CN109345145B - Transformer substation noise control aid decision-making method - Google Patents

Abstract

The invention discloses a transformer substation noise control aid decision method, which comprises the following steps: s1, collecting basic data; s2, performing data matching, determining a uniform number, and determining the noise complaint condition and the noise data standard exceeding condition of each transformer substation; s3, respectively recording the serial numbers of the transformer substations into different temporary storage libraries according to the noise complaint condition and the noise data standard exceeding condition; s4, determining the population number in the set range around the transformer substation, and setting a population threshold value; s5, comparing the population number in the set range around the transformer substation corresponding to the serial number in each temporary storage with a population threshold value; s6, respectively recording the corresponding serial numbers of the transformer substations into an immediate treatment library, a priority treatment library and a plan treatment library according to the comparison result; and S7, performing noise control on the substations in the libraries according to the set priority sequence. When the method is applied, decision sequencing can be provided for transformer substation noise control by combining transformer substation boundary noise monitoring data and population density and sensitivity of residents around the transformer substation.

Description

Transformer substation noise control aid decision-making method

Technical Field

The invention relates to the technical field of transformer substation noise control, in particular to a transformer substation noise control auxiliary decision method.

Background

The transformer substation factory noise is one of indexes causing complaints of surrounding residents and is also a data basis of transformer substation noise control decisions, but in view of the fact that the whole implementation of environment-friendly funds is difficult, the transformer substation noise exceeding the standard is not the only decision factor for developing control, and more needs to consider the potential complaint probability or the number of the surrounding residents staying at night, so that the utilization efficiency of the environment-friendly funds can be improved, and the practically required control requirements can be met. However, when the environmental protection capital is far insufficient to meet the requirement of developing noise abatement when all noises exceed the standard, how to utilize the environmental protection capital more scientifically and more effectively is a problem to be solved urgently.

Disclosure of Invention

The invention provides a transformer substation noise control aid decision-making method aiming at the problems in the prior art, and when the transformer substation noise control aid decision-making method is applied, decision-making sequencing can be provided for transformer substation noise control by combining transformer substation boundary noise monitoring data and population density and sensitivity of residents around a transformer substation, so that environmental protection funds are scientifically and effectively utilized.

The invention is realized by the following technical scheme:

a transformer substation noise control assistant decision method comprises the following steps:

s1, collecting basic data of all selected substations: the basic data comprise noise data of the transformer substation, complaint data of the transformer substation and population thermodynamic diagram data around the transformer substation;

s2, matching and marking the acquired basic data and the corresponding transformer substations, determining a unified number, analyzing and processing the basic data, and determining the noise complaint condition and the noise data standard exceeding condition of each transformer substation;

s3, recording the serial numbers of the transformer substations which have noise complaints and noise data exceeding the standard into a first temporary storage library, recording the serial numbers of the transformer substations which have the noise complaints and the noise data not exceeding the standard into a second temporary storage library, and recording the serial numbers of the transformer substations which do not have the noise complaints and the noise data exceeding the standard into a third temporary storage library;

s4, processing thermodynamic diagram data of population around each transformer substation, determining population number in a set range around the transformer substation, and setting population threshold values;

s5, comparing the population number in the set range around the transformer substation corresponding to each serial number in the first temporary storage library, the second temporary storage library and the third temporary storage library with a set population threshold value;

s6, extracting and recording the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the first temporary storage library again, and recording the corresponding serial numbers of the transformer substations which do not reach the population threshold value in the priority management library; the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the second temporary storage library are recorded into a priority treatment library, and the corresponding serial numbers of the transformer substations which do not reach the population threshold value are recorded into a plan treatment library; the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the third temporary storage library are recorded into a plan treatment library;

and S7, according to the sequence that the priority of the immediate treatment library is higher than that of the priority treatment library, and the priority of the priority treatment library is higher than that of the planned treatment library, carrying out noise treatment on the environment-friendly fund invested by the transformer substation corresponding to each number.

Preferably, the number corresponding to the substation, the population of which does not reach the population threshold value within the peripheral setting range in the third temporary storage library in step S6, is recorded into the temporary treatment library, and the priority of the temporary treatment library is lower than that of the planned treatment library.

Preferably, in step S2, a corresponding noise complaint factor is calculated according to the noise complaint condition of each substation, a corresponding noise standard exceeding factor is calculated according to the noise data standard exceeding condition of the substation, in step S4, a corresponding population factor is calculated according to the population in the set range around each substation, the noise complaint factor, the noise standard exceeding factor and the population factor are weighted to calculate the score of each substation, the numbers of each substation in the immediate governance library, the priority governance library and the plan governance library are arranged in order according to the corresponding score, and the priority with high score is higher than the priority with low score.

Preferably, the noise complaint factor is determined by the noise complaint frequency, the value range of the noise complaint factor is 0-10, the more the noise complaint frequency, the larger the value, and the value is 0 when no noise complaint exists.

Preferably, the noise exceeding factor is determined by a noise exceeding rate, the value range of the noise exceeding factor is 0-10, the larger the noise exceeding rate is, and the value is 0 when the noise does not exceed the rate.

Preferably, the population number factor is determined by the population number exceeding the population threshold value in the peripheral setting range of the transformer substation, the value range is 0-10, the larger the population number exceeding the population threshold value is, and the value is 0 when the population number in the peripheral setting range of the transformer substation does not reach the population threshold value.

Preferably, the noise data includes noise sound pressure level data of a substation boundary, which is obtained by performing all-weather monitoring and calibration on the noise sound pressure level monitoring device.

The invention has the following advantages and beneficial effects:

1. the transformer substation noise control assistant decision method can provide decision sequencing for transformer substation noise control by combining transformer substation boundary noise monitoring data and population density and sensitivity of residents around the transformer substation, so that environmental protection funds are scientifically and effectively utilized.

2. The invention relates to a transformer substation noise treatment auxiliary decision method, which is characterized in that the serial numbers of transformer substations needing noise treatment are sequentially input into an immediate treatment library, a priority treatment library and a plan treatment library according to priority levels from high to low, and reasonable sequence arrangement is carried out in each library, so that the implementation of treatment technologies and capital has a clear and reasonable sequence.

3. The transformer substation noise control assistant decision-making method is accurate and reasonable in decision-making supporting data and applicable to most noise control links.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a block diagram of a decision making implementation of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

Examples

As shown in fig. 1, a method for assisting decision-making in noise treatment of a transformer substation includes the following steps:

s1, collecting basic data of all selected substations: the basic data comprise noise data of the transformer substation, complaint data of the transformer substation and population thermodynamic diagram data around the transformer substation;

s2, matching and marking the acquired basic data and the corresponding transformer substations, determining a unified number, analyzing and processing the basic data, and determining the noise complaint condition and the noise data standard exceeding condition of each transformer substation;

s3, recording the serial numbers of the transformer substations which have noise complaints and noise data exceeding the standard into a first temporary storage library, recording the serial numbers of the transformer substations which have the noise complaints and the noise data not exceeding the standard into a second temporary storage library, and recording the serial numbers of the transformer substations which do not have the noise complaints and the noise data exceeding the standard into a third temporary storage library;

s4, processing thermodynamic diagram data of population around each transformer substation, determining population number in a set range around the transformer substation, and setting population threshold values;

s5, comparing the population number in the set range around the transformer substation corresponding to each serial number in the first temporary storage library, the second temporary storage library and the third temporary storage library with a set population threshold value;

s6, extracting and recording the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the first temporary storage library again, and recording the corresponding serial numbers of the transformer substations which do not reach the population threshold value in the priority management library; the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the second temporary storage library are recorded into a priority treatment library, and the corresponding serial numbers of the transformer substations which do not reach the population threshold value are recorded into a plan treatment library; the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the third temporary storage library are recorded into a plan treatment library;

and S7, according to the sequence that the priority of the immediate treatment library is higher than that of the priority treatment library, and the priority of the priority treatment library is higher than that of the planned treatment library, carrying out noise treatment on the environment-friendly fund invested by the transformer substation corresponding to each number.

And (4) recording the corresponding serial numbers of the transformer substations of which the population number in the peripheral set range in the third temporary storage library does not reach the population threshold value in the temporary treatment library in the step (S6), wherein the priority of the temporary treatment library is lower than that of the planned treatment library. When the environmental protection fund for controlling the transformer substation in the immediate control warehouse, the priority control warehouse and the plan control warehouse is remained, the remained fund can be put into the transformer substation in the temporary control warehouse for noise control.

In step S2, a corresponding noise complaint factor is calculated according to the noise complaint condition of each substation, a corresponding noise standard exceeding factor is calculated according to the noise data standard exceeding condition of the substation, in step S4, a corresponding population factor is calculated according to the population in the set range around each substation, the noise complaint factor, the noise standard exceeding factor and the population factor are weighted to calculate the score of each substation, the numbers of each substation in the immediate governance library, the priority governance library and the plan governance library are arranged in sequence according to the corresponding score, and the priority with high score is higher than the priority with low score. The weights of the noise complaint factor, the noise standard exceeding factor and the population factor can be set to 40%, 30% or 30%, 40%, 30% or 30%, 40% and the like respectively, and can be selected according to actual conditions.

The noise complaint factor is determined by the noise complaint times, the value range of the noise complaint factor is 0-10, the more the noise complaint times, the larger the value, when no noise complaint exists, the value is 0, and when the noise complaint times is more than or equal to the set times, the value is 10.

The noise exceeding factor is determined by the noise exceeding rate, the value range of the noise exceeding factor is 0-10, the larger the noise exceeding rate is, the value is 0 when the noise does not exceed the limit, and the value is 10 when the noise exceeding rate is larger than or equal to a set value.

The population quantity factor is determined by the population quantity exceeding the population threshold value in the peripheral set range of the transformer substation, the value range is 0-10, the larger the population quantity exceeding the population threshold value is, the value is 0 when the population quantity in the peripheral set range of the transformer substation does not reach the population threshold value, and the value is 10 when the population quantity exceeding the population threshold value is larger than or equal to the set value.

The noise data comprises noise sound pressure level data of a transformer substation factory boundary, and the noise sound pressure level data is obtained by all-weather monitoring and calibration of noise sound pressure level monitoring equipment so as to provide an accurate and reliable monitoring data source and lay a foundation for subsequent treatment decisions.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. A transformer substation noise control aid decision method is characterized by comprising the following steps:

s1, collecting basic data of all selected substations: the basic data comprise noise data of the transformer substation, complaint data of the transformer substation and population thermodynamic diagram data around the transformer substation;

s2, matching and marking the acquired basic data and the corresponding transformer substations, determining a unified number, analyzing and processing the basic data, and determining the noise complaint condition and the noise data standard exceeding condition of each transformer substation;

s3, recording the serial numbers of the transformer substations which have noise complaints and noise data exceeding the standard into a first temporary storage library, recording the serial numbers of the transformer substations which have the noise complaints and the noise data not exceeding the standard into a second temporary storage library, and recording the serial numbers of the transformer substations which do not have the noise complaints and the noise data exceeding the standard into a third temporary storage library;

s4, processing thermodynamic diagram data of population around each transformer substation, determining population number in a set range around the transformer substation, and setting population threshold values;

s5, comparing the population number in the set range around the transformer substation corresponding to each serial number in the first temporary storage library, the second temporary storage library and the third temporary storage library with a set population threshold value;

s6, extracting and recording the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the first temporary storage library again, and recording the corresponding serial numbers of the transformer substations which do not reach the population threshold value in the priority management library; the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the second temporary storage library are recorded into a priority treatment library, and the corresponding serial numbers of the transformer substations which do not reach the population threshold value are recorded into a plan treatment library; the corresponding serial numbers of the transformer substations of which the population number reaches the population threshold value in the peripheral set range in the third temporary storage library are recorded into a plan treatment library;

and S7, according to the sequence that the priority of the immediate treatment library is higher than that of the priority treatment library, and the priority of the priority treatment library is higher than that of the planned treatment library, carrying out noise treatment on the environment-friendly fund invested by the transformer substation corresponding to each number.

2. The substation noise abatement aid decision-making method according to claim 1, wherein the substation number whose population does not reach the population threshold value in the peripheral setting range in the third temporary storage library in step S6 is recorded into the temporary abatement library, and the priority of the temporary abatement library is lower than that of the planned abatement library.

3. The substation noise abatement aid decision-making method according to claim 1, wherein in step S2, a corresponding noise complaint factor is calculated according to a noise complaint condition of each substation, a corresponding noise standard exceeding factor is calculated according to a noise data standard exceeding condition of each substation, in step S4, a corresponding population factor is calculated according to a population in a set range around each substation, the noise complaint factor, the noise standard exceeding factor and the population factor are weighted and calculated to obtain scores of each substation, numbers of each substation in the immediate abatement library, the priority abatement library and the plan abatement library are arranged according to corresponding scores, and the priority of the score is higher than the priority of the score.

4. The substation noise control aid decision-making method according to claim 3, wherein the noise complaint factor is determined by the number of noise complaints, and the noise complaint factor ranges from 0 to 10, and the larger the number of noise complaints is, the larger the number is, and the value is 0 when there is no noise complaint.

5. The substation noise abatement assistant decision-making method according to claim 3, wherein the noise exceeding factor is determined by a noise exceeding rate, the value range of the noise exceeding factor is 0-10, the larger the noise exceeding rate is, and the value is 0 when the noise does not exceed the standard.

6. The substation noise abatement assistant decision-making method according to claim 3, wherein the population number factor is determined by the population number exceeding the population threshold in the peripheral setting range of the substation, the value range is 0-10, the larger the population number exceeding the population threshold, the larger the value, and the value is 0 when the population number in the peripheral setting range of the substation does not reach the population threshold.

7. The substation noise abatement aid decision-making method according to claim 1, wherein the noise data includes noise sound pressure level data of a substation boundary, which is obtained by performing all-weather monitoring and calibration on noise sound pressure level monitoring equipment.

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