CN111929413A - Exhaust gas collection monitoring method and exhaust gas collection monitoring system - Google Patents
Exhaust gas collection monitoring method and exhaust gas collection monitoring system Download PDFInfo
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Abstract
The invention relates to a waste gas collecting and monitoring method, which comprises the following steps: the method comprises the steps that an exhaust gas monitoring unit obtains first exhaust gas data and second exhaust gas data, and calculates the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data; the data transmission module sends the waste gas treatment data to a server; the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to a terminal; according to the waste gas collecting and monitoring method, the user can directly obtain the waste gas treatment information on the terminal, so that a basis is provided for supervision and judgment of waste gas collection. The invention also relates to a waste gas collecting and monitoring system which comprises a waste gas monitoring unit, a data transmission module, a server and a terminal and is suitable for the waste gas collecting and monitoring method.
Description
Technical Field
The invention relates to the technical field of waste gas treatment, in particular to a waste gas collecting and monitoring method and a waste gas collecting and monitoring system.
Background
Since the reform is open, the industrialization process of China is very fast, and the extensive development causes environmental pollution. With the increasing demand of people for good life, China has developed a series of laws, regulations and standards in the aspect of ecological environment protection, pollution treatment facilities in various industries are from scratch, qualitative leap is realized, and further deterioration of ecological environment problems is effectively controlled. If the environmental protection industry for the last 30 years is called the "from none to nothing" pre environmental protection era, the environmental protection industry for the next 30 years is the "from existence to excellent" post environmental protection era. In order to realize a secondary leap from existence to excellence in the ecological environment protection industry of China, research, innovation and breakthrough must be carried out on the aspects of original and auxiliary material replacement efficiency, pollutant source collection efficiency, tail-end pollution control efficiency and the like, and the sustainable development of ' Qingshan green water, namely ' Jinshan Yinshan ' is really realized.
At the present stage, in the aspect of air pollution prevention and control, China faces double pressure that the situation of fine particulate matter (PM2.5) pollution is still severe and ozone (O3) pollution is increasingly prominent. Although all industries basically realize the transformation and upgrading of organized emission from unorganized emission and install waste gas treatment facilities, the waste gas collection efficiency is uneven, an effective evaluation means for the waste gas collection efficiency is lacked, the actual evaluation is very difficult, and the further promotion of air pollution prevention and control is not facilitated.
Therefore, in order to solve the problem that the exhaust gas collection efficiency cannot be effectively evaluated, it is necessary to provide an exhaust gas collection monitoring method and an exhaust gas collection monitoring system for solving the problem that the exhaust gas collection is difficult to monitor and judge.
Disclosure of Invention
In order to solve the above problems, the present invention provides a method for collecting and monitoring exhaust gas, which adopts the following technical scheme:
an exhaust gas collection monitoring method comprising the steps of:
the method comprises the steps that an exhaust gas monitoring unit obtains first exhaust gas data and second exhaust gas data, and calculates the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data, wherein the first exhaust gas data and the second exhaust gas data are obtained from different positions near an exhaust gas source;
the data transmission module sends the waste gas treatment data to a server;
the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to a terminal;
the terminal receives and outputs the exhaust treatment data.
In one embodiment, the first exhaust data is obtained from within an exhaust collection port and the second exhaust data is obtained from an exhaust sensitive diffusion point.
In one embodiment, the first exhaust data includes at least two of exhaust gas concentration and exhaust gas flow rate data, and the second exhaust data includes at least exhaust gas concentration data.
In one embodiment, the exhaust treatment data includes at least exhaust collection efficiency data.
According to the waste gas collecting and monitoring method, the waste gas monitoring unit obtains the first waste gas data and the second waste gas data, the waste gas processing data are obtained through calculation, the data transmission module sends the waste gas processing data to the server, the server sends the waste gas processing data to the terminal, and through the output of the terminal, a user can directly obtain the waste gas processing information on the terminal, so that a basis is provided for supervision and judgment of waste gas collection.
In addition, the invention also provides a waste gas collecting and monitoring system, which adopts the technical scheme that:
an exhaust collection monitoring system comprising: the system comprises an exhaust gas monitoring unit, a data transmission module, a server and a terminal;
the exhaust gas monitoring unit comprises a first sensor, a second sensor and a processor, wherein the first sensor is used for acquiring first exhaust gas data, the second sensor is used for acquiring second exhaust gas data, the processor can calculate the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data, the processor is electrically connected with the first sensor and the second sensor, the processor can send the exhaust gas treatment data to the data transmission module, and the first exhaust gas data and the second exhaust gas data are acquired from different positions near an exhaust gas source;
the data transmission module is electrically connected with the waste gas monitoring unit and can send the waste gas treatment data to the server;
the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to the terminal;
the terminal is used for receiving and outputting the waste gas treatment data.
In one embodiment, the first exhaust data is obtained from within an exhaust collection port and the second exhaust data is obtained from an exhaust sensitive diffusion point.
In one embodiment, the first exhaust data includes at least two of exhaust gas concentration and exhaust gas flow rate data, and the second exhaust data includes at least exhaust gas concentration data.
In one embodiment, the exhaust treatment data includes at least exhaust collection efficiency data.
In one embodiment, the processor may transmit data to the data transmission module at predetermined intervals.
In one embodiment, the terminal is selected from any one of a computer, a mobile phone and a bracelet.
Above-mentioned monitoring system is collected to waste gas, including the waste gas monitoring unit, data transmission module, server and terminal, the waste gas monitoring unit can be used to acquire first waste gas data and second waste gas data, and calculate the exhaust-gas treatment data, data transmission module can send the exhaust-gas treatment data for the server, the server receives the exhaust-gas treatment data, after the analysis send the exhaust-gas treatment data for the terminal, the user can directly obtain the exhaust-gas treatment information on the terminal, thereby provide the basis for supervision and the judgement that waste gas was collected.
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FIG. 1 is a flow diagram of an exhaust collection monitoring method according to one embodiment;
FIG. 2 is a schematic diagram of an embodiment of an operating logic of an exhaust collection monitoring system.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention can be embodied in many different forms than those herein described and many modifications may be made by one skilled in the art without departing from the spirit and scope of the invention.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" or "in communication with" another element, it can be directly connected to the other element or intervening elements may also be present. The terms "upper", "lower", "vertical", "horizontal", "left", "right" and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.
Referring to fig. 1, an embodiment of an exhaust collection monitoring method includes the following steps:
step S10: the exhaust gas monitoring unit acquires first exhaust gas data and second exhaust gas data, and calculates the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data.
Specifically, the exhaust gas monitoring unit obtains exhaust gas treatment data by acquiring two data of first exhaust gas data and second exhaust gas data at different positions near the exhaust gas source and calculating and processing the first exhaust gas data and the second exhaust gas data.
Furthermore, first waste gas data is obtained by the acquisition of exhaust gas monitoring unit in the waste gas collection mouth, and second waste gas data is obtained by the acquisition of exhaust gas monitoring unit at the sensitive diffusion point of waste gas, obtains the position through selecting above-mentioned waste gas data, makes the first waste gas data and the second waste data that obtain have higher accuracy to satisfy operation requirement.
Further, the first exhaust data includes at least an exhaust concentration C1And the exhaust gas flow velocity V1The two data sets are used for the data,the second exhaust data includes at least an exhaust gas concentration C2One data, by acquiring the data, can satisfy the parameter requirements for calculating the exhaust gas collection efficiency.
The processor of the exhaust gas monitoring unit processes the data, on the one hand, by obtaining the exhaust gas concentration C1And the exhaust gas flow velocity V1Two data, calculating by formula to obtain total mass M of exhaust gas collected in unit timeTC. Calculating the total mass M of the exhaust gas collected in unit timeTCIs of the formulaWhereinTo utilize multiple groups C1Average exhaust gas concentration per unit time, V, obtained by averaging data1To utilize multiple groups of V1The average exhaust gas flow rate per unit time obtained by averaging the data, S being the cross-sectional area of the exhaust gas collection port, was obtained by measurement. On the other hand, the concentration C of the exhaust gas for obtaining the sensitive diffusion point is utilized2Through a plurality of groups of exhaust gas concentrations C2Data calculation difference value determination of exhaust gas concentration change value delta C in unit time2Determining the exhaust gas concentration variation value deltaC per unit time2Then, the total amount M of the exhaust gas diffusion in unit time is calculated by using a formulaTD. According to the change value Delta C of the exhaust gas concentration in unit time2Calculating the total amount M of exhaust gas diffusion per unit timeTDThe calculation formula of (2) is as follows: mTD=ΔC2*V, wherein V is the equivalent volume of the exhaust gas diffusion in unit time, and the total amount M of the exhaust gas diffusion in unit time can be obtained through the formulaTD. Collecting the total mass M from the exhaust gasTCAnd total mass M of exhaust gas diffusionTDCalculating to obtain the waste gas collection efficiency eta, wherein the calculation formula is as follows:
Step S20: the data transmission module sends the exhaust treatment data to the server.
Specifically, the data transmission module sends the exhaust gas treatment data obtained by calculating the exhaust gas monitoring unit according to the first exhaust gas data and the second exhaust gas data to the server in a wired or wireless communication mode, so that data transmission is realized.
Step S30: the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to the terminal.
Specifically, the server receives the exhaust gas treatment data sent by the data transmission module in a wired or wireless communication mode, analyzes and stores the exhaust gas treatment data after receiving the exhaust gas treatment data, and then sends the analyzed exhaust gas treatment data to the terminal in a wired or wireless communication mode.
Step S40: the terminal receives and outputs exhaust treatment data.
And after receiving the waste gas treatment data transmitted by the server in a wired or wireless communication mode, the terminal analyzes the waste gas treatment data and finally outputs the waste gas treatment data.
Further, the manner of outputting the exhaust treatment data includes, but is not limited to: and image-text display output and voice output.
According to the waste gas collecting and monitoring method, the waste gas monitoring unit obtains the first waste gas data and the second waste gas data, the waste gas treatment data are obtained through calculation, the data transmission module sends the waste gas treatment data to the server, the server sends the waste gas treatment data to the terminal, and through the output of the terminal, a user can directly obtain the waste gas treatment information on the terminal, so that a basis is provided for gas collection and supervision and judgment difficulty.
Referring to fig. 2, an embodiment of an exhaust collection monitoring system includes: waste gas monitoring unit, data transmission module, server and terminal.
Specifically, the exhaust gas monitoring unit includes first sensor, second exhaust gas sensor and treater, and the treater is connected with first sensor and second sensor electricity simultaneously, and first sensor is used for acquireing first exhaust gas data, and the second sensor is used for acquireing second exhaust gas data, and first exhaust gas data and second exhaust gas data are acquireed from the near different positions of exhaust gas source, and the treater can be calculated first exhaust gas data and second exhaust gas data to obtain the exhaust-gas treatment data.
Further, a first sensor is used for detecting first exhaust data in the exhaust gas collection port, and a second sensor is used for collecting second exhaust data of the exhaust gas sensitive diffusion point.
Further, the first exhaust data includes at least an exhaust concentration C1And the exhaust gas flow velocity V1Two data, the second exhaust gas data including at least exhaust gas concentration C2One data.
The processor performs calculation processing on the data, on one hand, the obtained exhaust gas concentration C1And the exhaust gas flow velocity V1Two data, calculating by formula to obtain total mass M of exhaust gas collected in unit timeTC. Calculating the total mass M of the exhaust gas collected in unit timeTCIs of the formulaWhereinTo utilize multiple groups C1Average exhaust gas concentration per unit time, V, obtained by averaging data1To utilize multiple groups of V1The average exhaust gas flow rate per unit time obtained by averaging the data, S being the cross-sectional area of the exhaust gas collection port, was obtained by measurement. On the other hand, the concentration C of the exhaust gas for obtaining the sensitive diffusion point is utilized2Through a plurality of groups of exhaust gas concentrations C2Data calculation difference value determination of exhaust gas concentration change value delta C in unit time2Determining the exhaust gas concentration variation value deltaC per unit time2Then, the total amount M of the exhaust gas diffusion in unit time is calculated by using a formulaTD. According to the change value Delta C of the exhaust gas concentration in unit time2Calculating the total amount M of exhaust gas diffusion per unit timeTDThe calculation formula of (2) is as follows: mTD=ΔC2*V, wherein V is the equivalent volume of the exhaust gas diffusion in unit time, and the total amount M of the exhaust gas diffusion in unit time can be obtained through the formulaTD. Collecting the total mass M from the exhaust gasTCAnd total mass M of exhaust gas diffusionTDCalculating to obtain the waste gas collection efficiency eta, wherein the calculation formula is as follows:
the waste gas collection efficiency eta is obtained through calculation of the formula, and meanwhile, the processor sends the waste gas collection efficiency eta to the data transmission module.
In some embodiments, the processor may send data to the data transmission module for a predetermined interval, and the user may determine the update frequency of the data by setting the interval.
In some embodiments, there may be multiple exhaust gas monitoring units that may simultaneously monitor exhaust treatment data from different sources of exhaust gas.
And the data transmission module can transmit the waste gas treatment data treated by the processor to the server.
Specifically, the data transmission module can send the exhaust gas treatment data obtained through calculation of the processor to the server in a wired or wireless communication mode, so that data transmission between the exhaust gas monitoring unit and the server is achieved.
And the server can receive the waste gas treatment data sent by the data transmission module and send the waste gas treatment data to the terminal.
Specifically, the server can receive the waste gas treatment data sent by the data transmission module in a wired or wireless communication mode, analyze and store the waste gas treatment data after receiving the waste gas treatment data, and then send the analyzed waste gas treatment data to the terminal in an internet or wireless communication mode.
And the terminal can receive the waste gas treatment data sent by the server and output the waste gas treatment data.
Specifically, the terminal can receive the exhaust-gas treatment data sent by the server in a wired or wireless communication mode, analyze the data after receiving the exhaust-gas treatment data, and finally output the exhaust-gas treatment data through the output module. The optional terminal comprises: any one of a computer, a mobile phone and a bracelet.
Further, exhaust treatment data output means include, but are not limited to: and image-text display output and voice output.
Above-mentioned monitoring system is collected to waste gas, including the waste gas monitoring unit, data transmission module, server and terminal, the waste gas monitoring unit can be used to acquire first waste gas data and second waste gas data, and calculate the exhaust-gas treatment data, data transmission module can send the exhaust-gas treatment data for the server, the server receives the exhaust-gas treatment data, after the analysis send the exhaust-gas treatment data for the terminal, the user can directly obtain the exhaust-gas treatment information on the terminal, thereby provide the basis for supervision and the judgement that waste gas was collected.
Specific examples are as follows.
Example 1
The embodiment provides a waste gas collecting and monitoring method, which comprises the following steps:
(1) the exhaust gas monitoring unit acquires first exhaust gas data and second exhaust gas data, and calculates the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data;
(2) the data transmission module sends the waste gas treatment data to a server;
(3) the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to the terminal;
(4) the terminal receives and outputs exhaust treatment data.
According to the waste gas collecting and monitoring method, the waste gas monitoring unit obtains the first waste gas data and the second waste gas data, the waste gas processing data are obtained through calculation, the data transmission module sends the waste gas processing data to the server, the server sends the waste gas processing data to the terminal, and through the output of the terminal, a user can directly obtain the waste gas processing information on the terminal, so that a basis is provided for supervision and judgment of waste gas collection.
The embodiment also provides an exhaust gas collecting and monitoring system, which comprises an exhaust gas monitoring unit, a data transmission module, a server and a terminal, wherein the exhaust gas monitoring unit can acquire first exhaust gas data and second exhaust gas data at different positions near an exhaust gas source, and can calculate the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data; the data transmission module is electrically connected with the waste gas monitoring unit and can transmit the waste gas treatment data calculated by the waste gas monitoring unit to the server in an internet mode; the server is connected with the data transmission module in an internet mode, can receive the waste gas treatment data sent by the data transmission module, analyzes and stores the data, and then sends the analyzed waste gas treatment data to the terminal in the internet mode; the terminal is connected with the server in an internet mode, and can output the waste gas treatment data after receiving the waste gas treatment data.
Above-mentioned monitoring system is collected to waste gas, including the waste gas monitoring unit, data transmission module, server and terminal, the waste gas monitoring unit can be used to acquire first waste gas data and second waste gas data, and calculate the exhaust-gas treatment data, data transmission module can send the exhaust-gas treatment data for the server, the server receives the exhaust-gas treatment data, after the analysis send the exhaust-gas treatment data for the terminal, the user can directly obtain the exhaust-gas treatment information on the terminal, thereby provide the basis for supervision and the judgement that waste gas was collected.
Example 2
Referring to fig. 1, the method for collecting and monitoring exhaust gas includes the following steps:
(1) the exhaust gas monitoring unit acquires first exhaust gas data and second exhaust gas data, calculates the first exhaust gas data and the second exhaust gas data, and obtains exhaust treatment data, wherein the first exhaust gas data are acquired from the exhaust gas collecting port, and the second exhaust gas data are acquired from the exhaust gas sensitive diffusion point.
(2) The data transmission module sends the waste gas treatment data to a server;
(3) the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to the terminal.
(4) The terminal receives and outputs exhaust treatment data.
According to the waste gas collecting and monitoring method, the waste gas monitoring unit obtains the first waste gas data and the second waste gas data, the waste gas treatment data are obtained through calculation, the data transmission module sends the waste gas treatment data to the server, the server sends the waste gas treatment data to the terminal, and through the output of the terminal, a user can directly obtain the waste gas treatment information on the terminal, so that a basis is provided for gas collection and supervision and judgment difficulty. In addition, in the embodiment, the first exhaust gas data is obtained from the exhaust gas collecting port, and the second exhaust gas data is obtained from the exhaust gas sensitive diffusion point, so that the accuracy of the exhaust gas treatment data is higher.
The embodiment also provides an exhaust gas collection and monitoring system, please refer to fig. 2, which includes an exhaust gas monitoring unit, a data transmission module, a server and a terminal, wherein the exhaust gas monitoring unit includes a first sensor, a second sensor and a processor, the first sensor can acquire first exhaust gas data in an exhaust gas collection port, the second sensor can collect second exhaust gas data of an exhaust gas sensitive diffusion point, and the processor can calculate the first exhaust gas data and the second exhaust gas data to obtain exhaust gas processing data; the data transmission module is electrically connected with the waste gas monitoring unit and can transmit the waste gas treatment data calculated by the waste gas monitoring unit to the server in a wireless communication mode; the server is connected with the data transmission module in an internet mode, can receive the waste gas treatment data sent by the data transmission module, analyzes and stores the data, and then sends the analyzed waste gas treatment data to the terminal in a wireless communication mode; the terminal is connected with the server in a wireless communication mode, and can output the waste gas treatment data after receiving the waste gas treatment data.
Above-mentioned monitoring system is collected to waste gas, including the waste gas monitoring unit, data transmission module, server and terminal, the waste gas monitoring unit can be used to acquire first waste gas data and second waste gas data, and calculate the exhaust-gas treatment data, data transmission module can send the exhaust-gas treatment data for the server, the server receives the exhaust-gas treatment data, after the analysis send the exhaust-gas treatment data for the terminal, the user can directly obtain the exhaust-gas treatment information on the terminal, thereby provide the basis for supervision and the judgement that waste gas was collected. In addition, in this embodiment, the exhaust gas monitoring unit includes first sensor, second sensor and treater, and wherein, first sensor can acquire the intraoral first exhaust gas data of exhaust gas collection, and the second sensor can collect the second exhaust gas data of the sensitive diffusion point of exhaust gas for the accuracy of exhaust gas treatment data is higher.
Example 3
Referring to fig. 1, the method for collecting and monitoring exhaust gas includes the following steps:
(1) the exhaust gas monitoring unit acquires first exhaust gas data and second exhaust gas data, and calculates first exhaust gas data and second exhaust gas data, obtains exhaust-gas treatment data, wherein, first exhaust gas data acquire from the waste gas collect intraorally, and first exhaust gas data include two data of exhaust gas concentration and exhaust gas velocity at least, and second exhaust gas data acquire from the sensitive diffusion point of waste gas, and second exhaust gas data include exhaust gas concentration data at least.
(2) The data transmission module sends the waste gas treatment data to a server;
(3) the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to the terminal.
(4) The terminal receives and outputs exhaust treatment data.
According to the waste gas collecting and monitoring method, the waste gas monitoring unit obtains the first waste gas data and the second waste gas data, the waste gas treatment data are obtained through calculation, the data transmission module sends the waste gas treatment data to the server, the server sends the waste gas treatment data to the terminal, and through the output of the terminal, a user can directly obtain the waste gas treatment information on the terminal, so that a basis is provided for gas collection and supervision and judgment difficulty. In addition, in this embodiment, the first exhaust data at least includes two data of exhaust gas concentration and exhaust gas flow rate, the second exhaust data at least includes exhaust gas concentration data, and the processor may obtain the exhaust gas collection efficiency data through calculation, so as to facilitate the user to evaluate the exhaust gas collection efficiency.
The embodiment also provides an exhaust gas collection and monitoring system, please refer to fig. 2, which includes an exhaust gas monitoring unit, a data transmission module, a server and a terminal, wherein the exhaust gas monitoring unit includes a first sensor, a second sensor and a processor, wherein the first sensor can acquire first exhaust gas data in an exhaust gas collection port, the first exhaust gas data at least includes two data of exhaust gas concentration and exhaust gas flow rate, the second sensor can collect second exhaust gas data of an exhaust gas sensitive diffusion point, the second exhaust gas data at least includes exhaust gas concentration data, and the processor can calculate the first exhaust gas data and the second exhaust gas data to obtain exhaust gas processing data; the data transmission module is electrically connected with the waste gas monitoring unit and can transmit the waste gas treatment data calculated by the waste gas monitoring unit to the server in an internet mode; the server is connected with the data transmission module in an internet mode, can receive the waste gas treatment data sent by the data transmission module, analyzes and stores the data, and then sends the analyzed waste gas treatment data to the terminal in the internet mode; the terminal passes through the internet mode with the server and is connected, and it receives exhaust-gas treatment data after, can be with this exhaust-gas treatment data output, in this embodiment, the terminal is the bracelet, and the output mode is the voice broadcast output.
Above-mentioned monitoring system is collected to waste gas, including the waste gas monitoring unit, data transmission module, server and terminal, the waste gas monitoring unit can be used to acquire first waste gas data and second waste gas data, and calculate the exhaust-gas treatment data, data transmission module can send the exhaust-gas treatment data for the server, the server receives the exhaust-gas treatment data, after the analysis send the exhaust-gas treatment data for the terminal, the user can directly obtain the exhaust-gas treatment information on the terminal, thereby provide the basis for supervision and the judgement that waste gas was collected. In addition, in this embodiment, the first exhaust data at least includes two data of exhaust gas concentration and exhaust gas flow rate, the second exhaust data at least includes exhaust gas concentration data, and the processor may obtain the exhaust gas collection efficiency data through calculation, so as to facilitate the user to evaluate the exhaust gas collection efficiency.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (10)
1. An exhaust gas collection monitoring method, comprising the steps of:
the method comprises the steps that an exhaust gas monitoring unit obtains first exhaust gas data and second exhaust gas data, and calculates the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data, wherein the first exhaust gas data and the second exhaust gas data are obtained from different positions near an exhaust gas source;
the data transmission module sends the waste gas treatment data to a server;
the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to a terminal;
the terminal receives and outputs the exhaust treatment data.
2. The exhaust collection monitoring method of claim 1, wherein the first exhaust data is obtained from within an exhaust collection port and the second exhaust data is obtained from an exhaust sensitive diffusion point.
3. The exhaust collection monitoring method of claim 2, wherein the first exhaust data includes at least two of exhaust concentration and exhaust flow rate data, and the second exhaust data includes at least exhaust concentration data.
4. The exhaust collection monitoring method of claim 3, wherein the exhaust treatment data includes at least exhaust collection efficiency data.
5. The waste gas collecting and monitoring system is characterized by comprising a waste gas monitoring unit, a data transmission module, a server and a terminal;
the exhaust gas monitoring unit comprises a first sensor, a second sensor and a processor, wherein the first sensor is used for acquiring first exhaust gas data, the second sensor is used for acquiring second exhaust gas data, the processor can calculate the first exhaust gas data and the second exhaust gas data to obtain exhaust gas treatment data, the processor is electrically connected with the first sensor and the second sensor, the processor can send the exhaust gas treatment data to the data transmission module, and the first exhaust gas data and the second exhaust gas data are acquired from different positions near an exhaust gas source;
the data transmission module is electrically connected with the waste gas monitoring unit and can send the waste gas treatment data to the server;
the server receives the waste gas treatment data, analyzes and stores the waste gas treatment data, and sends the waste gas treatment data to the terminal;
the terminal is used for receiving and outputting the waste gas treatment data.
6. The exhaust collection monitoring system of claim 5, wherein the first exhaust data is obtained from within an exhaust collection port and the second exhaust data is obtained from an exhaust sensitive diffusion point.
7. The exhaust collection monitoring system of claim 6, wherein the first exhaust data includes at least two of exhaust concentration and exhaust flow rate data, and the second exhaust data includes at least exhaust concentration data.
8. The exhaust collection monitoring system of claim 7, wherein the exhaust treatment data includes at least exhaust collection efficiency data.
9. The exhaust collection monitoring system of claim 8, wherein the processor is configured to send data to the data transmission module at predetermined intervals.
10. The exhaust gas collection monitoring system according to any one of claims 5 to 9, wherein the terminal is selected from any one of a computer, a mobile phone and a bracelet.
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CN202010810783.5A CN111929413A (en) | 2020-08-13 | 2020-08-13 | Exhaust gas collection monitoring method and exhaust gas collection monitoring system |
CN202023259242.2U CN215525671U (en) | 2020-08-13 | 2020-12-29 | Exhaust gas collection monitoring system and exhaust gas collection monitoring unit |
CN202011600228.6A CN112782361A (en) | 2020-08-13 | 2020-12-29 | Exhaust gas collection monitoring system, monitoring method and related device |
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