CN116773752A - Carbon emission management system and detection platform - Google Patents

Abstract

The invention discloses a carbon emission management system and a detection platform, wherein the carbon emission management system comprises a gas acquisition unit, an analysis processing unit and an image drawing unit, the gas acquisition unit comprises a gas acquisition module, a gas detection module and a connection module, the gas acquisition module is used for acquiring burnt gas, then the gas detection module is used for detecting the acquired gas, and the detection result is transmitted through the connection module. When this scheme is implemented, can judge whether the raw materials burns fully through carbon content, burning temperature in the waste gas to and burning time, effectively avoided the condition emergence of the raw materials waste that leads to because of the raw materials burns inadequately. And in the process of implementing this scheme, when the raw materials is not fully burnt, can also take place the alarm, when the raw materials fully burns, the alarm stops to clear up the residue, thereby made things convenient for the user to master the combustion state of raw materials.

Description

Carbon emission management system and detection platform

Technical Field

The invention relates to the technical field of management systems, in particular to a carbon emission management system and a detection platform.

Background

In industrial production, carbon emission is always an important index of exhaust emission when exhaust gas is emitted, and particularly in some power plants, the carbon emission can be indirectly reflected, and whether coal is fully combusted in the thermal power generation process.

In the prior art, when exhaust gas is discharged, the exhaust gas is generally directly discharged into the atmosphere, or toxic and harmful substances in the exhaust gas are treated through a certain procedure and then discharged, whether combustion objects are combusted sufficiently or not is controlled through a combustion process, residues are removed after the combustion is performed for a certain time, and the phenomena of insufficient combustion and resource waste possibly occur.

Disclosure of Invention

Therefore, the present invention provides a carbon emission management system and a detection platform to solve the above problems in the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

according to a first aspect of the present invention, a carbon emission management system includes a gas collection unit, an analysis processing unit, an image drawing unit,

the gas collection unit comprises a gas collection module, a gas detection module and a connection module, wherein the gas collection module is used for collecting the burnt gas, then the gas collection module is used for detecting the collected gas, the detection result is transmitted through the connection module,

the analysis processing unit comprises a first receiving module, an analysis module and an output module, wherein the first receiving module is in communication connection with the connecting module, receives the detection result, transmits the detection result into the analysis module, quantitatively analyzes the detection result through the analysis module, outputs the analysis result through the output module,

the image drawing unit comprises a second receiving module, a model construction module, a drawing module and a display module, wherein the second receiving module receives analysis results, the model construction module constructs a quantitative analysis model, and the drawing module can draw the quantitative analysis results in the model and display the model through the display module.

Further comprises an information acquisition unit, wherein the information acquisition unit comprises a raw material information acquisition module, a combustion temperature acquisition module and a unit raw material combustion information acquisition module,

the raw material information acquisition module is used for acquiring the type information and the weight information of the raw materials,

the combustion temperature acquisition module is used for acquiring the temperature of the raw materials during combustion,

the unit raw material combustion information acquisition module is used for acquiring the combustion temperature and the carbon emission content of the raw materials under unit weight when the raw materials are burnt sufficiently.

Further, the model construction module can build a model according to time, combustion temperature and carbon emission content, and the drawing module can draw the analysis result of the analysis module in the model.

Further, the device also comprises a storage module, wherein the storage module can store the combustion information of the raw materials under the unit weight of different raw materials, and the device also comprises a calling module, and the calling module can call the combustion information of the raw materials which are the same as the raw materials which are being combusted and draw the combustion information in the model through a drawing module.

Further, the device further comprises a judging module, wherein after the combustion information of the raw materials under the unit weight is plotted in the model, the plotting module can also plot the combustion information of the raw materials which are being combusted in the model.

Further, when the raw materials are combusted, the method comprises the following steps,

s1, putting raw materials into a combustion chamber to burn the raw materials,

s2, detecting the weight of the raw materials, the temperature of the raw materials during combustion and the carbon emission,

and S3, acquiring a detection result and carrying out quantitative treatment on the detection result.

Further, in the model drawing, the method comprises the following steps,

step one, establishing a model, wherein parameters of the model comprise temperature, carbon emission and time when raw materials are combusted,

step two, the combustion information of the same raw material as the raw material being combusted is acquired and is drawn in a model,

converting the temperature and carbon emission amount of the raw materials in combustion into the numerical value of the raw materials in combustion per unit weight,

drawing the converted raw material combustion information in a model,

and fifthly, judging the combustion result by the judging module so as to judge whether the raw materials are fully combusted.

According to a second aspect of the present invention, a carbon emission detection platform includes a carbon emission management system for judging whether raw materials are sufficient and then, when the raw materials are not sufficiently combusted, the alarm system can continuously send out alarm information, and when the raw materials are sufficiently combusted, the alarm system can be turned off, and at this time, the control system can reject residues after the sufficient combustion.

The invention has the following advantages:

when the scheme is implemented, whether the raw materials burn fully or not can be judged by acquiring parameters such as carbon content, combustion temperature, combustion time and the like in the waste gas, so that the condition of raw material waste caused by insufficient raw material combustion is effectively avoided. And in the process of implementing this scheme, when the raw materials is not fully burnt, can also take place the alarm, when the raw materials fully burns, the alarm stops to clear up the residue, thereby made things convenient for the user to master the combustion state of raw materials.

Drawings

FIG. 1 is a block diagram of a carbon emissions management system according to some embodiments of the present invention.

Fig. 2 is a system diagram of a carbon emission detection platform according to some embodiments of the present invention.

Detailed Description

Other advantages and advantages of the present invention will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1, a carbon emission management system according to an embodiment of the first aspect of the present invention includes a gas collection unit, an analysis processing unit, an image drawing unit,

the gas collection unit comprises a gas collection module, a gas detection module and a connection module, wherein the gas collection module is used for collecting the burnt gas, then the gas collection module is used for detecting the collected gas, the detection result is transmitted through the connection module,

the gas collecting unit collects and analyzes the gas generated when the raw materials are combusted so as to detect the carbon content in the gas, thereby providing a basis for whether the raw materials are fully combusted or not,

the analysis processing unit comprises a first receiving module, an analysis module and an output module, wherein the first receiving module is in communication connection with the connecting module, receives the detection result, transmits the detection result into the analysis module, quantitatively analyzes the detection result through the analysis module, outputs the analysis result through the output module,

the analysis processing unit can quantitatively analyze the collected gas detection data, further facilitates the subsequent data support for the full combustion of the raw materials,

the image drawing unit comprises a second receiving module, a model construction module, a drawing module and a display module, wherein the second receiving module receives analysis results, the model construction module constructs a quantitative analysis model, and the drawing module can draw the quantitative analysis results in the model and display the model through the display module.

The combustion data of the raw materials are displayed in the form of images and models, so that a user can more intuitively check the combustion data of the materials, and the user can judge the combustion data conveniently.

Comprises an information acquisition unit, wherein the information acquisition unit comprises a raw material information acquisition module, a combustion temperature acquisition module and a unit raw material combustion information acquisition module,

the raw material information acquisition module is used for acquiring the type information and the weight information of the raw materials,

the combustion temperature acquisition module is used for acquiring the temperature of the raw materials during combustion,

the unit raw material combustion information acquisition module is used for acquiring the combustion temperature and the carbon emission content of the raw materials under unit weight when the raw materials are burnt sufficiently.

The model construction module can build a model according to time, combustion temperature and carbon emission content, and the drawing module can draw the analysis result of the analysis module in the model.

The device also comprises a storage module, wherein the storage module can store the combustion information of the raw materials under the unit weight of different raw materials, and the device also comprises a calling module, and the calling module can call the combustion information of the raw materials which are the same as the raw materials which are being combusted and draw the combustion information in the model through a drawing module.

The device also comprises a judging module, wherein after the combustion information of the raw materials under the unit weight is drawn in the model, the drawing module can also draw the combustion information of the raw materials which are being combusted in the model.

In order to judge whether the raw materials are fully combusted, the following technical proposal is provided,

when the raw materials are combusted, the method comprises the following steps,

s1, putting raw materials into a combustion chamber to burn the raw materials,

s2, detecting the weight of the raw materials, the temperature of the raw materials during combustion and the carbon emission,

and S3, acquiring a detection result and carrying out quantitative treatment on the detection result.

At the time of model drawing, the method comprises the following steps,

step one, establishing a model, wherein parameters of the model comprise temperature, carbon emission and time when raw materials are combusted,

step two, the combustion information of the same raw material as the raw material being combusted is acquired and is drawn in a model,

converting the temperature and carbon emission amount of the raw materials in combustion into the values of the raw materials in combustion per unit weight, namely obtaining carbon generated in combustion of the raw materials per unit and temperature change in actual combustion, comparing the carbon generated in combustion of the raw materials per unit and the temperature with the carbon generated in combustion of the raw materials per unit, so as to more accurately judge whether the raw materials are fully combusted,

drawing the converted raw material combustion information in a model,

and fifthly, judging the combustion result by the judging module so as to judge whether the raw materials are fully combusted.

As shown in fig. 2, a carbon emission detection platform, the platform includes a carbon emission management system, an alarm system and a control system, wherein the carbon emission management system is used for judging whether raw materials are sufficient, and when the raw materials are not fully combusted, the alarm system can continuously send alarm information, and when the raw materials are fully combusted, the alarm system can be closed, and at the moment, the control system can reject residues after the full combustion.

Claims (8)

1. A carbon emission management system is characterized by comprising a gas acquisition unit, an analysis processing unit and an image drawing unit,

the gas collection unit comprises a gas collection module, a gas detection module and a connection module, wherein the gas collection module is used for collecting the burnt gas, then the gas collection module is used for detecting the collected gas, the detection result is transmitted through the connection module,

the analysis processing unit comprises a first receiving module, an analysis module and an output module, wherein the first receiving module is in communication connection with the connecting module and is used for receiving the detection result, the detection result is transmitted into the analysis module, the analysis module is used for quantitatively analyzing the detection result, the output module is used for outputting the analysis result,

the image drawing unit comprises a second receiving module, a model construction module, a drawing module and a display module, wherein the second receiving module receives analysis results, the model construction module constructs a quantitative analysis model, and the drawing module can draw the quantitative analysis results in the model and display the model through the display module.

2. The system of claim 1, wherein the system comprises an information acquisition unit, the information acquisition unit comprises a raw material information acquisition module, a combustion temperature acquisition module and a unit raw material combustion information acquisition module,

the raw material information acquisition module is used for acquiring the type information and the weight information of the raw materials,

the combustion temperature acquisition module is used for acquiring the temperature of the raw materials during combustion,

the unit raw material combustion information acquisition module is used for acquiring the combustion temperature and the carbon emission content of the raw materials under unit weight when the raw materials are burnt sufficiently.

3. The carbon emissions management system of claim 2, wherein the model building module is configured to build a model based on time, combustion temperature, and carbon emissions content, and the plotting module is configured to plot the analysis results of the analysis module in the model.

4. A carbon emissions management system according to claim 3, further comprising a storage module capable of storing combustion information of different raw materials per unit weight, and a calling module capable of calling the combustion information of the same raw materials as being combusted and drawing it in the model by the drawing module.

5. The carbon emissions management system of claim 4, further comprising a determination module, wherein the plotting module is further configured to plot combustion information of the raw material being combusted in the model after plotting the combustion information of the raw material per unit weight in the model.

6. A carbon emission management system as defined in claim 5, wherein upon combustion of the feedstock, comprising the steps of,

s1, putting raw materials into a combustion chamber to burn the raw materials,

s2, detecting the weight of the raw materials, the temperature of the raw materials during combustion and the carbon emission,

and S3, acquiring a detection result and carrying out quantitative treatment on the detection result.

7. A carbon emission management system as defined in claim 6, wherein, in the modeling, the method comprises the steps of,

step one, establishing a model, wherein parameters of the model comprise temperature, carbon emission and time when raw materials are combusted to establish the model,

step two, the combustion information of the same raw material as the raw material being combusted is acquired and is drawn in a model,

converting the temperature and carbon emission amount of the raw materials in combustion into the numerical value of the raw materials in combustion per unit weight,

drawing the converted raw material combustion information in a model,

and fifthly, judging the combustion result by the judging module so as to judge whether the raw materials are fully combusted.

8. The utility model provides a carbon emission testing platform, its characterized in that, the platform includes carbon emission management system, alarm system and control system, and carbon emission management system is used for judging whether the raw materials is abundant then, and when the raw materials is insufficient burning, alarm system can continuously send alarm information, and when the raw materials is abundant after burning, alarm system can close, and control system can reject the residue after the abundant burning this moment.