CN210905434U

CN210905434U - Simulation experiment system

Info

Publication number: CN210905434U
Application number: CN201921550834.4U
Authority: CN
Inventors: 何星智; 肖添财; 黄希翔
Original assignee: Xiamen Huike Tiangong Purification Technology Co ltd
Current assignee: Xiamen Huike Tiangong Purification Technology Co ltd
Priority date: 2019-09-18
Filing date: 2019-09-18
Publication date: 2020-07-03
Anticipated expiration: 2029-09-18

Abstract

The utility model discloses a simulation experiment system, which comprises an air inlet valve, an air inlet pipeline, a first spray tower, a first connecting pipe component, a second spray tower, a second connecting pipe component, an anti-corrosion fan and an exhaust pipeline, as well as a first monitoring device, a second monitoring device and a control system, which are connected in sequence according to the working procedures; the first monitoring device is arranged opposite to the air inlet pipeline and used for detecting the concentration of the exhaust gas entering the simulation experiment system; the second monitoring device is arranged opposite to the exhaust pipeline and used for detecting the concentration of the exhaust gas exhausted by the simulation experiment system; the control system is used for acquiring data of the first monitoring device and the second monitoring device and controlling the work of the simulation experiment system. The utility model discloses can realize miniaturizing industrial spray column for simulate large-scale industrial spray column's actual operation condition, and can acquire the experimental data who satisfies the waste gas scene, be used for the design of later stage industrial spray column and the optimization of later stage operation.

Description

Simulation experiment system

Technical Field

The utility model relates to an exhaust-gas treatment field especially indicates a simulation experiment system.

Background

The spray tower is the simplest equipment for industrial dust removal or waste gas treatment, and has the advantages of simple structure, low manufacturing cost, small gas pressure drop and no blockage.

However, the spray tower belongs to industrial non-standard products and has no small experimental system, so the actual use effect of the equipment after being put into use is often not in accordance with the design, and the design requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simulation experiment system for simulate large-scale industrial spray column's actual motion condition, in order to acquire the experimental data that satisfies the waste gas scene, be arranged in later stage industrial spray column's design.

In order to achieve the above purpose, the solution of the present invention is:

a simulation experiment system comprises an air inlet valve, an air inlet pipeline, a first spray tower, a first connecting pipe assembly, a second spray tower, a second connecting pipe assembly, an anti-corrosion fan, an exhaust pipeline, a first monitoring device, a second monitoring device and a control system which are sequentially connected according to working procedures; the first monitoring device is arranged opposite to the air inlet pipeline and used for detecting the concentration of the exhaust gas entering the simulation experiment system; the second monitoring device is arranged opposite to the exhaust pipeline and used for detecting the concentration of the exhaust gas exhausted by the simulation experiment system; the control system is used for acquiring data of the first monitoring device and the second monitoring device and controlling the work of the simulation experiment system.

A simulation experiment system, still include the cold blast valve, the gas vent of cold blast valve with the admission line intercommunication for dilute the entering simulation experiment system's exhaust gas concentration.

The two ends of the air inlet pipeline are respectively communicated with the air inlet of the air inlet valve and the air inlet of the first spray tower, the two ends of the first connecting pipe assembly are respectively communicated with the air outlet of the first spray tower and the air inlet of the second spray tower, the two ends of the second connecting pipe assembly are respectively communicated with the air outlet of the second spray tower and the air inlet of the anticorrosive fan, and the air outlet of the anticorrosive fan is communicated with the air outlet of the anticorrosive fan.

The first spray tower and the second spray tower respectively comprise an upper shell and a lower shell, and the lower end of the upper shell is movably connected with the upper end of the lower shell through a flange structure.

And the first spray tower and the second spray tower are both provided with transparent windows.

The first spray tower and the second spray tower are both provided with a plurality of groups of spiral spray heads and anticorrosive fillers, and the spiral spray heads are oppositely arranged above the anticorrosive fillers.

The first connecting pipe assembly and the second connecting pipe assembly respectively comprise a plurality of bent pipes and straight pipes, and movable connection is achieved between each bent pipe and each straight pipe through a flange structure.

And pulley bases are arranged at the bottoms of the first spray tower, the second spray tower and the anticorrosive fan.

After the technical scheme is adopted, the utility model discloses can realize miniaturizing industrial spray column for simulate large-scale industrial spray column's actual motion condition, and can acquire the experimental data that satisfies the waste gas scene, be used for the design of later stage industrial spray column and the optimization of later stage operation.

Furthermore, the utility model discloses a structure can realize indoor depositing to satisfy different operating condition, structural mounting means who adopts the fast-assembling, and dispose the pulley base, conveniently remove and transport, thereby reduce human input, reduce cost of transportation.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a partial exploded view of a first spray tower according to an embodiment of the present invention;

FIG. 3 is an enlarged view of the point A in FIG. 1 according to an embodiment of the present invention;

the reference numbers illustrate: an air inlet valve 1; an air intake duct 2; a first spray tower 3; a first connecting tube assembly 4; a second spray tower 5; a second junction block assembly 6; an anti-corrosion fan 7; an exhaust duct 8; a first monitoring device 9; a second monitoring device 10; a control system 11; a cold air valve 12; an upper case 13; a lower case 14; a flange structure 15; a transparent window 16; a spiral spray head 17; an anti-corrosive filler 18; a bent pipe 19; a straight tube 20; a pulley base 21.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

The utility model relates to a simulation experiment system, include air inlet valve 1, admission line 2, first spray column 3, first connecting tube subassembly 4, second spray column 5, second connecting tube subassembly 6, anticorrosive fan 7 and exhaust duct 8 that connect gradually according to the process to and first monitoring device 9, second monitoring device 10 and control system 11.

The first monitoring device 9 is arranged opposite to the air inlet pipeline 2 and used for detecting the concentration of the exhaust gas entering the simulation experiment system.

The second monitoring device 10 is disposed opposite to the exhaust duct 8, and is configured to detect a concentration of the exhaust gas exhausted by the simulation experiment system.

The control system 11 is configured to obtain data of the first monitoring device 9 and the second monitoring device 10, and control the operation of the simulation experiment system.

Referring to fig. 1 to 3, a specific embodiment of the present invention has the following structure:

the utility model discloses still include cold blast valve 12, the gas vent and the 2 intercommunications of admission line of cold blast valve 12, dilute high concentration waste gas through setting up cold blast valve 12, ensure that system's import concentration is in the design range.

The concrete connection mode among the above-mentioned each part is: the two ends of the air inlet pipeline 2 are respectively communicated with the air inlet valve 1 and the air inlet of the first spray tower 3, the two ends of the first connecting pipe assembly 4 are respectively communicated with the air outlet of the first spray tower 3 and the air inlet of the second spray tower 5, the two ends of the second connecting pipe assembly 6 are respectively communicated with the air outlet of the second spray tower 5 and the air inlet of the anticorrosive fan 7, and the air outlet pipeline 8 is communicated with the air outlet of the anticorrosive fan 7.

As shown in fig. 2, a partial structure exploded view of the first spray tower 3 is provided, the structure of the second spray tower 5 of the present invention is the same as that of the first spray tower 3, and the two spray towers are installed at different positions, so as to achieve the purification effect at different stages. The first spray tower 3 and the second spray tower 5 both comprise an upper shell 13 and a lower shell 14, the lower end of the upper shell 13 is movably connected with the upper end of the lower shell 14 through a flange structure 15, so that the first spray tower 3 and the second spray tower 5 can be disassembled into multiple sections during transportation, and then the multiple sections are assembled on site.

The first spray tower 3 and the second spray tower 5 are both provided with transparent windows 16 so as to observe the internal waste gas treatment condition.

The first spray tower 3 and the second spray tower 5 are both provided with a plurality of groups of spiral nozzles 17 and anticorrosive fillers 18, and the spiral nozzles 17 are oppositely arranged above the anticorrosive fillers 18.

The first connecting pipe assembly 4 and the second connecting pipe assembly 6 each include a plurality of bent pipes 19 and straight pipes 20, as shown in fig. 3, each bent pipe 19 and each straight pipe 20 are movably connected by a flange structure 15', the installation speed is high, and gas leakage can be avoided.

The bottoms of the first spray tower 3, the second spray tower 5 and the anticorrosive fan 7 are provided with pulley bases 21, so that the first spray tower 3, the second spray tower 5 and the anticorrosive fan 7 can be moved and carried conveniently, and the transportation cost is reduced.

The utility model discloses a theory of operation does: the intake stack 1 imports inlet duct 2 with waste gas, and cold blast valve 12 dilutes waste gas concentration, and later waste gas loops through first spray column 3, first connecting tube subassembly 4, second spray column 5, second connecting tube subassembly 6, anticorrosive fan 7 and exhaust duct 8, and wherein first spray column 3 realizes preliminary purification to waste gas, and second spray column 5 realizes deep purification to waste gas. Meanwhile, the first monitoring device 9 and the second monitoring device 10 monitor the exhaust gas in the air inlet pipeline 2 and the exhaust pipeline 8, and transmit data to the control system 11, and the control system 11 records the data, so that the data analysis in the later period is facilitated.

Through the structure, the utility model discloses can realize miniaturizing industrial spray column for simulate large-scale industrial spray column's actual motion condition, and can acquire the experimental data who satisfies the waste gas scene, be used for the design of later stage industrial spray column and the optimization of later stage operation.

Furthermore, the utility model discloses a structure can realize indoor depositing to satisfy different operating condition, structural mounting means who adopts the fast-assembling, and configuration pulley base 21, convenient removal and transportation, thereby reduce the human input, reduce cost of transportation.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims

1. A simulation experiment system is characterized in that: comprises an air inlet valve, an air inlet pipeline, a first spray tower, a first connecting pipe component, a second spray tower, a second connecting pipe component, an anti-corrosion fan and an exhaust pipeline which are sequentially connected according to the working procedures, and

the first monitoring device is arranged opposite to the air inlet pipeline and used for detecting the concentration of the exhaust gas entering the simulation experiment system;

the second monitoring device is arranged opposite to the exhaust pipeline and used for detecting the concentration of the exhaust gas discharged by the simulation experiment system;

and the control system is used for acquiring the data of the first monitoring device and the second monitoring device and controlling the work of the simulation experiment system.

2. A simulation experiment system according to claim 1, wherein:

still include the cold blast valve, the gas vent of cold blast valve with inlet duct intercommunication for dilute the entering the exhaust gas concentration of simulation experiment system.

3. A simulation experiment system according to claim 1, wherein:

4. A simulation experiment system according to claim 1, wherein:

5. A simulation experiment system according to claim 1, wherein:

6. A simulation experiment system according to claim 1, wherein:

7. A simulation experiment system according to claim 1, wherein:

8. A simulation experiment system according to any one of claims 1 to 7, wherein: