CN115037765A - Intelligent environment-friendly monitoring system for industrial park - Google Patents

Abstract

The invention discloses an intelligent environment-friendly monitoring system for an industrial park, which belongs to the industrial field and is used for solving the problem that the environment-friendly monitoring strength with the same standard is usually set in the industrial park, and comprises an enterprise analysis module, an enterprise monitoring module, an environment-friendly judging module, an environment monitoring module and a region dividing module, wherein the enterprise analysis module is used for analyzing enterprises staying in the industrial park according to enterprise information, the region dividing module is used for performing region division on the industrial park, the environment monitoring module is used for monitoring the environment condition of an environment-friendly monitoring region in the industrial park, the enterprise monitoring module is used for monitoring enterprises in the environment-friendly monitoring region, the environment-friendly judging module is used for judging the environment-friendly grade of the environment-friendly monitoring region in the industrial park, and the invention sets matched environment-friendly monitoring strength for the industrial park by combining production pollution factors and environment factors, and the environmental protection monitoring strength of the industrial park is adaptively adjusted.

Description

Intelligent environment-friendly monitoring system for industrial park

Technical Field

The invention belongs to the field of industry, relates to an environment-friendly monitoring technology, and particularly relates to an intelligent environment-friendly monitoring system for an industrial park.

Background

The industrial park is a modern industrial division cooperative production area which is suitable for market competition and industrial upgrading and is provided with a region which is divided by administrative means according to the internal requirements of economic development per se, various production elements are gathered, and scientific integration is carried out in a certain space range, so that the intensive intensity of industrialization is improved, the industrial characteristics are highlighted, and the functional layout is optimized.

Among the prior art, set up the environmental protection control dynamics of the same standard in the industry garden usually, hardly combine the pollution factor of enterprise production and the environmental factor of enterprise's place to its monitoring standard who sets for the matching dynamics, also can not carry out the adaptability adjustment to the environmental protection control dynamics of industry garden according to multifactor simultaneously, for this reason, we propose an industry garden and use wisdom environmental protection monitored control system.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent environment-friendly monitoring system for an industrial park.

The technical problem to be solved by the invention is as follows:

how to combine production pollution factors and environmental factors to set matched environmental protection monitoring strength for enterprises in the industrial park, and the environmental protection monitoring strength of the enterprises in the industrial park is adaptively adjusted according to multiple factors.

The purpose of the invention can be realized by the following technical scheme:

an intelligent environment-friendly monitoring system for an industrial park comprises a data acquisition module, an enterprise analysis module, a login terminal, an enterprise monitoring module, an environment-friendly judgment module, an environment monitoring module, a region division module and a server, wherein the login terminal comprises an enterprise terminal and a management terminal, the enterprise terminal is used for registering the login system after enterprise information is input by an enterprise staying in the industrial park and sending the enterprise information to the server, the server sends the enterprise information to the enterprise analysis module, the enterprise analysis module is used for analyzing the enterprise staying in the industrial park according to the enterprise information, the pollution level of the enterprise staying in the industrial park is obtained according to the affiliated industry and the operation range and is fed back to the server, and the server sets a corresponding environment-friendly monitoring coefficient for the enterprise according to the pollution level;

the system comprises an area division module, a server and a monitoring module, wherein the area division module is used for carrying out area division on an industrial park, the area division is carried out to obtain a plurality of environment-friendly monitoring areas u and feeding the environment-friendly monitoring areas u back to the server, and u is 1, 2, … …, z is a positive integer; the data acquisition module is used for acquiring environmental data and enterprise data of the environment-friendly monitoring area and sending the environmental data and the enterprise data to the server, and the server sends the environmental data to the environment monitoring module and sends the enterprise data to the enterprise monitoring module;

the environment monitoring module is used for monitoring the environment condition of an environment-friendly monitoring area in the industrial park to obtain a gas pollution mean value and a water source pollution mean value in the environment-friendly monitoring area and feeding the gas pollution mean value and the water source pollution mean value back to the server; the enterprise monitoring module is used for monitoring enterprises in the environment-friendly monitoring area to obtain an enterprise pollution value of the environment-friendly monitoring area and feeding the enterprise pollution value back to the server, the server sends a gas pollution mean value, a water source pollution mean value and the enterprise pollution value in the environment-friendly monitoring area to the environment-friendly judging module, the environment-friendly judging module is used for judging the environment-friendly grade of the environment-friendly monitoring area in the industrial park, generating an environment-friendly monitoring normal signal or an environment-friendly monitoring allocation signal and feeding the environment-friendly monitoring normal signal back to the server, and if the server receives the environment-friendly monitoring normal signal, no operation is performed; and if the server receives the environment monitoring allocation signal, generating an allocation instruction and loading the allocation instruction to the management terminal, and after receiving the allocation instruction, a manager at the management terminal is used for allocating the environmental protection monitoring force of the designated environmental protection monitoring area.

Further, the enterprise information includes enterprise names, affiliated industries, enterprise types and operation ranges;

the management terminal is used for registering a login system after personal information is input by a manager of the industrial park and sending the personal information to the server;

the personal information includes the name of the manager and the second-hand phone number.

Further, the pollution levels include heavily polluted enterprises, moderately polluted enterprises, lightly polluted enterprises, and pollution-free enterprises.

Further, the setting process of the environmental protection monitoring coefficient is as follows:

if the enterprise is a heavily polluted enterprise, the environmental protection monitoring coefficient of the enterprise is alpha 1;

if the enterprise is a moderate pollution enterprise, the environmental protection monitoring coefficient of the enterprise is alpha 2;

if the enterprise is slightly polluted, the environmental protection monitoring coefficient of the enterprise is alpha 3;

if the enterprise is pollution-free, the environmental protection monitoring coefficient of the enterprise is alpha 4.

Further, the value of the environmental protection monitoring coefficient α 1 is greater than the value of the environmental protection monitoring coefficient α 2, the value of the environmental protection monitoring coefficient α 2 is greater than the value of the environmental protection monitoring coefficient α 3, and the value of the environmental protection monitoring coefficient α 3 is greater than the value of the environmental protection monitoring coefficient α 4.

Further, the environmental data comprise harmful gas molecular weight, harmful gas temperature, harmful gas pressure, harmful gas volume concentration of a plurality of gas samples in the environment-friendly monitoring area, and pH value, turbidity value, dissolved oxygen value and sulfide value of a plurality of water source samples in the environment-friendly monitoring area;

the enterprise data comprises the number of enterprises in the environment-friendly monitoring area, pollution levels of the enterprises and corresponding environment-friendly monitoring coefficients.

Further, the monitoring process of the environment monitoring module is specifically as follows:

step S1: marking the gas sample in the environment-friendly monitoring area as Qui, i is 1, 2, … …, x, x is a positive integer, and i represents the number of the gas sample;

step S2: acquiring harmful gas molecular weight FLQui, harmful gas temperature WDQui, harmful gas pressure YQQui and harmful gas volume concentration TNQui of a plurality of gas samples in an environment-friendly monitoring area;

step S3: calculating a gas pollution value QQQQui of a plurality of gas samples in the environment-friendly monitoring area through a formula QQQui ═ (FLQui/22.4) × [273/(273+ WDQui) ] × [ YQQui/101325] xTNQui;

step S4: obtaining the pH value Puui, the turbidity value ZQui, the dissolved oxygen value RYQui and the sulfide value LHQui of a plurality of water source samples in an environment-friendly monitoring area;

step S5: calculating a water source pollution value SWQui of a plurality of gas samples in the environment-friendly monitoring area through a formula SWQui ═ Pqui-8 |. times a1+ ZQui x a2-RYQui x a3+ LHQui x a 4; in the formula, a1, a2, a3 and a4 are all weight coefficients with fixed numerical values, and the values of a1, a2, a3 and a4 are all larger than zero;

step S6: and adding the gas pollution values of a plurality of gas samples and the water source pollution value of the water source sample, and averaging to obtain a gas pollution average value QWu and a water source pollution average value SWu in the environment-friendly monitoring area.

Further, the monitoring process of the enterprise monitoring module is specifically as follows:

step SS 1: acquiring the number of enterprises in an environment-friendly monitoring area and the pollution level of the enterprises;

step SS 2: respectively counting the number of heavily-polluted enterprises, moderately-polluted enterprises, slightly-polluted enterprises and non-polluted enterprises in an environment-friendly monitoring area to obtain the number ZZDu of the heavily-polluted enterprises, the number ZDu of the moderately-polluted enterprises, the number QDu of the slightly-polluted enterprises and the number WDu of the non-polluted enterprises;

step SS 3: acquiring an environment-friendly monitoring coefficient corresponding to the pollution level of an enterprise;

step SS 4: the enterprise pollution value YWu of the environmental protection monitoring area is calculated by the formula YWu ═ ZZDu × α 1+ ZDu × α 2+ QDu × α 3+ WDu × α 4.

Further, the working process of the environment-friendly judgment module is as follows:

the method comprises the following steps: acquiring an enterprise pollution threshold value, a gas pollution threshold value and a water source pollution threshold value which are stored in a server, comparing an enterprise pollution value with the enterprise pollution threshold value, comparing a gas pollution mean value with the gas pollution threshold value, and comparing a water source pollution mean value with the water source pollution threshold value;

step two: if the enterprise pollution value YWu, the gas pollution mean value QWu and the water source pollution mean value SWu are all smaller than the water source pollution threshold value, generating an environment-friendly monitoring normal signal;

if any one of the enterprise pollution value, the gas pollution mean value or the water source pollution mean value is larger than or equal to the corresponding set threshold value, entering the next step;

step three: by the formula

Calculating to obtain an environment-friendly monitoring areaWXu; in the formula, b1, b2 and b3 are all proportionality coefficients with fixed numerical values, the values of b1, b2 and b3 are all larger than zero, and e is a natural constant;

step four: acquiring the current environment-friendly monitoring grade of an environment-friendly monitoring area, and then acquiring an environment-friendly setting table stored in a server, wherein the environment-friendly setting table comprises an area pollution coefficient and an environment-friendly monitoring grade corresponding to the area pollution coefficient;

step five: comparing the area pollution coefficient of the environment-friendly monitoring area with the current environment-friendly monitoring grade to an environment-friendly setting table;

if the current environmental protection monitoring grade is matched with the regional pollution coefficient, generating an environmental protection monitoring normal signal;

and if the current environment-friendly monitoring grade is not matched with the regional pollution coefficient, generating an environment-friendly monitoring allocation signal.

Compared with the prior art, the invention has the beneficial effects that:

the enterprise analysis module analyzes enterprises residing in an industrial park according to enterprise information to obtain pollution levels and corresponding environmental protection monitoring coefficients of the enterprises residing in the industrial park, meanwhile, the industrial park is divided into a plurality of environmental protection monitoring areas through the area division module, the environmental conditions of the environmental protection monitoring areas in the industrial park are monitored through the environmental monitoring module to obtain gas pollution mean values and water source pollution mean values in the environmental protection monitoring areas, then the enterprises in the environmental protection monitoring areas are monitored through the enterprise monitoring module to obtain enterprise pollution values of the environmental protection monitoring areas, the gas pollution mean values, the water source pollution mean values and the enterprise pollution values are all sent to the environmental protection judgment module, the environmental protection grade of the environmental protection monitoring areas in the industrial park is judged through the environmental protection judgment module to generate environmental protection monitoring normal signals or environmental protection monitoring deployment signals, the environmental protection monitoring degree of the environmental protection monitoring area is adjusted according to different signals, the invention sets the matched environmental protection monitoring degree for the industrial park by combining the production pollution factors and the environmental factors, and the environmental protection monitoring degree of the industrial park is adaptively adjusted.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall system block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an intelligent environmental monitoring system for an industrial park includes a data acquisition module, an enterprise analysis module, a login terminal, an enterprise monitoring module, an environmental judgment module, an environmental monitoring module, a region division module, and a server;

the login terminal comprises an enterprise terminal and a management terminal, and the management terminal is used for registering a login system after a manager in the industrial park inputs personal information and sending the personal information to the server;

the personal information comprises names, mobile phone numbers and the like of managers;

the enterprise terminal is used for registering a login system after enterprise information is input by an enterprise staying in an industrial park and sending the enterprise information to the server;

the enterprise information comprises an enterprise name, an affiliated industry, an enterprise type, an operation range and the like;

the server sends the enterprise information to an enterprise analysis module, the enterprise analysis module is used for analyzing the enterprises which stay in the industrial park according to the enterprise information, and the pollution levels of the enterprises which stay in the industrial park are obtained according to the affiliated industry and the operation range, wherein the pollution levels comprise severely polluted enterprises, moderately polluted enterprises, slightly polluted enterprises and pollution-free enterprises;

the enterprise analysis module feeds back the pollution level corresponding to the enterprise to the server, and the server sets corresponding environmental protection monitoring coefficients for the enterprise according to the pollution level, and specifically comprises the following steps:

if the enterprise is a heavily polluted enterprise, the environmental protection monitoring coefficient of the enterprise is alpha 1;

if the enterprise is a moderate pollution enterprise, the environmental protection monitoring coefficient of the enterprise is alpha 2;

if the enterprise is slightly polluted, the environmental protection monitoring coefficient of the enterprise is alpha 3;

if the enterprise is pollution-free, the environmental protection monitoring coefficient of the enterprise is alpha 4;

it should be specifically noted that the value of the environmental protection monitoring coefficient α 1 is greater than the value of the environmental protection monitoring coefficient α 2, the value of the environmental protection monitoring coefficient α 2 is greater than the value of the environmental protection monitoring coefficient α 3, and the value of the environmental protection monitoring coefficient α 3 is greater than the value of the environmental protection monitoring coefficient α 4;

the system comprises an area division module, a server and a monitoring module, wherein the area division module is used for carrying out area division on an industrial park to obtain a plurality of environment-friendly monitoring areas u, u is 1, 2, … …, z and z are positive integers, and the area division module feeds the environment-friendly monitoring areas back to the server;

the data acquisition module is used for acquiring environmental data and enterprise data of the environment-friendly monitoring area and sending the environmental data and the enterprise data to the server, the server sends the environmental data to the environment monitoring module, and the server sends the enterprise data to the enterprise monitoring module;

specifically, the environmental data includes the harmful gas molecular weight, the harmful gas temperature, the harmful gas pressure, the harmful gas volume concentration of a plurality of gas samples in the environment-friendly monitoring area, and the pH value, the turbidity value, the dissolved oxygen value, the sulfide value and the like of a plurality of water source samples in the environment-friendly monitoring area; the enterprise data comprises the number of enterprises in the environment-friendly monitoring area, pollution levels of the enterprises, corresponding environment-friendly monitoring coefficients and the like;

the environmental monitoring module is used for monitoring the environmental condition of the environmental protection monitoring area in the industrial park, and the monitoring process specifically comprises the following steps:

step S1: marking the gas sample in the environment-friendly monitoring area as Qui, i is 1, 2, … …, x, x is a positive integer, and i represents the number of the gas sample;

step S2: acquiring harmful gas molecular weight FLQui, harmful gas temperature WDQui, harmful gas pressure YQQui and harmful gas volume concentration TNQui of a plurality of gas samples in an environment-friendly monitoring area;

step S3: calculating a gas pollution value QQQQui of a plurality of gas samples in the environment-friendly monitoring area through a formula QQQui ═ (FLQui/22.4) × [273/(273+ WDQui) ] × [ YQQui/101325] xTNQui;

step S4: obtaining the pH value Pqui, the turbidity value ZQui, the dissolved oxygen value RYQui and the sulfide value LHQui of a plurality of water source samples in an environment-friendly monitoring area;

step S5: calculating a water source pollution value SWQui of a plurality of gas samples in the environment-friendly monitoring area through a formula SWQui ═ Pqui-8 |. times a1+ ZQui x a2-RYQui x a3+ LHQui x a 4; in the formula, a1, a2, a3 and a4 are all weight coefficients with fixed values, and the values of a1, a2, a3 and a4 are all larger than zero;

step S6: adding the gas pollution values of a plurality of gas samples and the water source pollution value of the water source sample, and averaging to obtain a gas pollution average value QWu and a water source pollution average value SWu in the environment-friendly monitoring area;

the environment monitoring module feeds back a gas pollution mean value QWu and a water source pollution mean value SWu in the environment-friendly monitoring area to the server, and the server sends a gas pollution mean value QWu and a water source pollution mean value SWu in the environment-friendly monitoring area to the environment-friendly judging module;

the enterprise monitoring module is used for monitoring enterprises in the environment-friendly monitoring area, and the monitoring process specifically comprises the following steps:

step SS 1: acquiring the number of enterprises in an environment-friendly monitoring area and the pollution level of the enterprises;

step SS 2: respectively counting the number of severely polluted enterprises, moderately polluted enterprises, slightly polluted enterprises and pollution-free enterprises in the environment-friendly monitoring area to obtain the number ZZDu of the severely polluted enterprises, ZDu of the moderately polluted enterprises, QDu of the slightly polluted enterprises and WDu of the pollution-free enterprises;

step SS 3: acquiring an environment-friendly monitoring coefficient corresponding to the pollution level of an enterprise;

step SS 4: calculating an enterprise pollution value YWu of the environment-friendly monitoring area by using a formula YWu, wherein the formula is ZZDu multiplied by alpha 1+ ZDu multiplied by alpha 2+ QDu multiplied by alpha 3+ WDu multiplied by alpha 4;

the enterprise monitoring module feeds an enterprise pollution value YWu of the environment-friendly monitoring area back to the server, and the server sends an enterprise pollution value YWu of the environment-friendly monitoring area to the environment-friendly judging module;

the environmental protection judging module is used for judging the environmental protection grade of an environmental protection monitoring area in an industrial park, and the working process is as follows:

the method comprises the following steps: acquiring an enterprise pollution threshold value, a gas pollution threshold value and a water source pollution threshold value which are stored in a server, comparing an enterprise pollution value with the enterprise pollution threshold value, comparing a gas pollution mean value with the gas pollution threshold value, and comparing a water source pollution mean value with the water source pollution threshold value;

step two: if the enterprise pollution value YWu, the gas pollution mean value QWu and the water source pollution mean value SWu are all smaller than the water source pollution threshold value, generating an environment-friendly monitoring normal signal;

if any one of the enterprise pollution value, the gas pollution mean value or the water source pollution mean value is larger than or equal to the corresponding set threshold value, entering the next step;

step three: by the formula

Calculating to obtain an area pollution coefficient WXu of the environment-friendly monitoring area; in the formula, b1, b2 and b3 are all proportional coefficients with fixed numerical values, the values of b1, b2 and b3 are all larger than zero, and e is a natural constant;

step four: acquiring the current environment-friendly monitoring grade of an environment-friendly monitoring area, and then acquiring an environment-friendly setting table stored in a server, wherein the environment-friendly setting table comprises an area pollution coefficient and an environment-friendly monitoring grade corresponding to the area pollution coefficient;

step five: comparing the area pollution coefficient of the environment-friendly monitoring area with the current environment-friendly monitoring grade to an environment-friendly setting table;

if the current environmental protection monitoring grade is matched with the regional pollution coefficient, generating an environmental protection monitoring normal signal;

if the current environmental protection monitoring grade is not matched with the regional pollution coefficient, generating an environmental protection monitoring allocation signal;

the environment-friendly judging module feeds back an environment-friendly monitoring normal signal or an environment-friendly monitoring allocation signal to the server;

if the server receives the environment-friendly monitoring normal signal, no operation is performed;

and if the server receives the environment monitoring allocation signal, generating an allocation instruction and loading the allocation instruction to the management terminal, and after receiving the allocation instruction, a manager at the management terminal is used for allocating the environmental protection monitoring force of the designated environmental protection monitoring area.

An enterprise staying in an industrial park inputs enterprise information through an enterprise terminal and then registers a login system when the intelligent environment-friendly monitoring system works, the enterprise information is sent to a server, the server sends the enterprise information to an enterprise analysis module, the enterprise analysis module analyzes the enterprise staying in the industrial park according to the enterprise information, the pollution level of the enterprise staying in the industrial park is obtained according to the affiliated industry and the operation range, the enterprise analysis module feeds the pollution level corresponding to the enterprise back to the server, and the server sets a corresponding environment-friendly monitoring coefficient for the enterprise according to the pollution level;

the industrial park is divided into regions through a region dividing module, a plurality of environment-friendly monitoring regions u are obtained through the region division and fed back to a server, environment data and enterprise data of the environment-friendly monitoring regions are collected through a data collecting module, the environment data and the enterprise data are sent to the server, the server sends the environment data to the environment monitoring module, and the server sends the enterprise data to the enterprise monitoring module;

monitoring the environment condition of an environment-friendly monitoring area in an industrial park by an environment monitoring module, marking a gas sample in the environment-friendly monitoring area as Qui, obtaining harmful gas molecular weight FLQui, harmful gas temperature WDQui, harmful gas pressure YQQui and harmful gas volume concentration TNQui of a plurality of gas samples in the environment-friendly monitoring area, obtaining gas pollution values QQQQui of the plurality of gas samples in the environment-friendly monitoring area by the formula QQQui ═ (FLQui/22.4) x/(273 + WDQui) ] × [ YQQui/101325] xTNQui, then obtaining pH values PQui, turbidity values ZQui, dissolved oxygen values RYQui and sulfide values Qui of a plurality of water source samples in the environment-friendly monitoring area, and obtaining water source pollution values SWi of the plurality of water source samples in the environment-friendly monitoring area by the formula SWi ═ PQui-8 x a1+ ZQui x a2-RYQui × 83 + Qui × a4, and obtaining water source pollution values of the gas samples in the environment-friendly monitoring area by the formula SWi, adding the gas pollution values of the plurality of gas samples and the water source pollution value of the water source sample, summing and averaging to obtain a gas pollution average value QWu and a water source pollution average value SWu in the environment-friendly monitoring area, feeding back the gas pollution average value QWu and the water source pollution average value SWu in the environment-friendly monitoring area to the server by the environment monitoring module, and sending the gas pollution average value QWu and the water source pollution average value SWu in the environment-friendly monitoring area to the environment-friendly judging module by the server;

monitoring enterprises in an environment-friendly monitoring area through an enterprise monitoring module, acquiring the number of enterprises and the pollution level of the enterprises in the environment-friendly monitoring area, respectively counting the number of heavily polluted enterprises, moderately polluted enterprises, slightly polluted enterprises and pollution-free enterprises in the environment-friendly monitoring area to obtain the number ZZDu, the number of moderately polluted enterprises ZDu, the number of slightly polluted enterprises QDu and the number of pollution-free enterprises WDu, then acquiring an environment-friendly monitoring coefficient corresponding to the pollution level of the enterprises, calculating through a formula YWu (ZZDu multiplied by alpha 1+ ZDu multiplied by alpha 2+ QDu multiplied by alpha 3+ WDu multiplied by alpha 4) to obtain an enterprise pollution value YWu of the environment-friendly monitoring area, feeding the enterprise pollution value YWu of the environment-friendly monitoring area back to a server by the enterprise monitoring module, and sending the enterprise pollution value YWu of the environment-friendly monitoring area to an environment-friendly judging module by the server;

the environmental protection grade of an environmental protection monitoring area in an industrial park is judged through an environmental protection judging module, an enterprise pollution threshold value, a gas pollution threshold value and a water source pollution threshold value which are stored in a server are obtained, an enterprise pollution value is compared with the enterprise pollution threshold value, a gas pollution mean value is compared with the gas pollution threshold value, a water source pollution mean value is compared with the water source pollution threshold value, if the enterprise pollution value YWu, the gas pollution mean value QWu and the water source pollution mean value SWu are all smaller than the water source pollution threshold value, an environmental protection monitoring normal signal is generated, and if any one of the enterprise pollution value, the gas pollution mean value or the water source pollution mean value is larger than or equal to a corresponding set valueThe threshold value is then calculated by the formula

Calculating to obtain an area pollution coefficient WXu of the environmental monitoring area, obtaining a current environmental monitoring level of the environmental monitoring area and an environmental setting table stored in the server, comparing the area pollution coefficient of the environmental monitoring area with the current environmental monitoring level, generating an environmental monitoring normal signal if the current environmental monitoring level is matched with the area pollution coefficient, generating an environmental monitoring allocation signal if the current environmental monitoring level is not matched with the area pollution coefficient, feeding the environmental monitoring normal signal or the environmental monitoring allocation signal back to the server by an environmental judgment module, not performing any operation if the server receives the environmental monitoring normal signal, generating an allocation instruction to load to the management terminal if the server receives the environmental monitoring allocation signal, and allocating the environmental monitoring strength of the specified environmental monitoring area by a manager at the management terminal after receiving the allocation instruction, the method sets matched environmental protection monitoring strength for the industrial park by combining production pollution factors and environmental factors, and adaptively adjusts the environmental protection monitoring strength of the industrial park.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula of the latest real situation obtained by collecting a large amount of data and performing software simulation, the preset parameters in the formula are set by the technical personnel in the field according to the actual situation, the weight coefficient and the scale coefficient are specific numerical values obtained by quantizing each parameter, and the subsequent comparison is convenient.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The intelligent environment-friendly monitoring system for the industrial park is characterized by comprising a data acquisition module, an enterprise analysis module, a login terminal, an enterprise monitoring module, an environment-friendly judgment module, an environment monitoring module, a region division module and a server, wherein the login terminal comprises an enterprise terminal and a management terminal, the enterprise terminal is used for registering the login system after enterprise information is input by an enterprise staying in the industrial park and sending the enterprise information to the server, the server sends the enterprise information to the enterprise analysis module, the enterprise analysis module is used for analyzing the enterprise staying in the industrial park according to the enterprise information, the pollution level of the enterprise staying in the industrial park is obtained according to the affiliated industry and the operation range and fed back to the server, and the server sets a corresponding environment-friendly monitoring coefficient for the enterprise according to the pollution level;

the region division module is used for carrying out region division on the industrial park, obtaining a plurality of environment-friendly monitoring regions u through region division and feeding the environment-friendly monitoring regions u back to the server, wherein u is a positive integer 1, 2, … …, and z is a positive integer; the data acquisition module is used for acquiring environmental data and enterprise data of the environment-friendly monitoring area and sending the environmental data and the enterprise data to the server, and the server sends the environmental data to the environment monitoring module and sends the enterprise data to the enterprise monitoring module;

the environment monitoring module is used for monitoring the environment condition of an environment-friendly monitoring area in the industrial park to obtain a gas pollution mean value and a water source pollution mean value in the environment-friendly monitoring area and feeding back the gas pollution mean value and the water source pollution mean value to the server; the enterprise monitoring module is used for monitoring enterprises in the environment-friendly monitoring area to obtain an enterprise pollution value of the environment-friendly monitoring area and feeding the enterprise pollution value back to the server, the server sends a gas pollution mean value, a water source pollution mean value and an enterprise pollution value in the environment-friendly monitoring area to the environment-friendly judging module, the environment-friendly judging module is used for judging the environment-friendly grade of the environment-friendly monitoring area in the industrial park, an environment-friendly monitoring normal signal or an environment-friendly monitoring allocation signal is generated and fed back to the server, and if the server receives the environment-friendly monitoring normal signal, no operation is performed; and if the server receives the environment monitoring allocation signal, generating an allocation instruction and loading the allocation instruction to the management terminal, and after receiving the allocation instruction, a manager at the management terminal is used for allocating the environment protection monitoring force of the specified environment protection monitoring area.

2. The intelligent environmental monitoring system for industrial park according to claim 1, wherein the enterprise information includes enterprise name, industry, enterprise type and operation scope;

the management terminal is used for registering a login system after a manager in the industrial park inputs personal information and sending the personal information to the server;

the personal information includes the name of the manager and the second-hand phone number.

3. The intelligent environmental monitoring system for industrial park as recited in claim 1, wherein the pollution levels include heavily polluted enterprises, moderately polluted enterprises, lightly polluted enterprises and pollution-free enterprises.

4. The intelligent environmental monitoring system of claim 1, wherein the environmental monitoring coefficients are set as follows:

if the enterprise is a heavily polluted enterprise, the environmental protection monitoring coefficient of the enterprise is alpha 1;

if the enterprise is a moderate pollution enterprise, the environmental protection monitoring coefficient of the enterprise is alpha 2;

if the enterprise is slightly polluted, the environmental protection monitoring coefficient of the enterprise is alpha 3;

if the enterprise is pollution-free, the environmental protection monitoring coefficient of the enterprise is alpha 4.

5. The intelligent environmental monitoring system for industrial parks as claimed in claim 4, wherein the value of the environmental monitoring coefficient α 1 is greater than the value of the environmental monitoring coefficient α 2, the value of the environmental monitoring coefficient α 2 is greater than the value of the environmental monitoring coefficient α 3, and the value of the environmental monitoring coefficient α 3 is greater than the value of the environmental monitoring coefficient α 4.

6. The intelligent environmental monitoring system of claim 1, wherein the environmental data includes the harmful gas molecular weight, the harmful gas temperature, the harmful gas pressure, the harmful gas volume concentration of the gas samples in the environmental monitoring area, and the pH value, turbidity value, dissolved oxygen value, and sulfide value of the water source samples in the environmental monitoring area;

the enterprise data comprises the number of enterprises in the environment-friendly monitoring area, pollution levels of the enterprises and corresponding environment-friendly monitoring coefficients.

7. The intelligent environmental monitoring system of claim 1, wherein the monitoring process of the environmental monitoring module is as follows:

step S1: marking the gas sample in the environment-friendly monitoring area as Qui, i is 1, 2, … …, x, x is a positive integer, and i represents the number of the gas sample;

step S2: acquiring harmful gas molecular weight FLQui, harmful gas temperature WDQui, harmful gas pressure YQQui and harmful gas volume concentration TNQui of a plurality of gas samples in an environment-friendly monitoring area;

step S3: calculating gas pollution values QWQui of a plurality of gas samples in the environment-friendly monitoring area through a formula QWQui ═ (FLQui/22.4) x [273/(273+ WDQui) ] × [ YQQui/101325] × TNQui;

step S4: obtaining the pH value Puui, the turbidity value ZQui, the dissolved oxygen value RYQui and the sulfide value LHQui of a plurality of water source samples in an environment-friendly monitoring area;

step S5: calculating a water source pollution value SWQui of a plurality of gas samples in the environment-friendly monitoring area through a formula SWQui ═ Pqui-8 |. times a1+ ZQui x a2-RYQui x a3+ LHQui x a 4; in the formula, a1, a2, a3 and a4 are all weight coefficients with fixed numerical values, and the values of a1, a2, a3 and a4 are all larger than zero;

step S6: and adding the gas pollution values of a plurality of gas samples and the water source pollution value of the water source sample, and averaging to obtain a gas pollution average value QWu and a water source pollution average value SWu in the environment-friendly monitoring area.

8. The intelligent environmental monitoring system for industrial parks as claimed in claim 1, wherein the monitoring process of the enterprise monitoring module is as follows:

step SS 1: acquiring the number of enterprises in an environment-friendly monitoring area and the pollution level of the enterprises;

step SS 2: respectively counting the number of heavily-polluted enterprises, moderately-polluted enterprises, slightly-polluted enterprises and non-polluted enterprises in an environment-friendly monitoring area to obtain the number ZZDu of the heavily-polluted enterprises, the number ZDu of the moderately-polluted enterprises, the number QDu of the slightly-polluted enterprises and the number WDu of the non-polluted enterprises;

step SS 3: acquiring an environment-friendly monitoring coefficient corresponding to the pollution level of an enterprise;

step SS 4: the enterprise pollution value YWu of the environmental protection monitoring area is calculated by a formula YWu, wherein ZZDu is multiplied by alpha 1+ ZDu is multiplied by alpha 2+ QDu is multiplied by alpha 3+ WDu is multiplied by alpha 4.

9. The intelligent environmental monitoring system of claim 1, wherein the environmental determination module is configured to perform the following steps:

the method comprises the following steps: acquiring an enterprise pollution threshold value, a gas pollution threshold value and a water source pollution threshold value which are stored in a server, comparing an enterprise pollution value with the enterprise pollution threshold value, comparing a gas pollution mean value with the gas pollution threshold value, and comparing a water source pollution mean value with the water source pollution threshold value;

step two: if the enterprise pollution value YWu, the gas pollution mean value QWu and the water source pollution mean value SWu are all smaller than the water source pollution threshold value, generating an environment-friendly monitoring normal signal;

if any one of the enterprise pollution value, the gas pollution mean value or the water source pollution mean value is larger than or equal to the corresponding set threshold value, entering the next step;

step three: by the formula

Calculating to obtain an area pollution coefficient WXu of the environment-friendly monitoring area; in the formula, b1, b2 and b3 are all proportionality coefficients with fixed numerical values, the values of b1, b2 and b3 are all larger than zero, and e is a natural constant;

step four: acquiring the current environment-friendly monitoring grade of an environment-friendly monitoring area, and then acquiring an environment-friendly setting table stored in a server, wherein the environment-friendly setting table comprises an area pollution coefficient and an environment-friendly monitoring grade corresponding to the area pollution coefficient;

step five: comparing the area pollution coefficient of the environment-friendly monitoring area with the current environment-friendly monitoring grade to an environment-friendly setting table;

if the current environmental protection monitoring grade is matched with the regional pollution coefficient, generating an environmental protection monitoring normal signal;

and if the current environmental protection monitoring grade is not matched with the regional pollution coefficient, generating an environmental protection monitoring allocation signal.

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