CN114001364A - Online remote intelligent control system and method for organic waste liquid thermal oxidation incinerator - Google Patents

Abstract

The invention discloses an online remote intelligent control system and a method for an organic waste liquid thermal oxidation incinerator, wherein the system comprises a data processing unit, an incineration feeding unit and an incineration detection unit, the data processing unit is connected with the incineration feeding unit, and the incineration detection unit is respectively connected with the data processing unit and the incineration feeding unit; the incinerator body, the data processing unit is connected with the incinerator body, is connected organic solvent pipeline, fan pipeline, salt solution pipeline, cooling water pipeline, ammonia water pipeline and natural gas pipeline on the incinerator body respectively, is provided with urgent discharge valve port and salt solution steam on fan pipeline and the salt solution pipeline respectively and sweeps the valve. The invention provides an online remote intelligent control system and a method for an organic waste liquid thermal oxidation incinerator, which can comprehensively, intelligently and visually monitor the running condition of the incinerator in time, greatly improve the detection accuracy and safety performance of equipment, realize an intelligent integrated monitoring system for the organic waste liquid thermal oxidation incinerator, and know the incineration condition in real time and online.

Description

Online remote intelligent control system and method for organic waste liquid thermal oxidation incinerator

Technical Field

The invention relates to the technical field of monitoring systems, in particular to an online remote intelligent control system and method for an organic waste liquid thermal oxidation incinerator.

Background

The organic wastewater is wastewater mainly containing organic pollutants, is easy to cause water eutrophication, and is relatively harmful, and generally refers to more than a large amount of wastewater discharged by industries such as papermaking, leather, food and the like.

When carrying out the pesticide, medicine, the chemical industry, the processing of all kinds of the useless and dangerous wastes material of solid such as all kinds that produce in the trade production processes such as printing and dyeing, current device is when burning, need the artificial scene real time monitoring to burn the condition or need the manual work to patrol and examine when incessantly, thereby bring inconvenience for the staff, often because it is inaccurate to patrol and examine or detect data, bring the potential safety hazard for the operation equipment, and most be fixed mode of burning, lead to burning inadequately, the effect of burning is relatively poor, incineration efficiency is lower, in addition the manual work is difficult to carry out accurate grasp to the condition of feeding, be difficult to reach the purpose that the accuracy was burned, certain inconvenience is still existing.

In conclusion, the incineration mode existing in the use of the existing device is fixed, the incineration is insufficient, the operation condition of the detection equipment cannot be controlled in time, the incineration effect is poor, the feeding condition cannot be accurately mastered, the accurate incineration cannot be achieved, and the problems are to be solved.

Disclosure of Invention

The invention aims to solve the problems of inaccurate detection, potential safety hazard and tedious manual inspection, and provides an online remote intelligent control system and a method for an organic waste liquid thermal oxidation incinerator, which can timely, comprehensively and visually monitor the running condition of the incinerator online, greatly improve the detection accuracy and safety performance of equipment and realize an intelligent integrated monitoring system for the organic waste liquid thermal oxidation incinerator.

In order to achieve the above purpose, the invention provides the following technical scheme:

an online remote intelligent control system of an organic waste liquid thermal oxidation incinerator comprises an incinerator body, a data processing unit, an incineration feeding unit and an incineration detection unit, wherein the data processing unit and the incineration detection unit are connected with the incineration feeding unit; the incinerator body is also connected with an organic solvent pipeline, a cooling water pipeline, an ammonia water pipeline, a fan pipeline and a salt-containing water pipeline, the organic solvent pipeline is provided with a solvent valve, the cooling water pipeline is provided with a liquid flow valve II, the ammonia water pipeline is provided with a liquid regulating valve, the fan pipeline is provided with a combustion air supply valve, and the salt-containing water pipeline is provided with a liquid flow valve I respectively; the inside data storage unit that is provided with of data processing unit, solvent feeding control unit, fan frequency control unit, salt water feeding control unit, cooling water feeding control unit and aqueous ammonia feeding control unit all with data processing unit with the data storage unit is connected, burn and be connected with the power supply unit on the feeding unit, just the power supply unit with the data processing unit links to each other, the data processing unit is connected with monitor terminal and unusual alarm unit through the communication unit.

Burn the feeding unit and include solvent feeding control unit, fan frequency control unit, salt water feeding control unit, cooling water feeding control unit and aqueous ammonia feeding control unit, solvent feeding control unit with the solvent valve is connected, fan frequency control unit with the burning air feed valve is connected, salt water feeding control unit with liquid flow valve one is connected, cooling water feeding control unit with liquid flow valve two is connected, aqueous ammonia feeding control unit with liquid control valve connects.

Preferably, the incinerator body is respectively connected with a natural gas pipeline, the fan pipeline is further provided with an emergency discharge valve port, the fan pipeline is connected with a shunt pipeline, the shunt pipeline is provided with a furnace body air supply valve, the saline water pipeline is further provided with a saline water steam purging valve, the natural gas pipeline is provided with a gas regulating valve II, a natural gas ignition pipeline is arranged between the natural gas pipeline and the incinerator body, two ends of the natural gas ignition pipeline are respectively connected with the natural gas pipeline and the incinerator body, and the natural gas ignition pipeline is provided with an ignition valve; the incinerator body is the level and sets up in ground fixed distance to the outer wall fixed mounting of incinerator body has the hanging hollow seat, organic solvent pipeline, fan pipeline, salt solution pipeline, cooling water pipeline, ammonia water pipeline and the equal parallel arrangement of natural gas line are in one side of incinerator body, and equal fixed mounting be on a parallel with the support of hanging hollow seat.

Preferably, thermometers are fixedly installed on the outer wall of the incinerator body, the thermometers are symmetrically arranged on the outer wall of the incinerator body, and a pressure gauge is arranged inside the incinerator body; the inner wall of the thermometer is provided with a groove, the outer wall of the incinerator body is symmetrically provided with temperature measuring grooves, the thermometer is sleeved on the outer sides of the temperature measuring grooves, the groove is connected with the temperature measuring grooves, an annular driving groove is formed in the groove, the thermometer is located in the driving groove and fixedly connected with the output end of a driving motor arranged in the driving groove, and the thermometer is movably installed in the driving groove.

Preferably, an incinerator body is provided with an incinerator outlet at one end, the incinerator outlet is fixedly connected to the outer wall of one side of the incinerator body, the outer wall of the incinerator outlet is in a circular truncated cone shape which is 15 degrees furled towards the circle center, and a fixing frame perpendicular to the ground is arranged on the outer wall of the incinerator outlet.

Preferably, the incineration detection unit comprises a fan pressure detection unit, a gas pressure detection unit and a liquid flow detection unit, wherein an air supply flow meter is installed on the fan pipeline, a saline water pipeline, a cooling water pipeline and a ammonia water pipeline are both provided with a liquid pressure gauge, the natural gas pipeline is provided with a natural gas pressure gauge, the fan pressure detection unit is connected with the natural gas pressure gauge, the air supply flow meter is connected with the gas pressure detection unit, and the liquid flow detection unit is connected with the liquid pressure gauge.

The invention also aims to provide a remote intelligent control method of the online organic waste liquid thermal oxidation incinerator by utilizing the intelligent control system, which comprises the following steps:

the method comprises the following steps: preparing for incineration: the detection data of the incineration detection unit to the incineration furnace body, specifically the conditions of the air supply flow and the liquid flow of the incineration furnace body, the pressure of the fan and the temperature and the pressure of the incineration furnace body are detected through the data processing unit connected with the incineration furnace body;

step two: and (3) incineration adjustment: the communication unit transmits data to the mobile terminal, and under the normal working condition, the burning materials in the burning furnace body are fully burned by adjusting the feeding conditions of the burning feeding unit to the organic solvent, the salt-containing water, the cooling water and the ammonia water of the burning furnace body;

step three: and (3) abnormal display: when the abnormal condition occurs, the data processing unit automatically stops feeding through the incineration feeding unit, opens the emergency discharge valve port and the saline steam purging valve, simultaneously starts the abnormal alarm unit through the communication unit to give an alarm, and feeds back error data through the data terminal.

In the technical scheme, the invention has the following beneficial effects:

one, be connected with organic solvent pipeline on the burning furnace body respectively, the fan pipeline, salt solution pipeline, cooling water piping, ammonia pipeline and natural gas pipeline, control the charge-in volume of burning the furnace body through burning the feed unit, the data processing unit that burns the furnace body and connect, burn the detecting element through the connection of data processing unit and know the condition of burning in to burning the furnace body, all-round intelligent control and control, it is loaded down with trivial details to have avoided the artifical scene to look over when incessantly, the trouble of artifical patrolling and examining has been solved, ensure incineration equipment's security. The incineration detection unit has the functions of detecting feeding and feeding back to the incineration feeding unit, and data processing can be performed through the data processing unit to control the condition of the incinerator body; and be provided with reposition of redundant personnel pipeline and natural gas ignition pipeline respectively on fan pipeline and natural gas line to the accessible burns the feeding unit and controls, and fan pipeline is mended wind from the multi-angle, makes to burn the internal torrent that forms of burning furnace, and multi-angle supplementary air fully burns.

Two, be provided with the data storage unit in the data processing unit, carry out the storage and transmit to mobile terminal through the communication unit to data through the data storage unit, so that the user can in time inquire or adjust the condition of burning furnace internal incineration, the communication unit that the data processing unit connects is when receiving unusual data feedback, will report to the police through the unusual alarm unit that the communication unit is connected, and feed back error data to mobile terminal through the communication unit, the easy access, simultaneously save unusual data through the data storage unit, know the fault type and make statistics of frequent error type when the easy access, the data of trouble carry out detailed understanding, so that maintenance and later use.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all features of the disclosed technology.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

FIG. 1 is a schematic diagram of a flow chart structure provided by an embodiment of the present invention;

FIG. 2 is a block diagram of a remote online monitoring system according to an embodiment of the present invention;

FIG. 3 is a schematic view of an incineration detecting unit module according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of an incinerator according to an embodiment of the present invention;

FIG. 5 is a schematic view of the back structure of an incinerator according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a driving slot structure provided in an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a temperature measuring tank according to an embodiment of the present invention.

Description of reference numerals:

1. an incinerator body; 2. an organic solvent conduit; 3. a fan duct; 4. an emergency discharge valve port; 5. a pipeline containing salt water; 6. a brine-containing steam purge valve; 7. a cooling water pipeline; 8. an ammonia water pipeline; 9. a natural gas pipeline; 10. an ignition valve; 13. an incinerated matter discharge port; 11. a thermometer; 12. a pressure gauge; 14. a suspension seat; 15. a support; 16. a fixed mount;

100. a data processing unit; 1001. a data storage unit; 101. an incineration feeding unit; 102. an incineration detection unit; 103. a communication unit; 104. a power supply unit; 105. an abnormality alarm unit; 106. a monitoring terminal;

1011. a solvent feed control unit; 1012. a fan frequency control unit; 1013. a feed control unit for the salt-containing water; 1014. a cooling water feed control unit; 1015. an ammonia water feeding control unit;

1021. a fan pressure detection unit; 1022. a gas pressure detection unit; 1023. a liquid flow rate detection unit; 1024. a furnace body temperature detection unit; 1025. a furnace body pressure detection unit;

111. a groove; 51. a first liquid flow valve; 71. a liquid flow valve II; 91. a second gas regulating valve; 92. a natural gas pressure gauge; 20. a liquid pressure gauge; 30. a wind flow meter; 31. a combustion air supply valve; 81. a liquid regulating valve; 112. a drive slot; 21. a solvent valve; 121. a temperature measuring tank; 32. furnace body blast gate.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1-3, an online remote intelligent control system and method for an organic waste liquid thermal oxidation incinerator comprises a data processing unit 100, an incineration feeding unit 101, and an incineration detection unit 102, wherein the data processing unit 100 and the incineration detection unit 102 are both connected with the incineration feeding unit 101; the incinerator body 1, the data processing unit 100 is connected with the incinerator body 1, the incinerator body 1 is respectively connected with a fan pipeline 3, a saline water containing pipeline 5 and a natural gas pipeline 9, a combustion air supply valve 31 and an emergency discharge valve port 4 are arranged on the fan pipeline 3, a shunt pipeline is connected with the fan pipeline 3, a furnace body air supply valve 32 is arranged on the shunt pipeline, a liquid flow valve 51 and a saline water containing steam purge valve 6 are respectively arranged on the saline water containing pipeline 5, a gas regulating valve two 91 is arranged on the natural gas pipeline 9, a natural gas ignition pipeline is arranged between the natural gas pipeline 9 and the incinerator body 1, two ends of the natural gas ignition pipeline are respectively connected with the natural gas pipeline 9 and the incinerator body 1, and an ignition valve 10 is arranged on the natural gas ignition pipeline; still connect organic solvent pipeline 2, cooling water piping 7 and ammonia water piping 8 on the incinerator body 1, be provided with solvent valve 21 on the organic solvent pipeline 2, be provided with two 71 of liquid flow valve on the cooling water piping 7, be provided with liquid control valve 81 on the ammonia water piping 8.

Referring to the attached drawings 4-7, the incinerator body 1 is horizontally arranged on the ground at a fixed distance, a suspended seat 14 is fixedly arranged on the outer wall of the incinerator body 1, an organic solvent pipeline 2, a fan pipeline 3, a saline water pipeline 5, a cooling water pipeline 7, an ammonia water pipeline 8 and a natural gas pipeline 9 are all arranged on one side of the incinerator body 1 in parallel, and a bracket 15 parallel to the suspended seat 14 is fixedly arranged on each of the organic solvent pipeline, the fan pipeline 3, the saline water pipeline 5, the cooling water pipeline 7, the ammonia water pipeline 8 and the natural gas pipeline 9; an incinerator body 1 is provided with an incinerator body outlet 13 at one end, the incinerator body outlet 13 is fixedly connected to the outer wall of one side of the incinerator body 1, the outer wall of the incinerator body outlet 13 is in a circular truncated cone shape which is folded by 15 degrees towards the circle center, and a fixing frame 16 which is perpendicular to the ground is arranged on the outer wall of the incinerator body outlet 13; the outer wall fixed mounting of incinerator body 1 has thermometer 11, and 11 symmetries of thermometer set up the outer wall at incinerator body 1, and the thermometer 11 of this embodiment can adopt thermocouple thermometer or infrared furnace thermometer, improves detection accuracy. A pressure gauge 12 is arranged inside the incinerator body 1; the inner wall of the thermometer 11 is provided with a groove 111, the outer wall of the incinerator body 1 is symmetrically provided with temperature measuring grooves 121, the thermometer 11 is sleeved outside the temperature measuring grooves 121, the groove 111 is connected with the temperature measuring grooves 121, an annular driving groove 112 is arranged in the groove 111, the thermometer 11 is positioned in the driving groove 112 and is fixedly connected with the output end of a driving motor arranged in the driving groove 112, and the thermometer 11 is movably arranged in the driving groove 112; the outer wall of the incinerator body 1 is provided with a temperature measuring groove 121, the thermometer 11 movably arranged in the groove 111 moves circularly in the temperature measuring groove 121 to measure the temperature of the incinerator body 1 through the temperature measuring groove 121, and the thermometer 11 and the temperature measuring groove 121 are symmetrically distributed on the outer wall of the incinerator body 1, so that the temperature of each part of the incinerator body 1 can be known in detail, and the incineration work is facilitated.

Referring to fig. 2 and 3, the incineration feeding unit 101 includes a solvent feeding control unit 1011, a fan frequency control unit 1012, a saline water feeding control unit 1013, a cooling water feeding control unit 1014, and an ammonia water feeding control unit 1015, wherein the solvent feeding control unit 1011 is connected to a solvent valve 21, the fan frequency control unit 1012 is connected to a combustion air supply valve 31, the saline water feeding control unit 1013 is connected to a first liquid flow valve 51, the cooling water feeding control unit 1014 is connected to a second liquid flow valve 71, and the ammonia water feeding control unit 1015 is connected to a liquid regulating valve 81; a data storage unit 1001 is arranged in the data processing unit 100, and the solvent feeding control unit 1011, the fan frequency control unit 1012, the saline water feeding control unit 1013, the cooling water feeding control unit 1014 and the ammonia water feeding control unit 1015 are all connected with the data processing unit 100 and the data storage unit 1001; the incineration detection unit 102 comprises a fan pressure detection unit 1021, a gas pressure detection unit 1022 and a liquid flow detection unit 1023, wherein an air supply flow meter 30 is installed on the fan pipeline 3, liquid pressure gauges 20 are installed on the saline water pipeline 5, the cooling water pipeline 7 and the ammonia water pipeline 8, a natural gas pressure gauge 92 is installed on the natural gas pipeline 9, the fan pressure detection unit 1021 is connected with the natural gas pressure gauge 92, the air supply flow meter 30 is connected with the gas pressure detection unit 1022, and the liquid flow detection unit 1023 is connected with the liquid pressure gauge 20; the incineration detection unit 102 further comprises a furnace body temperature detection unit 1024 and a furnace body pressure detection unit 1025, the furnace body temperature detection unit 1024 is connected with the thermometer 11, and the furnace body pressure detection unit 1025 is connected with the pressure gauge 12; the incineration feeding unit 101 is connected with a power supply unit 104, the power supply unit 104 is connected with a data processing unit 100, and the data processing unit 100 is connected with an abnormality alarm unit 105 and a monitoring terminal 106 through a communication unit 103. The communication unit 103 of this embodiment may be a wireless communication unit or a wired communication unit, and the monitoring terminal 106 may be an upper computer or a mobile intelligent terminal, so as to facilitate real-time online checking and routing inspection. The detection unit 102 that burns of this embodiment is connected with the feeding unit 101 that burns, it plays the effect that detects the feeding and give the feeding unit 101 feedback of burning to burn detection unit 102, and be provided with reposition of redundant personnel pipeline and natural gas ignition pipeline on fan pipeline 3 and natural gas line 9 respectively, and the accessible burns feeding unit 101 and controls, run into the mistake when meetting, it will stop the feeding to burn feeding unit 101, and open urgent discharge valve port 4 and brackish water steam purge valve 6 in order to guarantee the safety in utilization of burning furnace body 1, start the suggestion of mobile terminal simultaneously with this, give the police dispatch newspaper.

The above system comprises the following steps:

the method comprises the following steps: preparing for incineration: the detection data of the incinerator body 1, specifically the conditions of the air supply flow, the liquid flow and the fan pressure of the incinerator body 1 and the conditions of the body temperature and the body pressure of the incinerator body 1 are detected by the incineration detection unit 102 which is called by the data processing unit 100 connected with the incinerator body 1;

step two: and (3) incineration adjustment: the communication unit 103 transmits the data to the mobile terminal, and under the normal working condition, the supply conditions of the organic solvent, the salt-containing water, the cooling water and the ammonia water of the incinerator body 1 by the incineration feeding unit 101 are adjusted, so that the incinerated substances in the incinerator body 1 are fully incinerated;

step three: and (3) abnormal display: when an abnormality occurs, the data processing unit 100 automatically stops feeding through the incineration feeding unit 101, opens the emergency discharge valve port 4 and the saline steam purge valve 6, simultaneously starts the abnormality alarm unit 105 through the communication unit 103 to give an alarm, and feeds back error data through the data terminal.

Based on the above, the present embodiment can realize comprehensive intelligent monitoring and control of the incinerator in a full range through the above intelligent control system, the incinerator body 1 is respectively connected with the organic solvent pipeline 2, the fan pipeline 3, the saline water pipeline 5, the cooling water pipeline 7, the ammonia water pipeline 8 and the natural gas pipeline 9, the feeding amount of the incinerator body 1 is controlled through the incineration feeding unit 101, the data processing unit 100 connected with the incinerator body 1, the incineration condition in the incinerator body 1 is known through the incineration detecting unit 102 connected with the data processing unit 100, the incineration detecting unit 102 plays a role in detecting feeding and feeding back the incineration feeding unit 101, data processing can be performed through the data processing unit 100, and the condition of the incinerator body 1 is controlled; and be provided with reposition of redundant personnel pipeline and natural gas ignition pipeline respectively on fan pipeline 3 and natural gas line 9 to the accessible burns feeding unit 101 and controls, and fan pipeline 3 makes and burns in the burning furnace body 1 formation torrent from the multi-angle tonifying wind, and the multi-angle replenishes the abundant burning of air.

In addition, a data storage unit 1001 is arranged in the data processing unit 100, data are stored through the data storage unit 1001 and transmitted to the mobile terminal through the communication unit 103, so that a user can inquire or adjust the burning condition in the incinerator body 1 in time, when the communication unit 103 connected with the data processing unit 100 receives abnormal data feedback, the abnormal alarm unit 105 connected with the communication unit 103 gives an alarm, error data are fed back to the mobile terminal through the communication unit 103, the data processing unit is convenient to overhaul, the abnormal data are stored through the data storage unit 1001, the fault types are known and frequent error types are counted when the data processing unit is convenient to overhaul, and the fault data are known in detail so as to be convenient to maintain and use in the later period.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. An online remote intelligent control system of an organic waste liquid thermal oxidation incinerator is characterized by comprising an incinerator body (1), a data processing unit (100), an incineration feeding unit (101) and an incineration detection unit (102), wherein the data processing unit (100) and the incineration detection unit (102) are both connected with the incineration feeding unit (101); the incinerator body (1) is further connected with an organic solvent pipeline (2), a cooling water pipeline (7), an ammonia water pipeline (8), a fan pipeline (3) and a salt-containing water pipeline (5), a solvent valve (21) is arranged on the organic solvent pipeline (2), a liquid flow valve II (71) is arranged on the cooling water pipeline (7), a liquid regulating valve (81) is arranged on the ammonia water pipeline (8), a combustion air supply valve (31) is arranged on the fan pipeline (3), and liquid flow valves I (51) are respectively arranged on the salt-containing water pipeline (5); a data storage unit (1001) is arranged in the data processing unit (100), a power supply unit (104) is connected to the incineration feeding unit (101), the power supply unit (104) is connected with the data processing unit (100), and the data processing unit (100) is connected with a monitoring terminal (106) and an abnormity alarm unit (105) through a communication unit (103);

the incineration feeding unit (101) comprises a solvent feeding control unit (1011), a fan frequency control unit (1012), a saline feeding control unit (1013), a cooling water feeding control unit (1014) and an ammonia feeding control unit (1015), wherein the solvent feeding control unit (1011), the fan frequency control unit (1012), the saline feeding control unit (1013), the cooling water feeding control unit (1014) and the ammonia feeding control unit (1015) are all connected with the data processing unit (100) and the data storage unit (1001), the solvent feeding control unit (1011) is connected with the solvent valve (21), the fan frequency control unit (1012) is connected with the combustion air supply valve (31), the saline feeding control unit (1013) is connected with the liquid flow valve I (51), and the cooling water feeding control unit (1014) is connected with the liquid flow valve II (71), the ammonia water feeding control unit (1015) is connected with the liquid regulating valve (81).

2. An online remote intelligent control system for a thermal oxidation incinerator for organic waste liquid according to claim 1, it is characterized in that the incinerator body (1) is connected with a natural gas pipeline (9), an emergency discharge valve port (4) is also arranged on the fan pipeline (3), a shunt pipeline is connected on the fan pipeline (3), a furnace body air supply valve (32) is arranged on the diversion pipeline, a salt-containing water steam purging valve (6) is also arranged on the salt-containing water pipeline (5), a second gas regulating valve (91) is arranged on the natural gas pipeline (9), a natural gas ignition pipeline is arranged between the natural gas pipeline (9) and the incinerator body (1), two ends of the natural gas ignition pipeline are respectively connected with the natural gas pipeline (9) and the incinerator body (1), and an ignition valve (10) is arranged on the natural gas ignition pipeline; the incinerator body (1) is arranged at a fixed distance from the ground horizontally, a suspended seat (14) is fixedly arranged on the outer wall of the incinerator body (1), and an organic solvent pipeline (2), a fan pipeline (3), a salt-containing water pipeline (5), a cooling water pipeline (7), an ammonia water pipeline (8) and a natural gas pipeline (9) are arranged in parallel on one side of the incinerator body (1) and are fixedly arranged on a support (15) parallel to the suspended seat (14).

3. An online remote intelligent control system for an organic waste liquid thermal oxidation incinerator according to claim 1, characterized in that thermometers (11) are fixedly installed on the outer wall of the incinerator body (1), the thermometers (11) are symmetrically arranged on the outer wall of the incinerator body (1), and a pressure gauge (12) is arranged inside the incinerator body (1); the inner wall of thermometer (11) is provided with recess (111), the outer wall symmetry of incinerator body (1) is provided with temperature measurement groove (121), thermometer (11) cup joint the outside of temperature measurement groove (121), just recess (111) with temperature measurement groove (121) are connected, be provided with in recess (111) and be annular drive groove (112), thermometer (11) be located in drive groove (112), and with the output fixed connection of the driving motor who sets up in drive groove (112).

4. An online remote intelligent control system for an organic waste liquid thermal oxidation incinerator according to claim 1, characterized in that an incinerator body (1) is provided with an incinerator discharge port (13), the incinerator discharge port (13) is fixedly connected to the outer wall of one side of the incinerator body (1), the outer wall of the incinerator discharge port (13) is in a truncated cone shape which is 15 degrees converging towards the center of a circle, and a fixing frame (16) perpendicular to the ground is arranged on the outer wall of the incinerator discharge port (13).

5. An online remote intelligent control system for a thermal oxidation incinerator for organic waste liquid according to claim 2, characterized in that the incineration detection unit (102) comprises a fan pressure detection unit (1021), a gas pressure detection unit (1022) and a liquid flow detection unit (1023), the fan pipeline (3) is provided with an air supply flow meter (30), the salt water containing pipeline (5), the cooling water pipeline (7) and the ammonia water pipeline (8) are all provided with a liquid pressure gauge (20), a natural gas pressure gauge (92) is arranged on the natural gas pipeline (9), the fan pressure detection unit (1021) is connected with the natural gas pressure gauge (92), the air supply flow meter (30) is connected with the gas pressure detection unit (1022), the liquid flow detection unit (1023) is connected with the liquid pressure gauge (20).

6. An online remote intelligent control system for an organic waste liquid thermal oxidation incinerator according to claim 3, characterized in that the incineration detection unit (102) further comprises a furnace body temperature detection unit (1024) and a furnace body pressure detection unit (1025), the furnace body temperature detection unit (1024) is connected with the thermometer (11), and the furnace body pressure detection unit (1025) is connected with the pressure gauge (12).

7. The control method of the on-line organic waste liquid thermal oxidation incinerator remote intelligent control system according to any one of claims 1 to 6, characterized by comprising the following steps:

the method comprises the following steps: preparing for incineration: the detection data of the incineration detection unit (102) to the incineration furnace body (1) is called through the data processing unit (100) connected with the incineration furnace body (1), and the detection data comprise the conditions of the air supply flow, the liquid flow and the fan pressure of the incineration furnace body (1) and the conditions of the furnace body temperature and the pressure of the incineration furnace body (1);

step two: and (3) incineration adjustment: the communication unit (103) transmits data to the mobile terminal, and under the normal working condition, the supply conditions of the organic solvent, the salt-containing water, the cooling water and the ammonia water of the incinerator body (1) are adjusted by the incineration feeding unit (101), so that the incinerated substances in the incinerator body (1) are fully incinerated;

step three: and (3) abnormal display: when the abnormal condition occurs, the data processing unit (100) automatically stops feeding through the incineration feeding unit (101), opens the emergency discharge valve port (4) and the saline steam purging valve (6), simultaneously starts the abnormal alarm unit (105) through the communication unit (103) to give an alarm, and feeds back error data through the data terminal.

Images