阅读说明：本技术 一种适用于对冲燃烧锅炉防高温腐蚀的燃烧系统及方法 (Combustion system and method suitable for preventing high-temperature corrosion of opposed combustion boiler ) 是由 张伟 严响林 周虹光 严万军 白鹏 张朋飞 于 2021-02-01 设计创作，主要内容包括：本发明提供的一种适用于对冲燃烧锅炉防高温腐蚀的燃烧系统及方法,所述对冲燃烧锅炉炉膛的前墙和后墙靠近侧墙区域处设置有呈对冲结构布置的墙式燃烧器,所述墙式燃烧器的进风口连接有混合风箱；每个主燃烧器的外二次风通道的外壁上固定有外二次风壁面氧化风通道；所述外二次风壁面氧化风通道的进风口连接混合风箱；所述墙式燃烧器和外二次风壁面氧化风通道的进风口处均设置有气体调节单元,本发明通过锅炉运行过程中实际监测水冷壁面上的还原性气氛数据,分析水冷壁面高还原性气氛的区域,同时,提高相应区域主燃烧器外二次风壁面氧化风及对冲墙式燃烧器的风量及风压,提高相应水冷壁面局部氧化性气氛,达到控制及防止水冷壁高温腐蚀的目的。(The invention provides a combustion system and a method suitable for preventing high-temperature corrosion of an opposed combustion boiler, wherein wall type combustors which are arranged in an opposed structure are arranged at the positions, close to side wall regions, of a front wall and a rear wall of a hearth of the opposed combustion boiler, and an air inlet of each wall type combustor is connected with a mixed air box; an outer secondary air wall surface oxidation air channel is fixed on the outer wall of the outer secondary air channel of each main burner; an air inlet of the outer secondary air wall surface oxidation air channel is connected with a mixing air box; according to the invention, the reducing atmosphere data on the water-cooled wall surface is actually monitored in the operation process of the boiler, the area of high reducing atmosphere of the water-cooled wall surface is analyzed, meanwhile, the air quantity and the air pressure of the secondary air wall surface oxidizing air outside the main burner in the corresponding area and the opposite wall type burner are improved, the local oxidizing atmosphere of the corresponding water-cooled wall surface is improved, and the purpose of controlling and preventing the high-temperature corrosion of the water-cooled wall surface is achieved.)

1. The combustion system is suitable for preventing the high-temperature corrosion of the opposed combustion boiler, and is characterized in that wall type burners (6) which are arranged in an opposed structure are arranged at the positions, close to side walls, of the front wall and the rear wall of a hearth of the opposed combustion boiler, and an air inlet of each wall type burner (6) is connected with a mixed air box (13);

a plurality of main burners are arranged on the front wall and the rear wall of the hearth of the opposed firing boiler in an opposed manner, and an outer secondary air wall surface oxidizing air channel (4) is fixed on the outer wall of an outer secondary air channel (3) of each main burner; an air inlet of the outer secondary air wall surface oxidation air channel (4) is connected with a mixed air box (13); the air outlet of the outer secondary air wall surface oxidation air channel (4) is close to the inner side wall surface of the hearth water-cooled wall;

gas adjusting units are arranged at air inlets of the wall type burner (6) and the outer secondary air wall surface oxidation air channel (4), and each gas adjusting unit is connected with each gas adjusting unit and is connected to a DCS main control system;

the DCS is characterized in that the DCS main control system is also connected with a water-cooling wall surface atmosphere online testing device, and the water-cooling wall surface atmosphere online testing device is used for collecting the flue gas atmosphere of the water-cooling wall surface in real time and transmitting the collected flue gas atmosphere to the DCS main control system;

and the DCS is used for respectively adjusting the air quantity and the air pressure of the air inlet of the wall type burner (6) and the outer secondary air wall surface oxidation air channel (4) according to the received flue gas atmosphere.

2. The combustion system and method suitable for preventing high-temperature corrosion of an opposed firing boiler according to claim 1, wherein the gas regulating unit at the air inlet of the outer secondary air wall surface oxidation air channel (4) comprises an outer secondary air wall surface oxidation air volume electric regulating door (12), an outer secondary air wall surface oxidation air volume measuring device (11) and an outer secondary air wall surface oxidation air pressure measuring device (10);

and the outer secondary air wall surface oxidation air volume electric adjusting door (12), the outer secondary air wall surface oxidation air volume measuring device (11) and the outer secondary air wall surface oxidation air pressure measuring device (10) are connected to a DCS main control system.

3. The combustion system and method suitable for preventing high temperature corrosion of an opposed firing boiler according to claim 1, wherein the gas adjusting unit at the air inlet of the wall burner (6) comprises a wall burner air volume electric adjusting door (9), a wall burner air volume measuring device (8) and a wall burner air pressure measuring device (7);

wherein, wall formula combustor amount of wind electric regulation door (9), wall formula combustor amount of wind measuring device (8) and wall formula combustor wind pressure measuring device (7) all are connected to DCS major control system.

4. The combustion system and method for preventing high-temperature corrosion of an opposed combustion boiler in accordance with claim 1, wherein the water-cooled wall atmosphere online testing device comprises a boiler water-cooled wall atmosphere sampler (20) and a flue gas collecting and analyzing device (21), wherein the boiler water-cooled wall atmosphere sampler (20) is provided in plurality, and the boiler water-cooled wall atmosphere samplers (20) are arranged on the water-cooled wall in a matrix structure; a plurality of boiler water-cooling wall surface atmosphere samplers (20) all are connected to flue gas collection and analytical equipment (21), flue gas collection and analytical equipment (21) are connected to DCS main control system.

5. The combustion system and method for preventing high-temperature corrosion of an opposed firing boiler according to claim 1, characterized in that the air inlet of the mixing wind box (13) is connected with a hot primary air duct (18) and a hot secondary air duct (19).

6. The combustion system and the method suitable for preventing the high-temperature corrosion of the opposed firing boiler in accordance with claim 5, wherein the connecting pipeline between the hot primary air duct (18) and the mixing wind box (13) is provided with an electric adjusting door (16) for extracting the hot primary air; be provided with on the connecting tube between hot overgrate air wind channel (19) and the mixed bellows (13) and extract hot overgrate air electricity and move regulation door (17), extract hot primary air electricity and move regulation door (16) and extract hot overgrate air electricity and move regulation door (17) and all be connected to DCS main control system.

7. The combustion system and method suitable for preventing high-temperature corrosion of an opposed firing boiler according to claim 5, characterized in that a mixed wind box inlet pressure measuring device (14) and a mixed wind box inlet flow measuring device (15) are arranged at the air inlet of the mixed wind box (13), wherein the mixed wind box inlet pressure measuring device (14) and the mixed wind box inlet flow measuring device (15) are both connected to the DCS main control system.

8. A combustion system and method suitable for high temperature corrosion protection of opposed firing boilers as per claim 1, characterized by that the air outlet of the wall burner (6) is arranged in opposed exit pattern.

9. The combustion system and method for preventing high-temperature corrosion of an opposed firing boiler according to claim 1, characterized in that the outer overfire air wall oxidizing air channel (4) is fixed on the outer wall of the outer overfire air channel (3) of the main burner by an outer overfire air wall oxidizing air fixing device (5); the air outlet of the outer secondary air wall surface oxidation air channel (4) is of a circular structure.

10. A combustion method suitable for protecting a recoiling combustion boiler from high temperature corrosion, which is characterized in that the combustion system suitable for protecting the recoiling combustion boiler from high temperature corrosion based on any one of claims 1-9 comprises the following steps:

collecting the flue gas atmosphere on the water-cooled wall surface, analyzing the gas components in the flue gas atmosphere and calculating the numerical values corresponding to the gas components;

respectively collecting the gas pressure and the gas flow of the wall type burner (6) and the outer secondary air wall surface oxidation air channel (4);

and comparing the corresponding numerical values of all the gas components with a preset threshold value, and controlling the gas pressure and flow at the air inlets of the wall type burner (6) and the outer secondary air wall surface oxidation air channel (4) by combining the gas pressure and flow at the air inlets of the wall type burner (6) and the outer secondary air wall surface oxidation air channel (4) according to the comparison result, so that the reducing components of the flue gas on the wall surface of the boiler are reduced, and the aim of controlling the high-temperature corrosion of the water-cooled wall of the boiler is fulfilled.

Technical Field

The invention belongs to the field of optimization of combustion technologies of coal-fired thermal power generating units, and particularly relates to a combustion system and a combustion method suitable for preventing high-temperature corrosion of an opposed combustion boiler.

Background

The opposed combustion boiler is a main boiler type for combusting lean coal and bituminous coal in China, the heat value is reduced along with the increase of the sulfur content and the ash content of coal as fired, the large proportion of lean coal and anthracite coal is mixed and burnt and air classification low nitrogen transformation is carried out, the high temperature corrosion condition of a water wall caused by the adherence combustion of pulverized coal and the higher reducing atmosphere of a main combustion area is more serious, and the problem of high temperature corrosion on the periphery and two side walls of a main burner of the opposed combustion boiler is more serious, so that the operation safety of the boiler is influenced.

Disclosure of Invention

The invention provides a combustion system and a method suitable for preventing high-temperature corrosion of an opposed combustion boiler, which solve the defects of the conventional opposed combustion boiler.

In order to achieve the purpose, the invention adopts the technical scheme that:

the invention provides a combustion system suitable for preventing high-temperature corrosion of an opposed combustion boiler, wherein wall type combustors which are arranged in an opposed structure are arranged in the areas, close to side walls, of a front wall and a rear wall of a hearth of the opposed combustion boiler, and an air inlet of each wall type combustor is connected with a mixed air box;

the front wall and the rear wall of the hearth of the opposed combustion boiler are oppositely arranged with a plurality of main burners, and the outer wall of the outer secondary air channel of each main burner is fixed with an outer secondary air wall surface oxidation air channel; an air inlet of the outer secondary air wall surface oxidation air channel is connected with a mixing air box; the air outlet of the outer secondary air wall surface oxidation air channel is close to the inner side wall surface of the water-cooled wall of the hearth;

gas adjusting units are arranged at air inlets of the wall type burner and the outer secondary air wall surface oxidation air channel, and each gas adjusting unit is connected with each gas adjusting unit and is connected to a DCS main control system;

the DCS is characterized in that the DCS main control system is also connected with a water-cooling wall surface atmosphere online testing device, and the water-cooling wall surface atmosphere online testing device is used for collecting the flue gas atmosphere of the water-cooling wall surface in real time and transmitting the collected flue gas atmosphere to the DCS main control system;

and the DCS is used for respectively adjusting the air quantity and the air pressure of the wall type burner and the air inlet of the outer secondary air wall surface oxidation air channel according to the received flue gas atmosphere.

Preferably, the gas regulating unit at the air inlet of the outer secondary air wall surface oxidation air channel comprises an electric outer secondary air wall surface oxidation air volume regulating door, an outer secondary air wall surface oxidation air volume measuring device and an outer secondary air wall surface oxidation air pressure measuring device;

and the outer secondary air wall surface oxidation air volume electric adjusting door, the outer secondary air wall surface oxidation air volume measuring device and the outer secondary air wall surface oxidation air pressure measuring device are all connected to a DCS main control system.

Preferably, the gas adjusting unit at the air inlet of the wall type burner comprises an electric air volume adjusting door of the wall type burner, an air volume measuring device of the wall type burner and an air pressure measuring device of the wall type burner;

wherein, wall formula combustor amount of wind electric regulation door, wall formula combustor amount of wind measuring device and wall formula combustor wind pressure measuring device all are connected to DCS major control system.

Preferably, the on-line testing device for the atmosphere of the water-cooled wall surface comprises a plurality of boiler water-cooled wall surface atmosphere samplers and a smoke collecting and analyzing device, wherein the boiler water-cooled wall surface atmosphere samplers are arranged on the water-cooled wall surface in a matrix structure; a plurality of boiler water-cooling wall surface atmosphere samplers all are connected to flue gas collection and analytical equipment, flue gas collection and analytical equipment are connected to DCS main control system.

Preferably, the air inlet of the mixing air box is connected with a hot primary air duct and a hot secondary air duct.

Preferably, an electric adjusting door for extracting the hot primary air is arranged on a connecting pipeline between the hot primary air channel and the mixed air box; be provided with the electronic regulation door of hot overgrate air of extraction on the connecting tube between hot overgrate air wind channel and the mixed bellows, the electronic regulation door of hot overgrate air of extraction and extraction all are connected to DCS main control system.

Preferably, the air inlet of the mixing air box is provided with a mixing air box inlet pressure measuring device and a mixing air box inlet flow measuring device, wherein the mixing air box inlet pressure measuring device and the mixing air box inlet flow measuring device are both connected to the DCS main control system.

Preferably, the air outlet of the wall burner is arranged in an opposed emission manner.

Preferably, the outer secondary air wall surface oxidizing air channel is fixed on the outer wall of the outer secondary air channel of the main burner through an outer secondary air wall surface oxidizing air fixing device; and the air outlet of the outer secondary air wall surface oxidation air channel is of a circular ring structure.

A combustion method suitable for preventing high-temperature corrosion of an opposed combustion boiler is based on a combustion system suitable for preventing high-temperature corrosion of an opposed combustion boiler, and comprises the following steps:

collecting the flue gas atmosphere on the water-cooled wall surface, analyzing the gas components in the flue gas atmosphere and calculating the numerical values corresponding to the gas components;

respectively collecting the gas pressure and flow of the wall type burner and the external secondary air wall surface oxidation air channel;

and comparing the corresponding numerical values of all the gas components with a preset threshold value, and controlling the gas pressure and flow at the air inlets of the wall type burner and the outer secondary air wall surface oxidizing air channel according to the comparison result by combining the gas pressure and flow at the air inlets of the wall type burner and the outer secondary air wall surface oxidizing air channel, so that the reducing components of the flue gas on the wall surface of the boiler are reduced, and the aim of controlling the high-temperature corrosion of the water-cooled wall of the boiler is fulfilled.

Compared with the prior art, the invention has the beneficial effects that:

according to the combustion system suitable for preventing the high-temperature corrosion of the opposed firing boiler, the reducing atmosphere data on the water-cooled wall surface is actually monitored in the running process of the boiler, and the area of the high reducing atmosphere on the water-cooled wall surface is analyzed; meanwhile, the oxidizing air on the outer secondary air wall surface of the main burner in the corresponding area and the air quantity and the air pressure of the opposed wall type burner are improved, the local oxidizing atmosphere of the corresponding water-cooling wall surface is improved, and the aim of controlling and preventing the high-temperature corrosion of the water-cooling wall surface is fulfilled; meanwhile, in the system, the oxidizing air on the wall surface of the secondary air outside the main burner and the air quantity of the opposite-impact wall type burner can be independently adjusted; meanwhile, the pressure of the mixing air box can be adjusted according to the proportion of the extracted primary air and the extracted secondary air.

The invention provides a combustion method suitable for preventing high-temperature corrosion of an opposed combustion boiler, which comprises the steps of collecting flue gas on a water-cooled wall surface, analyzing and calculating numerical values corresponding to all gas components in the flue gas; the numerical value that corresponds each gas composition is compared with the predetermined threshold value, the higher region of wall reducing atmosphere is reachd in the analysis, combine the gas pressure and the flow of each combustor air inlet department according to the contrast result, control the gas pressure and the flow of each combustor air inlet department, through improving mixed hot-blast case pressure, the outer overgrate air wall oxidation wind of corresponding regional main burner and the wind pressure and the amount of wind of counterpulsation wall formula annular wind, increase the local oxidizing atmosphere of water-cooling wall, reach the purpose of control and prevent water-cooling wall high temperature corrosion.

Drawings

FIG. 1 is a schematic view of a combustion system of the present invention;

FIG. 2 is a schematic view of an on-line testing system for the atmosphere of a water-cooled wall surface according to the present invention

FIG. 3 is a schematic view of the arrangement of the layers of the main burner of the present invention;

the device comprises a primary air channel 1, a primary air channel 2, an inner secondary air channel 3, an outer secondary air channel 4, an outer secondary air wall surface oxidation air channel 5, an outer secondary air wall surface oxidation air fixing device 6, a wall type burner 7, a wall type burner air pressure measuring device 8, a wall type burner air flow measuring device 9, a wall type burner air quantity electric adjusting door 10, an outer secondary air wall surface oxidation air pressure measuring device 11, an outer secondary air wall surface oxidation air flow measuring device 12, an outer secondary air wall surface oxidation air flow electric adjusting door 13, a mixing air box 14, a mixing air box inlet pressure measuring device 15, a mixing air box inlet flow measuring device 16, an extraction heat primary air electric adjusting door 17, an extraction heat secondary air electric adjusting door 18, a primary air heat air duct 19, a secondary air duct 20, a boiler water cooling wall surface atmosphere sampler 21 and a flue gas collection and analysis device.

Detailed Description

To further clarify the technical solutions and effects of the present invention adopted to achieve the intended purpose, the following detailed description of the embodiments, structures, features and functions of the present invention is provided with reference to the accompanying drawings.

As shown in fig. 1 to fig. 3, the combustion system suitable for preventing high temperature corrosion of an opposed combustion boiler provided by the present invention comprises an outer secondary air wall surface oxidation air channel 4, a wall type burner 6 and a water cooling wall surface atmosphere online testing device, wherein an air outlet of the outer secondary air wall surface oxidation air channel 4 of a furnace chamber is in a ring structure, an outlet is close to an inner side wall surface of the water cooling wall surface of the furnace chamber, and the air outlet of the structure is favorable for increasing the oxidation atmosphere of the water cooling wall surface attached to the burner region, and preventing and reducing the high temperature corrosion condition of the water cooling wall surface; meanwhile, wall-type burners 6 arranged in an offset structure are arranged at the positions, close to the side wall, of the front wall and the rear wall of the hearth of the offset combustion boiler, air outlets of the wall-type burners 6 on the front wall and the rear wall are arranged in an offset outgoing mode, the air outlets are used for increasing oxidizing atmosphere of water-cooled wall surfaces of the two side walls of the hearth, the high-temperature corrosion condition of the water-cooled wall is prevented and relieved, and meanwhile, unburned pulverized coal particles are prevented from staying in the water-cooled wall area.

The online testing device for the atmosphere of the water-cooling wall surface is used for collecting the flue gas atmosphere of the water-cooling wall surface in real time and transmitting the collected flue gas atmosphere to the DCS main control system; and the DCS is used for respectively adjusting the air pressure and the air volume of the outer secondary air wall surface oxidation air channel 4 and the wall type burner 6 according to the received flue gas atmosphere.

Every main burner contain air channel 1 once, interior overgrate air passageway 2, outer overgrate air passageway 3, outer overgrate air wall oxidation air passageway 4 and outer overgrate air wall oxidation air fixing device 5, wherein, outer overgrate air wall oxidation air passageway 4 is fixed on outer overgrate air passageway 3's outer wall through outer overgrate air wall oxidation air fixing device 5, its air outlet is ring structure, the export is located the outer wall of main burner water-cooling wall, the air outlet of this structure is favorable to increasing the oxidizing atmosphere of burner regional annex water-cooling wall, the buggy granule that can prevent simultaneously not burning to the greatest extent stops in the water-cooling wall region.

The air inlets of the outer secondary air wall surface oxidation air channel 4 and the wall type combustor 6 are connected to a mixed air box 13, and the air inlet of the mixed air box 13 is connected with a hot primary air channel 18 and a hot secondary air channel 19.

And an electric adjusting door 16 for extracting the hot primary air is arranged on a connecting pipeline between the hot primary air channel 18 and the mixed air box 13.

And a connecting pipeline between the hot secondary air duct 19 and the mixed air box 13 is provided with a hot secondary air extraction electric adjusting door 17.

The air intake department of mixing bellows 13 is provided with mixing bellows import pressure measurement device 14 and mixing bellows import flow measurement device 15, is used for gathering the gas pressure and the flow that get into mixing bellows 13 respectively to the gas pressure and the flow that will gather transmit to DCS major control system.

The mixed air box 13 is provided with a plurality of air outlets, each air outlet is connected with a burner, wherein the mixed air box 13 is connected with the air inlet of the outer secondary air wall surface oxidation air channel 4, and the connecting pipeline is provided with a main burner outer secondary air wall surface oxidation air electric adjusting door 12, an outer secondary air wall surface oxidation air volume measuring device 11 and an outer secondary air wall surface oxidation air pressure measuring device 10.

Mix bellows 13 and wall formula combustor 6's air intake connection, and be provided with wall formula combustor amount of wind electric regulating door 9, wall formula combustor amount of wind measuring device 8 and wall formula combustor wind pressure measuring device 7 on this connecting tube.

The on-line testing device for the atmosphere of the water-cooled wall surface comprises a plurality of boiler water-cooled wall surface atmosphere samplers 20 and a smoke collecting and analyzing device 21, wherein the boiler water-cooled wall surface atmosphere samplers 20 are arranged on the water-cooled wall surface in a matrix structure; the boiler water-cooling wall surface atmosphere sampler 20 is connected to a flue gas collecting and analyzing device 21, and the flue gas collecting and analyzing device 21 is connected to a DCS main control system.

The boiler water-cooling wall surface atmosphere sampler 20 is used for extracting flue gas on the water-cooling wall surface and transmitting the extracted flue gas to a flue gas collecting and analyzing device 21.

The flue gas collecting and analyzing device 21 is used for analyzing gas components of the received flue gas and transmitting an analysis result to the DCS main control system.

DCS major control system still is connected with the display screen, extract hot primary air electric control door 16, extract hot overgrate air electric control door 17, mixed bellows import pressure measuring device 14, mixed bellows import flow measuring device 15, main burner outer overgrate air wall oxidation wind electric control door 12, outer overgrate air wall oxidation wind air quantity measuring device 11, main burner outer overgrate air wall oxidation wind pressure measuring device 10, hedging burner amount of wind electric control door 9, hedging burner amount of wind measuring device 8, hedging burner wind pressure measuring device 7.

The working process of the invention is as follows:

hot air is extracted from the primary hot air duct 18 and the secondary hot air duct 19 respectively and then enters the mixed air box 13, and the air volume and the air pressure of the hot air in the mixed air box are adjusted through the primary hot air extraction electric adjusting door 16 and the secondary hot air extraction electric adjusting door 17 according to real-time numerical values of the mixed air box inlet pressure measuring device 14 and the mixed air box inlet flow measuring device 15.

The air supply of the outer secondary air wall surface oxidation air channel 4 and the wall type burner 6 are from a mixed air box 13.

The air pressure and the air volume of the outer secondary air wall surface oxidation air channel 4 are adjusted through an outer secondary air wall surface oxidation air dynamic adjusting door 12 of the combustor according to real-time numerical values of an outer secondary air wall surface oxidation air volume measuring device 11 and an outer secondary air wall surface oxidation air pressure measuring device 10.

The air pressure and the air quantity of the wall type combustor 6 are adjusted through an electric adjusting door 9 of the air quantity of the wall type combustor according to real-time numerical values of an air quantity measuring device 8 and an air pressure measuring device 7 of the wall type combustor.

The air pressure and the air volume of each outer secondary air wall surface oxidation air channel 4 and the wall type burner 6 can be independently adjusted and controlled, and meanwhile, the air volume and the air pressure of hot air in the mixed air box 13 can also be adjusted and controlled.

In the boiler actual operation in-process, the water-cooling wall flue gas that needs the monitoring is sampled and extracted through boiler water-cooling wall atmosphere sampler 20 of matrix structure, the flue gas of taking out carries out the analysis of gas composition through flue gas collection and analytical equipment 21, and with data real-time transmission to DCS on, later transmit to the display screen, operating personnel combines real-time supervision's test data information to carry out the analysis, find the region of water-cooling wall high reducing atmosphere, and confirm the condition of relevant regional main burner and dashing wall formula burner in step:

according to the real-time values of the external secondary air wall surface oxidation air volume measuring device 11 and the external secondary air wall surface oxidation air pressure measuring device 10, the air pressure and the air volume of the external secondary air wall surface oxidation air of the main burner of the relevant area are adjusted and opened through the electric adjusting door 12 of the external secondary air wall surface oxidation air volume.

According to the real-time values of the wall type burner air quantity measuring device 8 and the opposite wall type burner annular air pressure measuring device 7, the air pressure and the air quantity of the opposite wall type burner in the relevant area are adjusted and opened through the wall type burner air quantity electric adjusting door 9.

If the air volume and the air pressure of the mixed air box 13 are small, the opening of the mixed air box can be adjusted by an electric adjusting door 16 for extracting hot primary air and an electric adjusting door 17 for extracting hot secondary air according to real-time numerical values of a pressure measuring device 14 at the inlet of the mixed air box and a flow measuring device 15 at the inlet of the mixed air box.

After the operation is finished, observing the actually measured data value of the high reducing atmosphere on the water-cooled wall surface of the dial plate, and finishing the adjustment work when the data value reaches the normal range; and when the value is beyond the normal range, continuing the adjustment work flow until the value is qualified.

By adopting the mode, an operator can monitor data in real time, adjust and optimize the area of the high reducing atmosphere of the water-cooled wall surface in time, increase the local oxidizing atmosphere of the water-cooled wall surface and achieve the aim of controlling and preventing the high-temperature corrosion of the water-cooled wall.