CN207248597U - Automatic nitrogen condensed flue gas processing unit - Google Patents
Automatic nitrogen condensed flue gas processing unit Download PDFInfo
- Publication number
- CN207248597U CN207248597U CN201720905152.5U CN201720905152U CN207248597U CN 207248597 U CN207248597 U CN 207248597U CN 201720905152 U CN201720905152 U CN 201720905152U CN 207248597 U CN207248597 U CN 207248597U
- Authority
- CN
- China
- Prior art keywords
- flue gas
- nitrogen
- condensation
- processing unit
- main body
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Abstract
The utility model discloses a kind of automatic nitrogen condensed flue gas processing unit, including particulate matter filtration fraction, flue gas water removal sections and processor, the particulate matter filtration fraction is connected by smoke guide pipe with the flue gas water removal sections, it is characterized in that, flue gas by flue gas water removal sections water removal accesses the processor, and the flue gas water removal sections include:Nitrogen aerodynamic device, condensation chamber main body, nitrogen jet groove, flue gas enters the condensation chamber main body by smoke guide pipe, the condensation chamber main body is arranged in the nitrogen jet groove, and the nitrogen aerodynamic device carries out jet to the condensation chamber body exterior and the aqueous vapor in flue gas is condensed.The utility model is the high automatic nitrogen condensed flue gas processing unit of a kind of light, good dustproof effect, water rem oval.
Description
Technical field
It the utility model is related to flue gas sampler technical field, more particularly to a kind of light, good dustproof effect, water removal effect
The high automatic nitrogen condensed flue gas processing unit of rate.
Background technology
The chief component of flue gas and motor-vehicle tail-gas is carbon monoxide, the oxidation of carbon dioxide, nitrogen oxides, sulphur
Compound, volatile organic matter, flue dust and vapor etc..The content of wherein dust and vapor is big, temperature is high therefore is gathering
During flue gas, the ability that collection carrier adsorbs testing compound after adsorbed water molecule substantially reduces, and influences the standard of detection
True property.
Therefore, it is protection analytical instrument and improves testing precision, purer flue gas is needed during to flue gas analysis, this
When be necessary to pre-process flue gas:Dedusting, water removal.Passing automatic nitrogen condensed flue gas processing unit majority function letter
Single, heavy, unreasonable structure etc., is mainly shown as:1. bad 2. water rem oval of dust removing effects is low, easily absorption is tested gas to instrument
3. complete machine of body, 4. unreasonable structures of heaviness, clear up inconvenient 5. artificial drainages, difficult in maintenance.
Therefore, there is an urgent need for the high automatic nitrogen condensed flue gas processing unit of a kind of light, good dustproof effect, water rem oval.
Utility model content
The purpose of this utility model is to provide the high automatic nitrogen condensing of a kind of light, good dustproof effect, water rem oval
Flue gas processing device.
To achieve these goals, technical solution provided by the utility model is:A kind of automatic nitrogen condensing cigarette is provided
Flash Gas Compression Skid System, including particulate matter filtration fraction, flue gas water removal sections and processor, the particulate matter filtration fraction is by leading cigarette
Pipe is connected with the flue gas water removal sections, and the flue gas by flue gas water removal sections water removal accesses the processor, the cigarette
Gas water removal sections include:Controller, nitrogen aerodynamic device, condensation chamber main body, nitrogen jet groove, flue gas by smoke guide pipe into
Enter the condensation chamber main body, the condensation chamber main body is arranged in the nitrogen jet groove, and the nitrogen aerodynamic device is to institute
State condensation chamber body exterior and carry out jet so that the aqueous vapor in flue gas is condensed, the first temperature is additionally provided with the condensation chamber main body
Sensor is spent, first temperature sensor is used to be monitored the temperature in the condensation chamber main body, and by the condensation
Temperature information in the main body of room is sent to the controller, and the controller is connected with the nitrogen aerodynamic device, is used in combination
In the size for the nitrogen amount that the control nitrogen aerodynamic device is sprayed.
The nitrogen aerodynamic device is additionally provided with nitrogen flow regulating device, and the controller passes through the nitrogen stream
Quantity regulating device is connected with the nitrogen aerodynamic device, and the nitrogen flow regulating device is used to adjust the nitrogen jet
The size for the nitrogen amount that condensing unit is sprayed.
It is equipped with condensation cup and condensation in the condensation chamber main body, the condensation cup is hollow structure, the condensation group
Part is closely embedded in inside the condensation cup, and the outer wall of the condensation offers helicla flute, through the condensation cup one
The side wall of side offers the inlet channel being connected with the smoke guide pipe, and the inlet channel is connected with the upper end of the helicla flute,
The outlet passageway connected with the lower end of the helicla flute is offered through the side wall of the condensation cup opposite side so that lead from described
The flue gas of smoke pipe access enters the upper end of the helicla flute and is moved downward along the helicla flute, most afterwards through the outlet passageway
Into in the processor, and the aqueous vapor in flue gas is then constantly condensed into liquid water in the helicla flute and flows into the condensation
In cup, the bottom of the condensation cup offers water outlet.
The front end of the particulate matter filtration fraction is equipped with air inlet component, and the air inlet component, which is equipped with, to be used to filter bulky grain
The strainer of thing, it is titanium cylinder filter core for further fine filtering to be connected to after the strainer.
Water storage basin is connected with below the condensation cup, and the water storage basin is also associated with peristaltic pump.
The outer wall of the smoke guide pipe is also wound with heater strip, further includes second temperature sensor, second temperature sensing
Device is arranged on the outer wall of the smoke guide pipe, and the temperature information of the smoke guide pipe is detected.
Three-temperature sensor and control module are further included, the 3rd temperature sensing is additionally provided with the air inlet component
Device, the second temperature sensor and three-temperature sensor are connected with the control module, the three-temperature sensor
Believe for detecting the temperature information for the flue gas for having just enter into the air inlet component, and by the temperature for having just enter into the air inlet component
Breath is sent to the control module, the control module and then the control heating wire fever.
Mechanical adjustment button is additionally provided with the nitrogen aerodynamic device, by the mechanical adjustment button to jet system
Cold temperature is rationally adjusted.
The peristaltic pump is also connected with the controller, and the controller controls the drainage period of the peristaltic pump.
Compared with prior art, due in the utility model automatic nitrogen condensed flue gas processing unit, the flue gas
Water removal sections include:Nitrogen aerodynamic device, condensation chamber main body, nitrogen jet groove, flue gas are entered described cold by smoke guide pipe
Solidifying room main body, the condensation chamber main body are arranged in the nitrogen jet groove, and the nitrogen aerodynamic device is to the condensation chamber
Main body carries out jet and make it that the aqueous vapor in flue gas is condensed.During so that flue gas entering the condensation chamber main body, institute can be passed through
State nitrogen aerodynamic device to condense the condensation chamber main body so that the aqueous vapor in flue gas can condense, and obtain drying
Flue gas.
It will be become more fully apparent by following description and with reference to attached drawing, the utility model, these attached drawings are used to explain this
The embodiment of utility model.
Brief description of the drawings
Fig. 1 show a cross section view of the utility model automatic nitrogen condensed flue gas processing unit.
Embodiment
The embodiment of the utility model described referring now to attached drawing, similar element numbers represent similar member in attached drawing
Part.As described above, as shown in Figure 1, the automatic nitrogen condensed flue gas processing unit 100 that the utility model embodiment provides, bag
Include particulate matter filtration fraction 1, flue gas water removal sections 2 and processor 3, the particulate matter filtration fraction 1 by smoke guide pipe 4 with it is described
Flue gas water removal sections 2 connect, and the flue gas by the flue gas water removal sections 2 water removal accesses the processor 3, the flue gas water removal
Part 2 includes:Controller, nitrogen aerodynamic device 21, condensation chamber main body 22, nitrogen jet groove 23, flue gas pass through smoke guide pipe 4
Into the condensation chamber main body 22, the condensation chamber main body 22 is arranged in the nitrogen jet groove 23, the nitrogen aerodynamic
Device 21 carries out jet to the outside of condensation chamber main body 22 and the aqueous vapor in flue gas is condensed, the condensation chamber main body 22
The first temperature sensor (not showing on figure) is inside additionally provided with, first temperature sensor is used in the condensation chamber main body 22
Temperature is monitored, and the temperature information in the condensation chamber main body 22 is sent to the controller, the controller and institute
Nitrogen aerodynamic device 21 is stated to connect, and for controlling the big of nitrogen amount that the nitrogen aerodynamic device 21 sprayed
It is small.The nitrogen aerodynamic device 21 is internally provided with the solenoid valve that can control gas output size,
It should be noted that the smoke guide pipe 4 is with very strong stability at elevated temperature, in addition done as much as possible
The material lighter into quality, can so reduce the weight of flue-gas treater well, mitigate the burden of flue gas sampling person, one
In a embodiment, the smoke guide pipe 4 selects titanium tube, and titanium tube has very strong stability at elevated temperature, and density is low and hardness is big.
It should be noted that the nitrogen gas source in the nitrogen aerodynamic device 21 is external nitrogen cylinder, the nitrogen
Aerodynamic device 21 is equipped with the entrance 211 of nitrogen, and external nitrogen cylinder is connected with the nitrogen inlet 211.
In one embodiment, as shown in Figure 1, the nitrogen aerodynamic device 21 is additionally provided with nitrogen flow regulating device
(not showing on figure), the controller are connected by the nitrogen flow regulating device with the nitrogen aerodynamic device 21, institute
State the size that nitrogen flow regulating device is used to adjust the nitrogen amount that the nitrogen aerodynamic device 21 is sprayed.More specifically
Ground, the nitrogen flow regulating device are a nitrogen flow valves, it is driven by motor 212, the startup of motor 212 with
Stop being controlled by the controller.
In one embodiment, as shown in Figure 1, condensation cup 221 and condensation 222 are equipped with the condensation chamber main body 22,
The condensation cup 221 is hollow structure, and the condensation 222 is closely embedded in inside the condensation cup 221, and the condensation
The outer wall of component 222 offers helicla flute 223, and the side wall through 221 side of the condensation cup is offered to be connected with the smoke guide pipe 4
The inlet channel connect, the inlet channel are connected with the upper end of the helicla flute 223, through condensation 221 opposite side of cup
Side wall offers the outlet passageway connected with the lower end of the helicla flute 223 so that enters from the flue gas of the smoke guide pipe 4 access
The upper end of the helicla flute 223 is simultaneously moved downward along the helicla flute 223, most enters the processing through the outlet passageway afterwards
In device 3, and the aqueous vapor in flue gas is then constantly condensed into liquid water in the helicla flute 223 and flows into the condensation cup 221,
The bottom of the condensation cup 221 offers water outlet.
In embodiment as shown in Figure 1, the front end of the particulate matter filtration fraction 1 is equipped with air inlet component 11, the air inlet
Component 11, which is equipped with, to be used to filter the strainer 12 of bulky grain thing, and it is to be used for further fine mistake to be connected to after the strainer 12
The titanium cylinder filter core 13 of filter.
In embodiment as shown in Figure 1,221 lower section of condensation cup is connected with water storage basin 224, and the water storage basin 224
It is also associated with peristaltic pump 225.
In embodiment as shown in Figure 1, the outer wall of the smoke guide pipe 4 is also wound with heater strip (not showing on figure), further includes
Second temperature sensor 5, the second temperature sensor 5 are arranged on the outer wall of the smoke guide pipe 4, and to the temperature of the smoke guide pipe 4
Degree information is detected.
In embodiment as shown in Figure 1, including three-temperature sensor 7 and control module (not showing on figure), the air inlet
It is additionally provided with the three-temperature sensor 7 on component 11, the second temperature sensor 5 and three-temperature sensor 7 are and institute
Control module connection is stated, the three-temperature sensor 7 is used for the temperature letter for detecting the flue gas for having just enter into the air inlet component 11
Breath, and the temperature information for having just enter into the air inlet component 11 is sent to the control module, the control module and then
The heating wire is controlled to generate heat.
In embodiment as shown in Figure 1, the peristaltic pump 225 is also connected with the controller, and the controller controls institute
State the drainage period of peristaltic pump 225.
In embodiment as shown in Figure 1, mechanical adjustment button is additionally provided with the nitrogen aerodynamic device 21 (on figure not
Show), jet cryogenic temperature 21 is rationally adjusted by the mechanical adjustment button.
Compared with prior art, with reference to Fig. 1, due in the utility model automatic nitrogen condensed flue gas processing unit,
The flue gas water removal sections 2 include:Nitrogen aerodynamic device 21, condensation chamber main body 22, nitrogen jet groove 23, flue gas is by leading
Smoke pipe 4 enters the condensation chamber main body 22, and the condensation chamber main body 22 is arranged in the nitrogen jet groove 23, the nitrogen jet
Condensing unit 21 carries out jet to the outside of condensation chamber main body 22 and the aqueous vapor in flue gas is condensed.So that flue gas enters
During the condensation chamber main body 22, the condensation chamber main body 22 can be condensed by the nitrogen aerodynamic device 21,
Aqueous vapor in flue gas is condensed, obtains dry flue gas.
Above disclosed is only the preferred embodiment of the utility model, certainly cannot be new to limit this practicality with this
The interest field of type, therefore the equivalent variations made according to present utility model application the scope of the claims, still belong to the utility model and are covered
Scope.
Claims (9)
1. a kind of automatic nitrogen condensed flue gas processing unit, including particulate matter filtration fraction, flue gas water removal sections and processor,
The particulate matter filtration fraction is connected by smoke guide pipe with the flue gas water removal sections, it is characterised in that is removed by the flue gas
The flue gas of water section water removal accesses the processor, and the flue gas water removal sections include:Controller, nitrogen aerodynamic device,
Condensation chamber main body, nitrogen jet groove, flue gas enter the condensation chamber main body by smoke guide pipe, and the condensation chamber main body is arranged on described
In nitrogen jet groove, the nitrogen aerodynamic device causes the condensation chamber body exterior progress jet aqueous vapor in flue gas
Condensed, the first temperature sensor is additionally provided with the condensation chamber main body, first temperature sensor is used for described cold
Temperature in solidifying room main body is monitored, and the temperature information in the condensation chamber main body is sent to the controller, described
Controller is connected with the nitrogen aerodynamic device, and for controlling the nitrogen amount that the nitrogen aerodynamic device is sprayed
Size.
2. automatic nitrogen condensed flue gas processing unit as claimed in claim 1, it is characterised in that the nitrogen aerodynamic
Device is additionally provided with nitrogen flow regulating device, and the controller passes through the nitrogen flow regulating device and the nitrogen jet
Condensing unit connects, and the nitrogen flow regulating device is used to adjust the nitrogen amount that the nitrogen aerodynamic device is sprayed
Size.
3. automatic nitrogen condensed flue gas processing unit as claimed in claim 1, it is characterised in that in the condensation chamber main body
Equipped with condensation cup and condensation, the condensation cup is hollow structure, and the condensation is closely embedded in the condensation cup
Portion, and the outer wall of the condensation offers helicla flute, the side wall through the condensation cup side is offered leads cigarette with described
The inlet channel of pipe connection, the inlet channel are connected with the upper end of the helicla flute, through the side of the condensation cup opposite side
Wall offers the outlet passageway connected with the lower end of the helicla flute so that enters the spiral shell from the flue gas of smoke guide pipe access
The upper end of spin slot is simultaneously moved downward along the helicla flute, is most entered afterwards through the outlet passageway in the processor, and flue gas
In aqueous vapor be then constantly condensed into the helicla flute liquid water flow into it is described condensation cup in, it is described condensation cup bottom open
Equipped with water outlet.
4. automatic nitrogen condensed flue gas processing unit as claimed in claim 1, it is characterised in that the particulate matter filter house
The front end divided is equipped with air inlet component, and the air inlet component is equipped with the strainer for being used for filtering bulky grain thing, is connected to the strainer
Afterwards be titanium cylinder filter core for further fine filtering.
5. automatic nitrogen condensed flue gas processing unit as claimed in claim 3, it is characterised in that connect below the condensation cup
Water storage basin is connected to, and the water storage basin is also associated with peristaltic pump.
6. automatic nitrogen condensed flue gas processing unit as claimed in claim 3, it is characterised in that the outer wall of the smoke guide pipe
Also be wound with heater strip, further include second temperature sensor, the second temperature sensor be arranged on the smoke guide pipe outer wall, and
The temperature information of the smoke guide pipe is detected.
7. automatic nitrogen condensed flue gas processing unit as claimed in claim 6, it is characterised in that further include the 3rd temperature biography
Sensor and control module, are additionally provided with the three-temperature sensor, the second temperature sensor and on the air inlet component
Three-temperature sensor is connected with the control module, and the three-temperature sensor has just enter into the air inlet component for detection
Flue gas temperature information, and the temperature information for having just enter into the air inlet component is sent to the control module, it is described
Control module and then the control heating wire fever.
8. automatic nitrogen condensed flue gas processing unit as claimed in claim 6, it is characterised in that the nitrogen aerodynamic
Mechanical adjustment button is additionally provided with device, jet cryogenic temperature is rationally adjusted by the mechanical adjustment button.
9. automatic nitrogen condensed flue gas processing unit as claimed in claim 5, it is characterised in that the peristaltic pump also with institute
Controller connection is stated, the controller controls the drainage period of the peristaltic pump.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720905152.5U CN207248597U (en) | 2017-07-24 | 2017-07-24 | Automatic nitrogen condensed flue gas processing unit |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720905152.5U CN207248597U (en) | 2017-07-24 | 2017-07-24 | Automatic nitrogen condensed flue gas processing unit |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207248597U true CN207248597U (en) | 2018-04-17 |
Family
ID=61876893
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720905152.5U Active CN207248597U (en) | 2017-07-24 | 2017-07-24 | Automatic nitrogen condensed flue gas processing unit |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207248597U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109297797A (en) * | 2017-07-24 | 2019-02-01 | 深圳国技仪器有限公司 | Automatic nitrogen condensed flue gas processor |
-
2017
- 2017-07-24 CN CN201720905152.5U patent/CN207248597U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109297797A (en) * | 2017-07-24 | 2019-02-01 | 深圳国技仪器有限公司 | Automatic nitrogen condensed flue gas processor |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US10925515B2 (en) | Alveolar breath collection apparatus | |
US6422060B1 (en) | Gas stream conditioning apparatus, system and method for use in measuring particulate matter | |
KR102157179B1 (en) | Measuring System for Particulate Matter in Air | |
CN106855472A (en) | A kind of stationary source particulate Hg and gaseous mercury isokinetic sampling device and the method for sampling | |
CN109959538A (en) | Fixed-contamination source emission sulfur trioxide and condensable particulate matter test device and method | |
CN205643314U (en) | Gaseous composition sensor probe of integrated form and detection structure | |
CN207147844U (en) | The flue gas pretreatment system of flue gas analyzer | |
CN102794075B (en) | Automatic second-hand smoke filter | |
CN105466732A (en) | High-efficiency telescopic flue dust sampling apparatus | |
CN110346190A (en) | A kind of test device and method of fixed source smoke discharge soluble-salt | |
CN207248597U (en) | Automatic nitrogen condensed flue gas processing unit | |
RU2454650C2 (en) | Combined cell for sample with filter, and system using combined cell for sample with filter | |
JP4613067B2 (en) | Integrated specimen cell-filter and apparatus using the same | |
CN207248586U (en) | Nitrogen condensed flue gas processing unit | |
CN207137650U (en) | Flue gas processing device | |
CN106501034A (en) | A kind of device of the smoke sampling monitoring of high temperature with high dust | |
KR101320566B1 (en) | Apparatus for correcting mist | |
CN206540759U (en) | Online sample gas pretreating system | |
CN102580448A (en) | Gas filter device | |
CN208512224U (en) | The on-line monitoring system of VOCs exhaust gas lower explosion limit | |
CN109297797A (en) | Automatic nitrogen condensed flue gas processor | |
CN206563669U (en) | A kind of stationary source particulate Hg and gaseous mercury isokinetic sampling's device | |
CN213022854U (en) | Detection equipment for atmospheric pollution treatment | |
CN109297776A (en) | Nitrogen condensed flue gas processor | |
CN209327301U (en) | A kind of pico-stations monitor |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |