CN206146780U - Greenhouse gas emission measures detection device - Google Patents

Abstract

The utility model discloses a greenhouse gas emission measures detection device belongs to gaseous emission detection area, aims at solving current greenhouse gaseous emission detection and is difficult to go on, and administrative participation degree is high, including body, velocity of flow detection module, concentration detection module, flow treater, display, velocity of flow detection module and concentration detection module arrange in on the body, velocity of flow detection module and concentration detection module connect flow treater and display connection respectively with the flow treater, concentration detection module and velocity of flow detection module simultaneously with the greenhouse gases concentration data and velocity of flow data transfer to the flow treater that detect, the flow treater handle received concentration data and velocity of flow data, calculate greenhouse gases's flow to on transmitting the display with the result.

Description

A kind of greenhouse gas emissions detection means

Technical field

This utility model is related to a kind of field of gas detection, is specifically a kind of greenhouse gases detection means.

Background technology

The most great environmental problem that global warming problem faces so far as the mankind, as the 21st century mankind Most one of the complex challenge for facing, simultaneously as the key of world energy prospect, having become affects World Economics, politics for it One key factor.The discharge of the greenhouse gases caused by mankind's activity based on carbon is the main cause of global warming. Current artificial carbon emission relevant issues become the main object of study in various countries.With world energy sources it is more and more tighter with environmental problem High, China is while fast-developing economical, it is necessary to be directed towards ensuring that the coordination of economic development, energy resource consumption and environmental conservation Development.Therefore land use change survey becomes first national public welfare research project of China with carbon emission research.Industrial carbon row Put and account for the 78% of mankind's activity total carbon emissions.The commercial production set up on Fossil fuel basis is to cause global warming gas Concentration increases, causes the key link of climate warming.In recent years, China's industrialized level is improved rapidly, also promotes industrial carbon Discharge effect is aggravated increasingly.

The greenhouse gas emission power transaction of China launches in model regions, empirically seeing with regard to model regions, greenhouse The most important thing of whole link when gas emissions are detected, and at present the usual of China carries out carbon emission detection to industrial area When, artificial timing acquiring is relied primarily on, and collection point is more in the industry spot that environment is complicated, it is possible to bring artificial collection Risk hidden danger, not only wasting manpower and material resources, it is impossible to ensure that the accuracy and real-time of gathered data, while administrative degree of participation Greatly, discharge main body and easily keep away inspection.

Utility model content

The purpose of this utility model is：For detecting that program is complicated, accuracy is low, the big problem of administrative degree of participation, A kind of greenhouse gas emissions detection means is provided.

The technical solution adopted in the utility model is as follows：

The utility model discloses a kind of greenhouse gas emissions detection means, including body, flow rate detection module, concentration Detection module, traffic handler, display；

Described flow rate detection module and concentration detection module is all placed on body, described flow rate detection module and concentration Detection module connects respectively with traffic handler, and described traffic handler and display connects；

Described concentration detection module and flow rate detection module are simultaneously by the greenhouse gas concentration data for detecting and flow velocity To traffic handler, described traffic handler is processed the concentration data that receives and flow speed data data transfer, is counted The flow of greenhouse gases is calculated, and result is delivered on display.

Used as improvement, the gas access end of the body is provided with recessed tubular construction, caves inward around described recessed pipe.

As improvement, screw thread is respectively equipped with the two ends outer wall of described body, while equipped with two nuts, by spiral shell Stricture of vagina is assembled to greenhouse gas emissions detection means on outer wall exhaustor.

Used as improvement, described flow rate detection module includes storage tank, valve, and nozzle, valve is located between storage tank and nozzle, Described valve and flow velocity microprocessor connects, and with flow velocity microprocessor timer and mesh sensor are connected with；

Described flow velocity microprocessor and traffic handler connects；

When flow rate detection module is started working, described flow velocity microprocessor passes the signal along to valve, valve）Beat Open, detected gas enter body, while flow velocity microprocessor notification timer starts timing, when mesh sensor detects detection When gas, flow velocity microprocessor is passed the signal along to, described microprocessor notification timer stops timing, and by timing To flow velocity microprocessor, flow velocity microprocessor calculates the flow velocity of greenhouse gas emission according to time difference to Time Transmission, and by gas Flow velocity signal be delivered to traffic handler.

As improvement, concentration detection module）Including the first air collector being sequentially connected, the first potassium hydroxide container, second Potassium hydroxide container, the second air collector and concentration control process device, described the first air collector, the second air collector respectively with it is dense Degree control process device connection, the inwall of described body is provided with 1-10 gas collector and connects with the first air collector respectively Connect；

Described concentration control process device and traffic handler connects；

Described concentration control process device is calculated according to the first air collector, the volume of the second air collector and volume differences and flowed through The concentration of body percent of greenhouse gases, and concentration signal is delivered to into traffic handler.

Used as improvement, the body is prepared by copper fiber polycarbafil composite, and described composite includes 100 parts of Merlon, copper fiber 20-50 part, coupling agent 1-5 parts, inorganic nano material 5-10 parts, antioxidant 1-5 parts are described The length of copper fiber is between 0.5mm-5mm.

Preferably, described coupling agent is KH550, one kind of KH560, KH570, KH792, DL602, DL171.

Preferably, described inorganic nano material selected from Pulvis Talci, Calcium Carbonate, barium sulfate, kieselguhr, silicon dioxide, Fumed silica.

Preferably, antioxidant is selected from 2,6- three-level butyl -4- methylphenols, double（3,5- three-level butyl -4- hydroxy benzeness Base）Thioether, four (β-(3,5- three-level butyl -4- hydroxy phenyls) propanoic acid) pentaerythritol esters.

Further, the preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 10-20 minutes, and what prepared coupling modifier was crossed inorganic receives Rice material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

In sum, as a result of above-mentioned technical proposal, the beneficial effects of the utility model are mainly reflected in：

Greenhouse gas emissions structure of the detecting device of the present utility model is simple, when needing, can speed side quickly This device being installed on exhaustor for face, it is with low cost, and need not manually operate；

Discharge capacity testing result disclosed in this utility model is accurate, is detected jointly by flow velocity and concentration, calculates medium temperature chamber The flow of gas, error is little, on the market of greenhouse gas emissions transaction, can be to the greenhouse gas of greenhouse gas emission main body Body discharge capacity is accurately detected；

Detection means disclosed in this utility model need not be participated in manually, and administrative hierarchy can install detection means To on the delivery pipe of greenhouse gas emission theme, discharge theme be difficult to without vestige unload, increase testing result credibility and Reliability, can apply on a large scale；

In the selection of body material, the special composite material that this utility model is adopted has higher toughness and intensity, And non-oxidizability, it is different with metal material, it is not easy to crack occur, compare with traditional macromolecular material, with excellent Heat-resisting quantity, and with preferable corrosion resistance, it is not easy to corroded by waste gas, so as to lower the life-span.

Description of the drawings

Fig. 1 is this utility model structural representation；

Fig. 2 is flow rate detection module diagram in this utility model；

Labelling in figure：1- bodys, the recessed pipes of 101-, 102- screw threads, 2- flow rate detection modules, 201- storage tanks, 202- valves, 203- flow velocity microprocessors, 204- timers, 205- mesh sensors, 206- nozzles, 3- concentration detection modules, 301- first collects Gas tank, 302- the first potassium hydroxide containers, 303- the second potassium hydroxide containers, the air collectors of 304- second, at 305- concentration controls Reason device, 4- traffic handlers, 5- display.

Specific embodiment

Below in conjunction with the accompanying drawings, this utility model is described in detail.

In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to this utility model.It should be appreciated that specific embodiment described herein is only to explain This utility model, is not used to limit this utility model.

Specific embodiment 1：As shown in Figure 1 and Figure 2, present embodiment discloses a kind of greenhouse gas emissions detection means, its It is characterised by, including body 1, flow rate detection module 2, concentration detection module 3, traffic handler 4, display 5；

Described flow rate detection module 2 and concentration detection module is all placed on body 1, the described He of flow rate detection module 2 Concentration detection module connects respectively with traffic handler 4, and described traffic handler 4 and display 5 connects；

Described concentration detection module 3 and flow rate detection module 2 are simultaneously by the greenhouse gas concentration data for detecting and stream To traffic handler 4, described traffic handler is processed the concentration data that receives and flow speed data fast data transfer, The flow of greenhouse gases is calculated, and result is delivered on display.

The gas access end of the body 1 is provided with the structure of recessed pipe 101, caves inward around described recessed pipe 101.

Screw thread 102 is respectively equipped with the two ends outer wall of described body 1, while equipped with nut, by screw thread 102 by temperature Room gas emissions detection means is assembled on outer wall exhaustor.

Described flow rate detection module 2 includes storage tank 201, valve 202, nozzle 206, and valve 202 is located at storage tank 201 and spray Between mouth 206, described valve 202 and flow velocity microprocessor 203 connects, and with flow velocity microprocessor 203 timer 204 is connected with With mesh sensor 205；

Described flow velocity microprocessor 203 and traffic handler 4 connects；

When flow rate detection module 2 is started working, described flow velocity microprocessor 203 passes the signal along to valve 202, Valve 202 is opened, and detected gas enter body 1, while flow velocity microprocessor 203 notifies that timer 204 starts timing, when netted When sensor 205 detects detected gas, flow velocity microprocessor 203 is passed the signal along to, described microprocessor 203 leads to Know that timer 204 stops timing, and timing time is delivered to into flow velocity microprocessor 203, flow velocity microprocessor is according to time difference The flow velocity of greenhouse gas emission is calculated, and the flow velocity signal of gas is delivered to into traffic handler 4.

Concentration detection module 3 includes the first air collector 301, the first potassium hydroxide container 302 being sequentially connected）, the second hydrogen Potassium oxide container 303, the second air collector 304 and concentration control process device 305, described the first air collector 301, the second gas collection Tank 304 connects respectively with concentration control process device 305, and the inwall of described body 1 is provided with 1-10 gas collector point Do not connect with the first air collector 301；

Described concentration control process device 305 and traffic handler 4 connects；

Described concentration control process device 305 is according to the first air collector 301, the volume of the second air collector 304 and volume Difference is calculated and flows through the concentration of the percent of greenhouse gases of body 1, and concentration signal is delivered to into traffic handler 4.

The body 1 is prepared by copper fiber polycarbafil composite, and described composite includes Merlon 100 parts, 20 parts of copper fiber, 1 part of coupling agent, 5 parts of inorganic nano material, 1 part of antioxidant, the length of the copper fiber between Between 0.5mm.

The KH550 that described coupling agent is.

Described inorganic nano material is Pulvis Talci.

Antioxidant is 2,6- three-level butyl -4- methylphenols.

The preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 10 minutes, the inorganic nano that prepared coupling modifier is crossed Material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

Specific embodiment 2：As shown in Figure 1 and Figure 2, present embodiment discloses a kind of greenhouse gas emissions detection means, its It is characterised by, including body 1, flow rate detection module 2, concentration detection module 3, traffic handler 4, display 5；

Described flow rate detection module 2 and concentration detection module is all placed on body 1, the described He of flow rate detection module 2 Concentration detection module connects respectively with traffic handler 4, and described traffic handler 4 and display 5 connects；

Described concentration detection module 3 and flow rate detection module 2 are simultaneously by the greenhouse gas concentration data for detecting and stream To traffic handler 4, described traffic handler is processed the concentration data that receives and flow speed data fast data transfer, The flow of greenhouse gases is calculated, and result is delivered on display.

The gas access end of the body 1 is provided with the structure of recessed pipe 101, caves inward around described recessed pipe 101.

Screw thread 102 is respectively equipped with the two ends outer wall of described body 1, while equipped with nut, by screw thread 102 by temperature Room gas emissions detection means is assembled on outer wall exhaustor.

Described flow rate detection module 2 includes storage tank 201, valve 202, nozzle 206, and valve 202 is located at storage tank 201 and spray Between mouth 206, described valve 202 and flow velocity microprocessor 203 connects, and with flow velocity microprocessor 203 timer 204 is connected with With mesh sensor 205；

Described flow velocity microprocessor 203 and traffic handler 4 connects；

When flow rate detection module 2 is started working, described flow velocity microprocessor 203 passes the signal along to valve 202, Valve 202 is opened, and detected gas enter body 1, while flow velocity microprocessor 203 notifies that timer 204 starts timing, when netted When sensor 205 detects detected gas, flow velocity microprocessor 203 is passed the signal along to, described microprocessor 203 leads to Know that timer 204 stops timing, and timing time is delivered to into flow velocity microprocessor 203, flow velocity microprocessor is according to time difference The flow velocity of greenhouse gas emission is calculated, and the flow velocity signal of gas is delivered to into traffic handler 4.

Concentration detection module 3 includes the first air collector 301, the first potassium hydroxide container 302 being sequentially connected）, the second hydrogen Potassium oxide container 303, the second air collector 304 and concentration control process device 305, described the first air collector 301, the second gas collection Tank 304 connects respectively with concentration control process device 305, and the inwall of described body 1 is provided with 1-10 gas collector point Do not connect with the first air collector 301；

Described concentration control process device 305 and traffic handler 4 connects；

Described concentration control process device 305 is according to the first air collector 301, the volume of the second air collector 304 and volume Difference is calculated and flows through the concentration of the percent of greenhouse gases of body 1, and concentration signal is delivered to into traffic handler 4.

The body 1 is prepared by copper fiber polycarbafil composite, and described composite includes Merlon 100 parts, 50 parts of copper fiber, 5 parts of coupling agent, 10 parts of inorganic nano material, 5 parts of antioxidant, the length of the copper fiber between Between 5mm.

The KH560 that described coupling agent is.

Described inorganic nano material is Calcium Carbonate.

Antioxidant is double（3,5- three-level butyl -4- hydroxy phenyls）Thioether.

The preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 20 minutes, the inorganic nano that prepared coupling modifier is crossed Material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

Specific embodiment 3：As shown in Figure 1 and Figure 2, present embodiment discloses a kind of greenhouse gas emissions detection means, its It is characterised by, including body 1, flow rate detection module 2, concentration detection module 3, traffic handler 4, display 5；

Described flow rate detection module 2 and concentration detection module is all placed on body 1, the described He of flow rate detection module 2 Concentration detection module connects respectively with traffic handler 4, and described traffic handler 4 and display 5 connects；

Described concentration detection module 3 and flow rate detection module 2 are simultaneously by the greenhouse gas concentration data for detecting and stream To traffic handler 4, described traffic handler is processed the concentration data that receives and flow speed data fast data transfer, The flow of greenhouse gases is calculated, and result is delivered on display.

The gas access end of the body 1 is provided with the structure of recessed pipe 101, caves inward around described recessed pipe 101.

Screw thread 102 is respectively equipped with the two ends outer wall of described body 1, while equipped with nut, by screw thread 102 by temperature Room gas emissions detection means is assembled on outer wall exhaustor.

Described flow rate detection module 2 includes storage tank 201, valve 202, nozzle 206, and valve 202 is located at storage tank 201 and spray Between mouth 206, described valve 202 and flow velocity microprocessor 203 connects, and with flow velocity microprocessor 203 timer 204 is connected with With mesh sensor 205；

Described flow velocity microprocessor 203 and traffic handler 4 connects；

When flow rate detection module 2 is started working, described flow velocity microprocessor 203 passes the signal along to valve 202, Valve 202 is opened, and detected gas enter body 1, while flow velocity microprocessor 203 notifies that timer 204 starts timing, when netted When sensor 205 detects detected gas, flow velocity microprocessor 203 is passed the signal along to, described microprocessor 203 leads to Know that timer 204 stops timing, and timing time is delivered to into flow velocity microprocessor 203, flow velocity microprocessor is according to time difference The flow velocity of greenhouse gas emission is calculated, and the flow velocity signal of gas is delivered to into traffic handler 4.

Concentration detection module 3 includes the first air collector 301, the first potassium hydroxide container 302 being sequentially connected）, the second hydrogen Potassium oxide container 303, the second air collector 304 and concentration control process device 305, described the first air collector 301, the second gas collection Tank 304 connects respectively with concentration control process device 305, and the inwall of described body 1 is provided with 1-10 gas collector point Do not connect with the first air collector 301；

Described concentration control process device 305 and traffic handler 4 connects；

Described concentration control process device 305 is according to the first air collector 301, the volume of the second air collector 304 and volume Difference is calculated and flows through the concentration of the percent of greenhouse gases of body 1, and concentration signal is delivered to into traffic handler 4.

The body 1 is prepared by copper fiber polycarbafil composite, and described composite includes Merlon 100 parts, 30 parts of copper fiber, 3 parts of coupling agent, 8 parts of inorganic nano material, antioxidant 1-5 parts, the length of the copper fiber between Between 3mm.

The KH570 that described coupling agent is.

Described inorganic nano material is barium sulfate.

Antioxidant is four (β-(3,5- three-level butyl -4- hydroxy phenyls) propanoic acid) pentaerythritol esters.

The preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 15 minutes, the inorganic nano that prepared coupling modifier is crossed Material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

Specific embodiment 4：As shown in Figure 1 and Figure 2, present embodiment discloses a kind of greenhouse gas emissions detection means, its It is characterised by, including body 1, flow rate detection module 2, concentration detection module 3, traffic handler 4, display 5；

Described flow rate detection module 2 and concentration detection module is all placed on body 1, the described He of flow rate detection module 2 Concentration detection module connects respectively with traffic handler 4, and described traffic handler 4 and display 5 connects；

Described concentration detection module 3 and flow rate detection module 2 are simultaneously by the greenhouse gas concentration data for detecting and stream To traffic handler 4, described traffic handler is processed the concentration data that receives and flow speed data fast data transfer, The flow of greenhouse gases is calculated, and result is delivered on display.

The gas access end of the body 1 is provided with the structure of recessed pipe 101, caves inward around described recessed pipe 101.

Screw thread 102 is respectively equipped with the two ends outer wall of described body 1, while equipped with nut, by screw thread 102 by temperature Room gas emissions detection means is assembled on outer wall exhaustor.

Described flow rate detection module 2 includes storage tank 201, valve 202, nozzle 206, and valve 202 is located at storage tank 201 and spray Between mouth 206, described valve 202 and flow velocity microprocessor 203 connects, and with flow velocity microprocessor 203 timer 204 is connected with With mesh sensor 205；

Described flow velocity microprocessor 203 and traffic handler 4 connects；

When flow rate detection module 2 is started working, described flow velocity microprocessor 203 passes the signal along to valve 202, Valve 202 is opened, and detected gas enter body 1, while flow velocity microprocessor 203 notifies that timer 204 starts timing, when netted When sensor 205 detects detected gas, flow velocity microprocessor 203 is passed the signal along to, described microprocessor 203 leads to Know that timer 204 stops timing, and timing time is delivered to into flow velocity microprocessor 203, flow velocity microprocessor is according to time difference The flow velocity of greenhouse gas emission is calculated, and the flow velocity signal of gas is delivered to into traffic handler 4.

Concentration detection module 3 includes the first air collector 301, the first potassium hydroxide container 302 being sequentially connected）, the second hydrogen Potassium oxide container 303, the second air collector 304 and concentration control process device 305, described the first air collector 301, the second gas collection Tank 304 connects respectively with concentration control process device 305, and the inwall of described body 1 is provided with 1-10 gas collector point Do not connect with the first air collector 301；

Described concentration control process device 305 and traffic handler 4 connects；

Described concentration control process device 305 is according to the first air collector 301, the volume of the second air collector 304 and volume Difference is calculated and flows through the concentration of the percent of greenhouse gases of body 1, and concentration signal is delivered to into traffic handler 4.

The body 1 is prepared by copper fiber polycarbafil composite, and described composite includes Merlon 100 parts, 20 parts of copper fiber, 5 parts of coupling agent, 5 parts of inorganic nano material, antioxidant 1-5 parts, the length of the copper fiber between Between 5mm.

The KH792 that described coupling agent is.

Described inorganic nano material is kieselguhr.

Antioxidant is 2,6- three-level butyl -4- methylphenols.

The preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 10 minutes, the inorganic nano that prepared coupling modifier is crossed Material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

Specific embodiment 5：As shown in Figure 1 and Figure 2, present embodiment discloses a kind of greenhouse gas emissions detection means, its It is characterised by, including body 1, flow rate detection module 2, concentration detection module 3, traffic handler 4, display 5；

Described flow rate detection module 2 and concentration detection module is all placed on body 1, the described He of flow rate detection module 2 Concentration detection module connects respectively with traffic handler 4, and described traffic handler 4 and display 5 connects；

Described concentration detection module 3 and flow rate detection module 2 are simultaneously by the greenhouse gas concentration data for detecting and stream To traffic handler 4, described traffic handler is processed the concentration data that receives and flow speed data fast data transfer, The flow of greenhouse gases is calculated, and result is delivered on display.

The gas access end of the body 1 is provided with the structure of recessed pipe 101, caves inward around described recessed pipe 101.

Screw thread 102 is respectively equipped with the two ends outer wall of described body 1, while equipped with nut, by screw thread 102 by temperature Room gas emissions detection means is assembled on outer wall exhaustor.

Described flow rate detection module 2 includes storage tank 201, valve 202, nozzle 206, and valve 202 is located at storage tank 201 and spray Between mouth 206, described valve 202 and flow velocity microprocessor 203 connects, and with flow velocity microprocessor 203 timer 204 is connected with With mesh sensor 205；

Described flow velocity microprocessor 203 and traffic handler 4 connects；

When flow rate detection module 2 is started working, described flow velocity microprocessor 203 passes the signal along to valve 202, Valve 202 is opened, and detected gas enter body 1, while flow velocity microprocessor 203 notifies that timer 204 starts timing, when netted When sensor 205 detects detected gas, flow velocity microprocessor 203 is passed the signal along to, described microprocessor 203 leads to Know that timer 204 stops timing, and timing time is delivered to into flow velocity microprocessor 203, flow velocity microprocessor is according to time difference The flow velocity of greenhouse gas emission is calculated, and the flow velocity signal of gas is delivered to into traffic handler 4.

Concentration detection module 3 includes the first air collector 301, the first potassium hydroxide container 302 being sequentially connected）, the second hydrogen Potassium oxide container 303, the second air collector 304 and concentration control process device 305, described the first air collector 301, the second gas collection Tank 304 connects respectively with concentration control process device 305, and the inwall of described body 1 is provided with 1-10 gas collector point Do not connect with the first air collector 301；

Described concentration control process device 305 and traffic handler 4 connects；

Described concentration control process device 305 is according to the first air collector 301, the volume of the second air collector 304 and volume Difference is calculated and flows through the concentration of the percent of greenhouse gases of body 1, and concentration signal is delivered to into traffic handler 4.

The body 1 is prepared by copper fiber polycarbafil composite, and described composite includes Merlon 100 parts, 50 parts of copper fiber, 1 part of coupling agent, 10 parts of inorganic nano material, antioxidant 1-5 parts, the length of the copper fiber is situated between Between 0.5mm.

The DL602 that described coupling agent is.

Described inorganic nano material is silicon dioxide.

Antioxidant is double（3,5- three-level butyl -4- hydroxy phenyls）Thioether.

The preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 20 minutes, the inorganic nano that prepared coupling modifier is crossed Material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

Specific embodiment 6：As shown in Figure 1 and Figure 2, present embodiment discloses a kind of greenhouse gas emissions detection means, its It is characterised by, including body 1, flow rate detection module 2, concentration detection module 3, traffic handler 4, display 5；

Described flow rate detection module 2 and concentration detection module is all placed on body 1, the described He of flow rate detection module 2 Concentration detection module connects respectively with traffic handler 4, and described traffic handler 4 and display 5 connects；

Described concentration detection module 3 and flow rate detection module 2 are simultaneously by the greenhouse gas concentration data for detecting and stream To traffic handler 4, described traffic handler is processed the concentration data that receives and flow speed data fast data transfer, The flow of greenhouse gases is calculated, and result is delivered on display.

The gas access end of the body 1 is provided with the structure of recessed pipe 101, caves inward around described recessed pipe 101.

Screw thread 102 is respectively equipped with the two ends outer wall of described body 1, while equipped with nut, by screw thread 102 by temperature Room gas emissions detection means is assembled on outer wall exhaustor.

Described flow rate detection module 2 includes storage tank 201, valve 202, nozzle 206, and valve 202 is located at storage tank 201 and spray Between mouth 206, described valve 202 and flow velocity microprocessor 203 connects, and with flow velocity microprocessor 203 timer 204 is connected with With mesh sensor 205；

Described flow velocity microprocessor 203 and traffic handler 4 connects；

When flow rate detection module 2 is started working, described flow velocity microprocessor 203 passes the signal along to valve 202, Valve 202 is opened, and detected gas enter body 1, while flow velocity microprocessor 203 notifies that timer 204 starts timing, when netted When sensor 205 detects detected gas, flow velocity microprocessor 203 is passed the signal along to, described microprocessor 203 leads to Know that timer 204 stops timing, and timing time is delivered to into flow velocity microprocessor 203, flow velocity microprocessor is according to time difference The flow velocity of greenhouse gas emission is calculated, and the flow velocity signal of gas is delivered to into traffic handler 4.

Concentration detection module 3 includes the first air collector 301, the first potassium hydroxide container 302 being sequentially connected）, the second hydrogen Potassium oxide container 303, the second air collector 304 and concentration control process device 305, described the first air collector 301, the second gas collection Tank 304 connects respectively with concentration control process device 305, and the inwall of described body 1 is provided with 1-10 gas collector point Do not connect with the first air collector 301；

Described concentration control process device 305 and traffic handler 4 connects；

Described concentration control process device 305 is according to the first air collector 301, the volume of the second air collector 304 and volume Difference is calculated and flows through the concentration of the percent of greenhouse gases of body 1, and concentration signal is delivered to into traffic handler 4.

The body 1 is prepared by copper fiber polycarbafil composite, and described composite includes Merlon 100 parts, 20 parts of copper fiber, 3 parts of coupling agent, 10 parts of inorganic nano material, 1 part of antioxidant, the length of the copper fiber between Between 3mm.

The DL171 that described coupling agent is.

Described inorganic nano material is fumed silica.

Antioxidant is four (β-(3,5- three-level butyl -4- hydroxy phenyls) propanoic acid) pentaerythritol esters.

The preparation method of described composite is as follows：

Step 1：The coupling modifier of inorganic nano material, inorganic nano material is added in coupling reaction tank, is opened Agitating device, stirring rotates inorganic nano material, and coupling agent is sprayed directly in inorganic nano material, controls agitating device Rotary speed so that the temperature of mixture reaches 120 degrees Celsius, reacts 10 minutes, the inorganic nano that prepared coupling modifier is crossed Material；

Step 2：The above-mentioned inorganic nano material being modified and copper fiber, Merlon, antioxidant are squeezed in twin screw Go out machine pelletize, composite is obtained.

Claims (5)

1. a kind of greenhouse gas emissions detection means, it is characterised in that including body（1）, flow rate detection module（2）, concentration Detection module（3）, traffic handler（4）, display（5）；

Described flow rate detection module（2）Body is all placed in concentration detection module（1）On, described flow rate detection module（2） With concentration detection module respectively and traffic handler（4）Connection, described traffic handler（4）And display（5）Connection；

Described concentration detection module（3）With flow rate detection module（2）Simultaneously by the greenhouse gas concentration data for detecting and stream Fast data transfer is to traffic handler（4）, described traffic handler to the concentration data that receives and flow speed data at Reason, calculates the flow of greenhouse gases, and result is delivered on display.

2. greenhouse gas emissions detection means according to claim 1, it is characterised in that the body（1）Gas Arrival end is provided with recessed pipe（101）Structure, described recessed pipe（101）Around cave inward.

3. greenhouse gas emissions detection means according to claim 1, it is characterised in that described body（1）Two Screw thread is respectively equipped with the outer wall of end（102）, while equipped with two nuts, by screw thread（102）Greenhouse gas emissions are examined Survey device to be assembled on outer wall exhaustor.

4. greenhouse gas emissions detection means according to claim 1, it is characterised in that described flow rate detection module （2）Including storage tank（201）, valve（202）, nozzle（206）, valve（202）Positioned at storage tank（201）And nozzle（206）Between, institute The valve stated（202）With flow velocity microprocessor（203）Connection, with flow velocity microprocessor（203）It is connected with timer（204）And net Shape sensor（205）；

Described flow velocity microprocessor（203）And traffic handler（4）Connection；

Flow rate detection module（2）When start-up operation, described flow velocity microprocessor（203）Pass the signal along to valve （202）, valve（202）Open, detected gas enter body（1）, while flow velocity microprocessor（203）Notify timer（204） Start timing, work as mesh sensor（205）When detecting detected gas, flow velocity microprocessor is passed the signal along to（203）, Described microprocessor（203）Notify timer（204）Stop timing, and timing time is delivered to into flow velocity microprocessor （203）, flow velocity microprocessor calculates the flow velocity of greenhouse gas emission according to time difference, and the flow velocity signal of gas is delivered to into stream Amount processor（4）.

5. greenhouse gas emissions detection means according to claim 1, it is characterised in that concentration detection module（3）Bag Include the first air collector being sequentially connected（301）, the first potassium hydroxide container（302）, the second potassium hydroxide container（303）, second Air collector（304）And concentration control process device（305）, described the first air collector（301）, the second air collector（304）Respectively With concentration control process device（305）Connection, described body（1）Inwall be provided with 1-10 gas collector respectively with One air collector（301）Connection；

Described concentration control process device（305）And traffic handler（4）Connection；

Described concentration control process device（305）According to the first air collector（301）, the second air collector（304）Volume and body Product moment is calculated and flows through the concentration of body (1) percent of greenhouse gases, and concentration signal is delivered to into traffic handler（4）.