CN111489070A - Method and device for automatically identifying working parameters of pollution source monitoring equipment - Google Patents
Method and device for automatically identifying working parameters of pollution source monitoring equipment Download PDFInfo
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Abstract
The invention discloses a method and a device for automatically identifying working parameters of pollution source monitoring equipment for falsification, which are used for acquiring relevant data of zero calibration and range calibration; and judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm. The invention automatically acquires the related data to judge whether the working parameters are forged or not, does not need personnel to go to an enterprise for regular inspection, saves manpower and material resources, improves the efficiency, can carry out real-time inspection and improves the inspection effect.
Description
Technical Field
The invention relates to the field of identification of false work of pollution source monitoring equipment, in particular to a method and a device for automatically identifying false work of working parameters of pollution source monitoring equipment.
Background
In recent years, with the higher and higher requirements of the country on the environmental quality, the desire of common people for the ecological environment with good twinkling of stars and white clouds is more and more urgent, various law enforcement forces are increased by environmental protection departments at all levels, the quality of environmental data is further improved and grasped by the technical means, and the emission condition of each enterprise is faithfully reflected by the environmental online monitoring data.
In the case of online data counterfeiting published by the environmental protection department in the past, the pollution sources account for more than 70% of the total amount by modifying software means such as automatic monitoring equipment parameters of the pollution sources, and the real acquisition of the enterprise emission condition is seriously influenced. The existing method is that the monitoring personnel go to the enterprise for patrol at fixed time and fixed point, the working intensity is high, the monitoring effect is not ideal, and the efficiency is low.
Disclosure of Invention
In order to solve the problems, the invention provides a method and a device for automatically identifying the working parameters of pollution source monitoring equipment, which can automatically acquire related data, judge whether the equipment has a fake behavior, and improve the working efficiency and the monitoring effect.
The technical scheme of the invention is as follows: a method for automatically identifying the operating parameters of pollution source monitoring equipment, comprising the following steps:
acquiring relevant data of zero calibration and range calibration;
and judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm.
Further, the acquired zero point calibration related data includes a zero point calibration time and a zero point calibration coefficient.
Further, judging whether the acquired zero calibration related data is within a preset range specifically includes:
judging whether the zero calibration period is within a preset period range or not according to the zero calibration time;
and judging whether the zero calibration coefficient is in a preset coefficient range, if not, indicating that the zero calibration operation is abnormal.
Further, the acquired range calibration related data includes a range calibration substance concentration, a range calibration coefficient, and a range calibration original value.
Further, judging whether the acquired range calibration related data is in a preset range specifically comprises:
judging whether the concentration of the range calibration substance is within a preset concentration range;
when the concentration of the equivalent range calibration substance changes, judging whether the concentration of the range calibration substance accords with the operation and maintenance record;
when the range calibration coefficient changes, judging whether the change period of the range calibration coefficient accords with a preset period range;
judging whether the concentration of the range calibration substance and the range calibration coefficient change synchronously or not;
and when the change range of the original value of the range calibration exceeds the preset range, judging whether the concentration of the range calibration substance changes.
The technical scheme of the invention also comprises a device for automatically identifying the working parameters of the pollution source monitoring equipment, which comprises the following steps:
a data acquisition module: acquiring relevant data of zero calibration and range calibration;
a judgment execution module: and judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm.
Further, the data acquisition module acquires zero calibration related data including zero calibration time and a zero calibration coefficient.
Further, the determining and executing module determines whether the acquired zero calibration related data is within a preset range, and specifically includes:
judging whether the zero calibration period is within a preset period range or not according to the zero calibration time;
and judging whether the zero calibration coefficient is in a preset coefficient range, if not, indicating that the zero calibration operation is abnormal.
Further, the range calibration related data acquired by the data acquisition module comprises a range calibration substance concentration, a range calibration coefficient and a range calibration original value.
Further, the determining and executing module determines whether the acquired range calibration related data is within a preset range, and specifically includes:
judging whether the concentration of the range calibration substance is within a preset concentration range;
when the concentration of the equivalent range calibration substance changes, judging whether the concentration of the range calibration substance accords with the operation and maintenance record;
when the range calibration coefficient changes, judging whether the change period of the range calibration coefficient accords with a preset period range;
judging whether the concentration of the range calibration substance and the range calibration coefficient change synchronously or not;
and when the change range of the original value of the range calibration exceeds the preset range, judging whether the concentration of the range calibration substance changes.
The invention provides a method and a device for automatically identifying the working parameters of pollution source monitoring equipment to make a false, which automatically acquire relevant data of zero calibration and range calibration, judge whether the relevant regulations are met or not according to the acquired relevant data, and send out a false alarm if the relevant regulations are not met and the false is suspected. The invention automatically acquires the related data to judge whether the working parameters are forged or not, does not need personnel to go to an enterprise for regular inspection, saves manpower and material resources, improves the efficiency, can carry out real-time inspection and improves the inspection effect.
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FIG. 1 is a schematic flow chart of a method according to an embodiment of the present invention.
Detailed Description
The present invention will be described in detail below with reference to the accompanying drawings by way of specific examples, which are illustrative of the present invention and are not limited to the following embodiments.
Example one
The present embodiment provides a method for automatically identifying whether a working parameter of a pollution source monitoring device is false, where the working parameter of the pollution source monitoring device is key parameter information of analysis operation of the device, most of which is settable information, parameter information reflecting an operation condition of the device, and part of which is environmental parameter information. The working parameters mainly comprise measuring range and calibration related parameters (calibration concentration, calibration original value, calibration time and calibration coefficient).
As shown in fig. 1, the method comprises the following steps:
s1, acquiring relevant data of zero calibration and range calibration;
and S2, judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm.
In the operation process of the pollution source monitoring equipment, the measurement result can deviate along with equipment reasons such as the use of a reagent, the change of a light source and the like, and in order to ensure the accuracy of analysis and measurement of the pollution source monitoring equipment, the pollution source monitoring equipment needs to be regularly calibrated by using a standard substance. The zero point standard substance of the exhaust gas generally uses air, and the zero point calibration is generally automatically performed periodically. Therefore, the zero calibration related data acquired by the method comprises the zero calibration time and the zero calibration coefficient.
Judging whether the acquired zero calibration related data is in a preset range, specifically: judging whether the zero calibration period is within a preset period range or not according to the zero calibration time; and judging whether the zero calibration coefficient is in a preset coefficient range, if not, indicating that the zero calibration operation is abnormal.
If the zero calibration period is not within the preset period range, it indicates that the false possibility exists, and an alarm is given. It should be noted that the preset period range can be obtained by the operation specification of the environmental protection part.
The measuring range is mainly related to the measuring range, and the measuring range calibration related data acquired by the method comprises the concentration of a measuring range calibration substance, a measuring range calibration coefficient and a measuring range calibration original value.
Judging whether the acquired measurement calibration related data is in a preset range, wherein the method specifically comprises the following steps:
(1) judging whether the concentration of the range calibration substance is within a preset concentration range;
it should be noted that the span calibration substance concentration is typically between 50% and 80% of the span, and if the ratio is not appropriate, indicating that the span selection of the device is not appropriate, the device needs to be changed.
(2) And when the concentration of the equivalent range calibration substance changes, judging whether the concentration of the range calibration substance accords with the operation and maintenance record.
(3) When the range calibration coefficient changes, judging whether the change period of the range calibration coefficient accords with a preset period range;
it should be noted that the preset period range can be obtained according to the operating specification of the environmental protection department.
(4) Judging whether the concentration of the range calibration substance and the range calibration coefficient change synchronously or not;
it should be noted that, the process of replacing the range calibration material is judged through the synchronous change of the range calibration concentration and the range calibration coefficient, and if the process is not synchronous, the abnormal operation and maintenance is suspected.
(5) When the change range of the original value of the range calibration exceeds the preset range, judging whether the concentration of the range calibration substance changes;
it should be noted that, when the range calibration concentration is not changed, the change range of the range calibration original value is smaller; if the variation amplitude is too large, abnormal calibration suspicion exists; when the range calibration concentration changes, the range calibration original value has a large change range, and in a reasonable change direction, if abnormal, abnormal calibration is suspected.
Example two
The embodiment provides a device for automatically identifying working parameters of pollution source monitoring equipment for counterfeiting, which implements the method of the embodiment, and the device comprises:
a data acquisition module: acquiring relevant data of zero calibration and range calibration;
a judgment execution module: and judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm.
The zero calibration related data acquired by the data acquisition module comprises zero calibration time and a zero calibration coefficient.
Correspondingly, the determining and executing module determines whether the acquired zero calibration related data is within a preset range, and specifically includes:
judging whether the zero calibration period is within a preset period range or not according to the zero calibration time;
and judging whether the zero calibration coefficient is in a preset coefficient range, if not, indicating that the zero calibration operation is abnormal.
It should be noted that, if the zero calibration period is not within the preset period range, it indicates that there is a possibility of false, and an alarm is issued. The preset period range can be obtained through the operation specification of the environmental protection part.
The calibration related data of the measuring range obtained by the data obtaining module comprises the concentration of the calibration substance of the measuring range, the calibration coefficient of the measuring range and the calibration original value of the measuring range.
Correspondingly, the determining and executing module determines whether the acquired range calibration related data is within a preset range, and specifically includes:
(1) judging whether the concentration of the range calibration substance is within a preset concentration range;
it should be noted that the span calibration substance concentration is typically between 50% and 80% of the span, and if the ratio is not appropriate, indicating that the span selection of the device is not appropriate, the device needs to be changed.
(2) And when the concentration of the equivalent range calibration substance changes, judging whether the concentration of the range calibration substance accords with the operation and maintenance record.
(3) When the range calibration coefficient changes, judging whether the change period of the range calibration coefficient accords with a preset period range;
it should be noted that the preset period range can be obtained according to the operating specification of the environmental protection department.
(4) Judging whether the concentration of the range calibration substance and the range calibration coefficient change synchronously or not;
it should be noted that, the process of replacing the range calibration material is judged through the synchronous change of the range calibration concentration and the range calibration coefficient, and if the process is not synchronous, the abnormal operation and maintenance is suspected.
(5) When the change range of the original value of the range calibration exceeds the preset range, judging whether the concentration of the range calibration substance changes;
it should be noted that, when the range calibration concentration is not changed, the change range of the range calibration original value is smaller; if the variation amplitude is too large, abnormal calibration suspicion exists; when the range calibration concentration changes, the range calibration original value has a large change range, and in a reasonable change direction, if abnormal, abnormal calibration is suspected.
The invention automatically acquires the related data of zero calibration and range calibration, judges whether the related data accords with the related regulations or not according to the acquired related data, and sends out a false alarm if the related data does not accord with the related regulations and the false suspicion, thereby improving the working efficiency.
The above disclosure is only for the preferred embodiments of the present invention, but the present invention is not limited thereto, and any non-inventive changes that can be made by those skilled in the art and several modifications and amendments made without departing from the principle of the present invention shall fall within the protection scope of the present invention.
Claims (10)
1. A method for automatically identifying the working parameters of pollution source monitoring equipment, which is characterized by comprising the following steps:
acquiring relevant data of zero calibration and range calibration;
and judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm.
2. The method of claim 1, wherein the acquired zero calibration related data includes a zero calibration time and a zero calibration coefficient.
3. The method for automatically identifying the operating parameters of the pollution source monitoring device as false as claimed in claim 2, wherein the determining whether the obtained zero calibration related data is within a preset range specifically comprises:
judging whether the zero calibration period is within a preset period range or not according to the zero calibration time;
and judging whether the zero calibration coefficient is in a preset coefficient range, if not, indicating that the zero calibration operation is abnormal.
4. The method of claim 1, wherein the acquired range calibration related data includes a range calibration substance concentration, a range calibration coefficient, and a range calibration raw value.
5. The method of claim 4, wherein determining whether the acquired span calibration-related data is within a predetermined range comprises:
judging whether the concentration of the range calibration substance is within a preset concentration range;
when the concentration of the equivalent range calibration substance changes, judging whether the concentration of the range calibration substance accords with the operation and maintenance record;
when the range calibration coefficient changes, judging whether the change period of the range calibration coefficient accords with a preset period range;
judging whether the concentration of the range calibration substance and the range calibration coefficient change synchronously or not;
and when the change range of the original value of the range calibration exceeds the preset range, judging whether the concentration of the range calibration substance changes.
6. An apparatus for automatically identifying the operating parameters of a pollution source monitoring device as counterfeit, comprising:
a data acquisition module: acquiring relevant data of zero calibration and range calibration;
a judgment execution module: and judging whether the acquired zero calibration and range calibration related data are in a preset range, and if not, sending a false alarm.
7. The apparatus of claim 6, wherein the zero calibration related data obtained by the data obtaining module includes a zero calibration time and a zero calibration coefficient.
8. The apparatus according to claim 7, wherein the determining module determines whether the obtained zero calibration related data is within a preset range, and specifically comprises:
judging whether the zero calibration period is within a preset period range or not according to the zero calibration time;
and judging whether the zero calibration coefficient is in a preset coefficient range, if not, indicating that the zero calibration operation is abnormal.
9. The apparatus of claim 6, wherein the calibration-related data obtained by the data obtaining module includes a range calibration material concentration, a range calibration coefficient, and a range calibration raw value.
10. The apparatus of claim 9, wherein the determining module determines whether the acquired range calibration related data is within a predetermined range, and specifically comprises:
judging whether the concentration of the range calibration substance is within a preset concentration range;
when the concentration of the equivalent range calibration substance changes, judging whether the concentration of the range calibration substance accords with the operation and maintenance record;
when the range calibration coefficient changes, judging whether the change period of the range calibration coefficient accords with a preset period range;
judging whether the concentration of the range calibration substance and the range calibration coefficient change synchronously or not;
and when the change range of the original value of the range calibration exceeds the preset range, judging whether the concentration of the range calibration substance changes.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113012388A (en) * | 2021-02-19 | 2021-06-22 | 浙江清之元信息科技有限公司 | Pollution source online monitoring system and online monitoring data false identification analysis method |
CN113655189A (en) * | 2021-03-31 | 2021-11-16 | 吴超烽 | Automatic monitoring data analysis and judgment system for pollution source |
CN113702601A (en) * | 2021-10-28 | 2021-11-26 | 北京万维盈创科技发展有限公司 | Method and device for identifying falsification of exhaust gas monitoring data |
Citations (1)
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CN104360667A (en) * | 2014-11-28 | 2015-02-18 | 山东省环境保护信息中心 | Pollution source online monitoring platform and pollution source monitoring data anti-counterfeiting method |
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CN104360667A (en) * | 2014-11-28 | 2015-02-18 | 山东省环境保护信息中心 | Pollution source online monitoring platform and pollution source monitoring data anti-counterfeiting method |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN113012388A (en) * | 2021-02-19 | 2021-06-22 | 浙江清之元信息科技有限公司 | Pollution source online monitoring system and online monitoring data false identification analysis method |
CN113012388B (en) * | 2021-02-19 | 2023-02-24 | 浙江清之元信息科技有限公司 | Pollution source online monitoring system and online monitoring data false identification analysis method |
CN113655189A (en) * | 2021-03-31 | 2021-11-16 | 吴超烽 | Automatic monitoring data analysis and judgment system for pollution source |
CN113702601A (en) * | 2021-10-28 | 2021-11-26 | 北京万维盈创科技发展有限公司 | Method and device for identifying falsification of exhaust gas monitoring data |
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