 for a few minutes, the microprocessor 3 starts the ignition of the gas burner 15, and after determining its burning stability with the sensor 16, module 8 supplies steam to the input 9 of the steam path, and the mazout at the entrance 10 of the mazout track of the burner 1, simultaneously increasing the vapor pressure and the mazout in accordance with the described method and optimizing the combustion process according to the previously described method.

After obtaining the command to extinguish the mazut burner 1, while the coal dust boiler is operating, at nominal load, the microprocessor 3 controls the burner module 8 in such a way that it secures the steam flow through both tracks of the mazut burner 1 in the amount of about 5 ^ 6 kg / h, which protects burner 1 against splashing and burning. Similarly, steam flows through both burner 1 tracks when the burner 1 is extinguished in order to clean it from the remnants of the oil.

175 529

Publishing Department of the UP RP. Circulation of 90 copies. Price PLN 2.00

Claims (2)

Patent claims 1. The method of automatic control of the operation of gas-dynamic mazout burners, kindling-supporting in power boilers, in which mazout and steam are supplied to the burner, preferably through the burner module, and the air through the throttle to the supply air box, and after the burner is heated with steam, it fires the ignition device is started and the flow of mazout through the circulation pipe is closed, characterized in that mazout with a pressure of 0.25 MPa to 0.3 MPa is supplied to the mazout burner (1) prepared in this way, and the desired performance of the mazout burner (1) is achieved by simultaneous change the oil pressure with the control and reduction valve (12) and the steam pressure with the control valve (11) through the microprocessor (3) in such a way that the difference between the steam pressure and the oil pressure is constantly around 0.25 MPa, and after reaching the nominal oil yield the burner (1), the fuel oil combustion process is optimized with the use of a steam pressure regulator valve (11) actuating it with the signal of the brightness sensor (21) of the flame brightness (22) of the mazut burner (1) through the microprocessor (3), until the color of the flame (22) is between blue and yellow, while the required CO level and NO _X in the exhaust gas of the burner (1) is determined by regulating the throttle (25) of the air supply from the blower (26) to the air supply box (27), with the signal of the CO, NO _X content meter (23) via the microprocessor (3) controlling the drive (24) apenosis (25). 2. Automatic control system for gas-dynamic mazut burners. kindling and supporting in power boilers containing a burner module, the two outputs of which are connected to the steam and mazut tracks of the mazout burner, and the third is connected to the mazout recirculation conduit, and one input of which is connected to the regulating and reducing mazut valve, and the second input to the control a steam valve, in which the blower is connected through a throttle with the air box supplying the mazout burner provided with an ignition device, characterized in that it has a sensor (21) of the color of the flame (22) of the mazout burner (1) embedded in the chamber (2) of the boiler, and the output of said sensor (21) is connected to the input of the microprocessor (3) and similarly positioned and connected to the meter (23) the CO and NO _x, the measured output (19, 20), a pressure of fuel oil and steam przypalnikowego module (8) are connected with measuring inputs (17 and 18) of the microprocessor (3), and the separate, control outputs (33, 32, 34) of the microprocessor (3) are connected with the control inputs of the mazut control and reduction valve (12), the steam control valve (11) and the drive (24) of the air-supply throttle (25) of the mazut burner box (27) (1), while the control outputs (4 and 5) of the microprocessor (3) are connected to the control inputs (6 and 7) of the burner module (8).