CN110632260A - Atmospheric monitoring and governing method, environmental monitoring method and platform - Google Patents

Abstract

The invention discloses an atmospheric monitoring and governing method, an environmental monitoring method and a platform, which relate to environmental monitoring and comprise the steps of continuously acquiring monitoring item data of each gas in the air; comparing whether the real-time gas monitoring item data is larger than a discharge threshold value, comparing whether the gas accumulated discharge amount in a first preset time period is larger than an accumulated threshold value, and comparing whether the gas accumulated residual amount in a second preset time period is larger than a residual threshold value; and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation. The gas emission is respectively monitored and correspondingly processed from three angles of real-time values, accumulated values and residual values of all gas monitoring items aiming at different monitoring conditions, monitoring data are fully utilized, pertinence is high, processing is appropriate, and the monitoring effect is good.

Description

Atmospheric monitoring and governing method, environmental monitoring method and platform

Technical Field

The invention relates to environmental monitoring, in particular to an atmospheric monitoring and governing method, an environmental monitoring method and a platform.

Background

An environment monitoring management system, also called environment monitoring information management system (EMIS), is an information system that takes computer technology and database technology as core and manages a large amount of environment monitoring information and data storage. The environmental monitoring management system can be used for enhancing the processing of environmental pollution monitoring data and can quickly and effectively monitor the environment accurately.

At present, chinese patent with publication number CN104950708B discloses an aerial environment monitoring terminal and an environment emergency monitoring deployment system, the aerial environment monitoring terminal includes: an unmanned aerial vehicle; a pod mounted on the unmanned aerial vehicle; the nacelle comprises a nacelle body and a cover plate covering the nacelle body; an air inlet and an air outlet arranged on the cabin body; the sensor bin is arranged in the cabin body and communicated with the air inlet; the accommodating part is arranged in the cabin body and is used for accommodating the air pump; a signal processing part arranged in the cabin body; a GPS module; a wireless communication module; the scheme provides a monitoring means for high-altitude atmospheric pollutants, and can realize effective monitoring for areas where gaseous pollutants are emitted in high altitude and people are difficult to reach.

Although the environment emergency immature system can detect air gas, the detected data cannot be fully utilized after the air gas is detected, and the improvement space is still left.

Disclosure of Invention

Aiming at the defects in the prior art, the first purpose of the invention is to provide an atmosphere monitoring and treating method which has the advantage of fully utilizing gas detection data.

In order to achieve the purpose, the invention provides the following technical scheme:

an atmospheric monitoring and treating method comprises

Continuously acquiring monitoring item data of each gas in the air;

comparing whether the real-time gas monitoring item data is greater than an emission threshold based on the real-time gas monitoring item data, an

Comparing whether the gas accumulated discharge in the first preset time period is greater than an accumulated threshold value or not based on the gas monitoring item data in the first preset time period, wherein the gas accumulated discharge is the accumulated sum of the gas monitoring item data in a period of continuous time, and

based on the gas monitoring item data in a second preset time period, comparing whether the gas accumulated residual amount in the second preset time period is larger than a residual threshold value, wherein the gas accumulated residual amount is the difference between the accumulated sum of the gas monitoring item data in a period of continuous time and the accumulated self-net amount of the gas monitoring item in the period of continuous time;

and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation.

By adopting the technical scheme, after data of each gas monitoring item in the air is acquired, whether the real-time gas monitoring item data is larger than a discharge threshold value or not is compared, if the data is larger than the discharge threshold value, corresponding treatment measures are started for processing, meanwhile, whether the gas accumulated discharge in a first preset time period is larger than an accumulated threshold value or not is also compared, when the gas accumulated discharge in the first preset time period is larger than the accumulated threshold value, the corresponding treatment measures are started for processing, meanwhile, whether the gas accumulated residual amount in a second preset time period is larger than a residual threshold value or not is also compared, when the gas accumulated residual amount in the second preset time period is larger than the residual threshold value, the corresponding treatment measures are started for processing, and the gas discharge is respectively monitored and correspondingly processed from three angles of a real-time value, an accumulated value and a residual value of each gas monitoring item according to different monitoring conditions, the data utilization is sufficient, the pertinence is high, the processing is appropriate, and the monitoring effect is good.

Further, the gas monitoring item data comprises volatile organic compound on-line monitoring data, dust on-line monitoring data and oil smoke on-line monitoring data.

By adopting the technical scheme, the three types of conventional and large-amount air pollutants of volatile organic compounds, dust and oil smoke are monitored respectively, the conventional monitoring is supported, and the cost is saved.

Further, the corresponding to the type case includes

Corresponding to any one of the real-time gas monitoring item data being greater than the discharge threshold, the accumulated discharge amount of the gas being greater than the accumulated threshold in the first preset time period and the accumulated residual amount of the gas being greater than the residual threshold in the second preset time period, an

Corresponding to the gas type of the gas monitoring item data.

By adopting the technical scheme, the monitoring conditions are respectively processed by the real-time values, the accumulated values and the residual values of all the monitoring items and the gas types of different monitoring items, so that the method is more targeted and the data utilization is more sufficient.

Furthermore, the treatment measures comprise any combination process of modified molecular sieve adsorption, chemical metal membrane desorption and vacuum desorption.

By adopting the technical scheme, aiming at different gas conditions, the air is treated by adopting a mode of combining a modified molecular sieve technology, a chemical metal film desorption technology and vacuum analysis according to needs, and targeted and effective monitoring treatment is carried out.

In view of the deficiencies of the prior art, a second objective of the present invention is to provide an environment monitoring method having the advantage of fully utilizing gas detection data.

In order to achieve the purpose, the invention provides the following technical scheme:

an environment monitoring method comprises the atmospheric monitoring and governing method of any one of the above technical schemes.

Aiming at the defects in the prior art, the third purpose of the invention is to provide an atmosphere monitoring and governing platform which has the advantage of fully utilizing gas detection data.

In order to achieve the purpose, the invention provides the following technical scheme:

an atmospheric monitoring abatement platform comprising a processor and a memory, the memory storing a set of instructions for the processor to invoke to implement:

continuously acquiring monitoring item data of each gas in the air;

comparing whether the real-time gas monitoring item data is greater than an emission threshold based on the real-time gas monitoring item data, an

Comparing whether the gas accumulated discharge in the first preset time period is greater than an accumulated threshold value or not based on the gas monitoring item data in the first preset time period, wherein the gas accumulated discharge is the accumulated sum of the gas monitoring item data in a period of continuous time, and

based on the gas monitoring item data in a second preset time period, comparing whether the gas accumulated residual amount in the second preset time period is larger than a residual threshold value, wherein the gas accumulated residual amount is the difference between the accumulated sum of the gas monitoring item data in a period of continuous time and the accumulated self-net amount of the gas monitoring item in the period of continuous time;

and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation.

By adopting the technical scheme, after data of each gas monitoring item in the air is acquired, whether the real-time gas monitoring item data is larger than a discharge threshold value or not is compared, if the data is larger than the discharge threshold value, corresponding treatment measures are started for processing, meanwhile, whether the gas accumulated discharge in a first preset time period is larger than an accumulated threshold value or not is also compared, when the gas accumulated discharge in the first preset time period is larger than the accumulated threshold value, the corresponding treatment measures are started for processing, meanwhile, whether the gas accumulated residual amount in a second preset time period is larger than a residual threshold value or not is also compared, when the gas accumulated residual amount in the second preset time period is larger than the residual threshold value, the corresponding treatment measures are started for processing, and the gas discharge is respectively monitored and correspondingly processed from three angles of a real-time value, an accumulated value and a residual value of each gas monitoring item according to different monitoring conditions, the data utilization is sufficient, the pertinence is high, the processing is appropriate, and the monitoring effect is good.

Further, the set of instructions also includes instructions for the processor to call to implement:

the gas monitoring item data comprises volatile organic compound on-line monitoring data, dust raising on-line monitoring data and oil smoke on-line monitoring data.

By adopting the technical scheme, the three types of conventional and large-amount air pollutants of volatile organic compounds, dust and oil smoke are monitored respectively, the conventional monitoring is supported, and the cost is saved.

Further, the set of instructions also includes instructions for the processor to call to implement: corresponding to the type of the case includes

Corresponding to any one of the real-time gas monitoring item data being greater than the discharge threshold, the accumulated discharge amount of the gas being greater than the accumulated threshold in the first preset time period and the accumulated residual amount of the gas being greater than the residual threshold in the second preset time period, an

Corresponding to the gas type of the gas monitoring item data.

By adopting the technical scheme, the monitoring conditions are respectively processed by the real-time values, the accumulated values and the residual values of all the monitoring items and the gas types of different monitoring items, so that the method is more targeted and the data utilization is more sufficient.

Further, the set of instructions also includes instructions for the processor to call to implement:

the treatment measures comprise any combination process of modified molecular sieve adsorption, chemical metal membrane desorption and vacuum desorption.

By adopting the technical scheme, aiming at different gas conditions, the air is treated by adopting a mode of combining a modified molecular sieve technology, a chemical metal film desorption technology and vacuum analysis according to needs, and targeted and effective monitoring treatment is carried out.

In conclusion, the invention has the following beneficial effects:

1. the gas emission is monitored and correspondingly processed from three angles of a real-time value, an accumulated value and a residual value of each gas monitoring item respectively aiming at different monitoring conditions, so that the data is fully utilized, the pertinence is high, the processing is proper, and the monitoring effect is good;

2. the method has the advantages that the method monitors three conventional and large amount of air pollutants including volatile organic compounds, dust and oil smoke respectively, supports conventional monitoring and saves cost;

3. aiming at different gas conditions, the air is treated by adopting a mode of combining a modified molecular sieve technology, a chemical metal film desorption technology and vacuum analysis according to needs, and targeted and effective monitoring treatment is carried out.

Drawings

FIG. 1 is a schematic flow diagram of an atmospheric monitoring and abatement method of the present invention;

FIG. 2 is a schematic flow diagram of an atmospheric monitoring abatement platform of the present invention.

In the figure: 1. a processor; 2. a memory.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Example 1

An atmospheric monitoring and abatement method, referring to fig. 1, includes steps S101 to S105.

Step S101: continuously acquiring data of monitoring items of each gas in the air.

In step S101, the gas monitoring item data includes volatile organic compound online monitoring data, dust emission online monitoring data, and oil smoke online monitoring data. For gas monitoring terms, it refers to each type of gas being monitored. The data is acquired by acquiring the concentration value of each type of gas in the air by using each type of gas sensor. The acquisition mode is regional gridding acquisition, namely, a region needing to acquire corresponding data is divided into a plurality of small grids, and corresponding sensors are respectively arranged at fixed points of the grids. The sensors are separated by a reference time and a set of measurement data is transmitted back.

Step S102: the following comparisons were made: comparing whether the real-time gas monitoring item data is greater than an emission threshold based on the real-time gas monitoring item data, an

Based on the gas monitoring item data in the first preset time period, comparing whether the gas accumulated discharge in the first preset time period is greater than an accumulated threshold value, wherein the gas accumulated discharge is the accumulated sum of the gas monitoring item data in a period of continuous time, and

and comparing whether the accumulated gas residual in the second preset time length is greater than a residual threshold value or not based on the gas monitoring item data in the second preset time length, wherein the accumulated gas residual is the difference between the accumulated sum of the gas monitoring item data in a period of continuous time and the accumulated self-net amount of the gas monitoring item in the period of continuous time.

In step S102, after the data of each gas monitoring item is acquired, the real-time data is compared with an emission threshold value based on the real-time data of the gas monitoring item, where the emission threshold value is a critical value at which the emission of each type of gas exceeds the standard at a certain time.

When the duration of continuously acquired gas monitoring item data reaches a first preset duration, respectively calculating the sum of all types of gas monitoring items acquired within the first preset duration, wherein the sum is the gas accumulated emission, the calculation of the gas accumulated emission within the first preset duration is a forward process of a time sequence, and the calculation of the gas accumulated emission within the new first preset duration is repeated continuously along with the continuous acquisition of new data.

And when the duration of the continuously acquired gas monitoring item data reaches a second preset duration, respectively calculating the sum of all types of the gas monitoring items acquired in the first preset duration, wherein the sum is the gas accumulated discharge amount, calculating the sum of the accumulated net amount of the gas of all types of the gas monitoring items in the second preset duration, and the difference value of the gas accumulated discharge amount and the gas accumulated net amount is the gas accumulated residual amount. The calculation of the cumulative remaining amount of gas is also a continuous and updated process.

Step S103: and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation.

In step S103, corresponding to the type case includes

The method is corresponding to any one of the condition that the real-time gas monitoring item data is larger than the discharge threshold, the accumulated discharge amount of the gas in the first preset time period is larger than the accumulated threshold, and the accumulated residual amount of the gas in the second preset time period is larger than the residual threshold, and the gas type of the gas monitoring item data. The monitoring conditions are respectively processed by the real-time value, the accumulated value and the residual value of each monitoring item and the gas types of different monitoring items, so that the method is more pertinent and more sufficient in data utilization.

In this embodiment, the treatment measures include any combination of adsorption with modified molecular sieves, desorption with chemical metal membranes, and vacuum desorption.

Example 2

An environment monitoring method comprises the atmosphere monitoring and treatment method in the embodiment 1, and further comprises a water environment detection and treatment method and a soil monitoring and remediation method.

The water environment detection and treatment method comprises a distributed sewage solution scheme, a river comprehensive treatment scheme and a medical wastewater treatment scheme.

In the distributed sewage solution scheme, sewage enters MBR integrated treatment equipment after being pretreated, and enters an adjusting tank after being treated by a grid to adjust water quantity and water quality. By controlling the aeration time and the aeration quantity, the anoxic time period and the aerobic time period alternately appear in the time sequence in the membrane bioreactor to realize the removal of BOD5 and ammonia nitrogen, so that the effluent reaches the discharge standard.

In the comprehensive treatment scheme of the river channel, monitoring is used as guidance, a bank side water quality automatic monitoring station is established to monitor water quality indexes in real time, rainwater and sewage discharged into the river channel are intercepted, and the rainwater and the sewage are collected through a pipeline, enter an impurity separator and are treated by an MBR to reach the standard and flow into the river. The black and odorous sewage is dredged by the sediment and degraded by photoelectrocatalysis, so that the river water reaches the conventional water quality. Meanwhile, a mechanical aerator is arranged, dissolved oxygen in a water body is increased, and a system for moving a biological floating bed and planting aquatic plants to rebuild river water ecology is built.

In the medical wastewater treatment scheme, a septic tank and an oil separation tank are arranged aiming at the domestic sewage of a non-infectious hospital, the domestic sewage enters an adjusting tank through a grating, and different processes are selected for biochemical treatment and disinfection and then are discharged. The infectious hospital sewage is disinfected firstly and then treated subsequently.

The soil monitoring and repairing method comprises the following steps: the first stage site environment evaluation: data review, site survey and interview of personnel, site evaluation.

And the second stage of site environment evaluation determines a sampling scheme, performs sampling investigation and submits an evaluation report.

And in the third stage, site environment evaluation, polluted site risk evaluation, evaluation of risks to human health and environment, provision of remedial measures and risk management measures, restoration and treatment of the polluted site, research of restoration schemes, execution of third-party restoration process supervision and management of the restoration schemes, and restoration acceptance and monitoring.

Example 3

An atmospheric monitoring treatment platform, referring to fig. 2, includes a processor 1 and a memory 2, where the memory 2 stores an instruction set for the processor 1 to call to implement the following functions:

continuously acquiring monitoring item data of each gas in the air;

comparing whether the real-time gas monitoring item data is greater than an emission threshold based on the real-time gas monitoring item data, an

Based on the gas monitoring item data in the first preset time period, comparing whether the gas accumulated discharge in the first preset time period is greater than an accumulated threshold value, wherein the gas accumulated discharge is the accumulated sum of the gas monitoring item data in a period of continuous time, and

based on the gas monitoring item data in a second preset time period, comparing whether the gas accumulated residual amount in the second preset time period is larger than a residual threshold value or not, wherein the gas accumulated residual amount is the difference between the accumulated sum of the gas monitoring item data in a period of continuous time and the accumulated self-net amount of the gas monitoring item in the period of continuous time;

and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation.

The gas monitoring item data comprises volatile organic compound on-line monitoring data, dust raising on-line monitoring data and oil smoke on-line monitoring data.

The corresponding to the type of situation comprises the corresponding to any one of the situations that the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold, and the corresponding to the gas type of the gas monitoring item data.

The treatment measures comprise any combination process of modified molecular sieve adsorption, chemical metal membrane desorption and vacuum desorption.

Example 4

An environment monitoring platform comprises the atmosphere monitoring treatment platform in embodiment 3, and further comprises a water environment detection treatment platform and a soil monitoring and repairing platform.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. An atmospheric monitoring and treatment method is characterized in that: comprises that

Continuously acquiring monitoring item data of each gas in the air;

comparing whether the real-time gas monitoring item data is greater than an emission threshold based on the real-time gas monitoring item data, an

Comparing whether the gas accumulated discharge in the first preset time period is greater than an accumulated threshold value or not based on the gas monitoring item data in the first preset time period, wherein the gas accumulated discharge is the accumulated sum of the gas monitoring item data in a period of continuous time, and

based on the gas monitoring item data in a second preset time period, comparing whether the gas accumulated residual amount in the second preset time period is larger than a residual threshold value, wherein the gas accumulated residual amount is the difference between the accumulated sum of the gas monitoring item data in a period of continuous time and the accumulated self-net amount of the gas monitoring item in the period of continuous time;

and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation.

2. The atmospheric monitoring abatement method of claim 1, wherein: the gas monitoring item data comprises volatile organic compound on-line monitoring data, dust raising on-line monitoring data and oil smoke on-line monitoring data.

3. The atmospheric monitoring abatement method of claim 2, wherein: the corresponding to the type of situation comprises

Corresponding to any one of the real-time gas monitoring item data being greater than the discharge threshold, the accumulated discharge amount of the gas being greater than the accumulated threshold in the first preset time period and the accumulated residual amount of the gas being greater than the residual threshold in the second preset time period, an

Corresponding to the gas type of the gas monitoring item data.

4. The atmospheric monitoring abatement method of claim 1, wherein: the treatment measures comprise any combination process of modified molecular sieve adsorption, chemical metal membrane desorption and vacuum analysis.

5. An environment monitoring method, comprising: the method of atmospheric monitoring remediation comprising any one of claims 1 to 4.

6. The utility model provides an atmospheric monitoring administers platform which characterized in that: the system comprises a processor (1) and a memory (2), wherein the memory (2) stores an instruction set which is called by the processor (1) to realize the following functions:

continuously acquiring monitoring item data of each gas in the air;

comparing whether the real-time gas monitoring item data is greater than an emission threshold based on the real-time gas monitoring item data, an

Comparing whether the gas accumulated discharge in the first preset time period is greater than an accumulated threshold value or not based on the gas monitoring item data in the first preset time period, wherein the gas accumulated discharge is the accumulated sum of the gas monitoring item data in a period of continuous time, and

based on the gas monitoring item data in a second preset time period, comparing whether the gas accumulated residual amount in the second preset time period is larger than a residual threshold value, wherein the gas accumulated residual amount is the difference between the accumulated sum of the gas monitoring item data in a period of continuous time and the accumulated self-net amount of the gas monitoring item in the period of continuous time;

and when any one of the real-time gas monitoring item data is larger than the discharge threshold, the gas accumulated discharge amount in the first preset time period is larger than the accumulated threshold, and the gas accumulated residual amount in the second preset time period is larger than the residual threshold occurs, starting the treatment measures corresponding to the type of situation.

7. The atmospheric monitoring abatement platform of claim 6, wherein: the set of instructions further comprises instructions for the processor (1) to call to implement:

the gas monitoring item data comprises volatile organic compound on-line monitoring data, dust raising on-line monitoring data and oil smoke on-line monitoring data.

8. The atmospheric monitoring abatement platform of claim 7, wherein: the set of instructions further comprises instructions for the processor (1) to call to implement: corresponding to the type of the case includes

Corresponding to any one of the real-time gas monitoring item data being greater than the discharge threshold, the accumulated discharge amount of the gas being greater than the accumulated threshold in the first preset time period and the accumulated residual amount of the gas being greater than the residual threshold in the second preset time period, an

Corresponding to the gas type of the gas monitoring item data.

9. The atmospheric monitoring abatement platform of claim 6, wherein: the set of instructions further comprises instructions for the processor (1) to call to implement:

the treatment measures comprise any combination process of modified molecular sieve adsorption, chemical metal membrane desorption and vacuum desorption.

10. An environment monitoring platform which is characterized in that: an atmospheric monitoring remediation platform comprising any one of claims 6 to 9, further comprising an aquatic environment detection remediation platform, a soil monitoring and remediation platform.

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