CN114358972A - Intelligent water affair comprehensive intelligent management method, cloud system and storage medium - Google Patents

Abstract

The invention discloses an intelligent water affair comprehensive intelligent management method, a cloud system and a storage medium. The intelligent water affair comprehensive intelligent management method comprises the following steps: acquiring corresponding basic information of a target sewage treatment plant; acquiring state parameters corresponding to each device of a target sewage treatment plant according to the device information corresponding to the target sewage treatment plant; collecting sewage treatment process parameters corresponding to a sewage treatment area of a target sewage treatment plant according to treatment area information corresponding to the target sewage treatment plant; collecting water quality parameters treated by a target sewage treatment plant; processing and analyzing state parameters corresponding to each device of a target sewage treatment plant, processing process parameters corresponding to a processing area and processed water quality parameters; the invention realizes the analysis of the integration of sewage treatment of the target sewage treatment plant, improves the management efficiency of urban sewage, and simultaneously effectively promotes the cyclic utilization rate of urban water resources.

Description

Intelligent water affair comprehensive intelligent management method, cloud system and storage medium

Technical Field

The invention belongs to the technical field of water affair management, and relates to an intelligent water affair comprehensive intelligent management method, a cloud system and a storage medium.

Background

Along with the rapid development of urban economy and the promotion of smart city construction, the water consumption of urban industrial water and residents is gradually increased, the treatment of industrial manufacturing sewage and resident domestic sewage becomes a key problem of urban water management, and in order to improve the treatment effect of urban sewage, the urban sewage needs to be managed;

the current management of urban sewage discharge mainly aims at the management of the process of waste water discharge generated by urban industry or residents, for example, the method, the device, the electronic equipment and the storage medium for monitoring the waste water discharge disclosed by the Chinese invention patent application with the application publication number of CN113240006A, the water quality index data of a water sample is determined by acquiring the spectrum of the water sample in real time, and whether the waste water discharge exists or not can be monitored in real time; when detecting the wastewater discharge, according to the spectral information, trace the source of the wastewater in time, obviously, the above scheme mainly aims at monitoring and treating the discharged wastewater, and cannot fundamentally improve the quality of the discharged wastewater, so that the current management mode for treating the urban discharged wastewater has the following problems:

1. before urban sewage is discharged, sewage treatment is carried out by a sewage treatment plant and then the sewage is discharged, the current management mode of the urban sewage does not monitor and manage the important intermediate link, so that the phenomenon that the quality of the urban sewage is unqualified cannot be effectively avoided, and the pollution influence of the urban sewage on urban water resources cannot be reduced;

2. the treatment process of municipal sewage directly determines the water quality after the municipal sewage treatment, and also directly determines the water quality of the municipal sewage discharge to a certain extent, and the current municipal discharge sewage management mode is not monitored by the sewage treatment process, so that the management efficiency of the municipal sewage cannot be improved, and the cyclic utilization rate of municipal water resources cannot be effectively improved.

Disclosure of Invention

In view of the above, in order to solve the problems in the background art, an intelligent water-affair comprehensive intelligent management method, a cloud system and a storage medium for a sewage treatment plant are provided, so that the accurate management of the urban sewage treatment is realized;

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

the invention provides a first aspect of an intelligent water affair comprehensive intelligent management method, which comprises the following steps:

step 1, acquiring basic information corresponding to a target sewage treatment plant, wherein the basic information corresponding to the target sewage treatment plant comprises equipment information, treatment area information, discharged water quality information and throwing area information corresponding to the target sewage treatment plant;

step 2, acquiring state parameters corresponding to each device of the target sewage treatment plant according to device information corresponding to the target sewage treatment plant, numbering the devices corresponding to the target sewage treatment plant according to a preset sequence, and sequentially marking the devices as 1,2, wherein the value of n is an integer;

step 3, collecting sewage treatment process parameters corresponding to the sewage treatment area of the target sewage treatment plant according to the treatment area information corresponding to the target sewage treatment plant;

step 4, collecting water quality parameters treated by a target sewage treatment plant;

step 5, processing and analyzing the state parameters corresponding to the equipment of the target sewage treatment plant, the processing process parameters corresponding to the processing area and the processed water quality parameters;

and 6, feeding back the results of the treatment and analysis of the target sewage treatment plant to the corresponding sewage treatment personnel of the target sewage treatment plant.

In the method, the equipment information comprises the number of equipment corresponding to a target sewage treatment plant, the type corresponding to each equipment, the standard state information corresponding to each equipment and the preset weight corresponding to each type of equipment; the processing area information comprises the number of biochemical pools corresponding to the target sewage treatment plant and standard processing information corresponding to each biochemical pool; the discharged water quality information is a standard discharged water quality parameter corresponding to a target sewage treatment plant; the throwing area information comprises the number of throwing pools and the corresponding positions of all the throwing pools.

In the method, the collecting of the state parameters corresponding to each device of the target sewage treatment plant comprises collecting of operation state parameters and collecting of power parameters, and the specific collecting process comprises the following steps:

acquiring the number of devices corresponding to a target sewage treatment plant and the type corresponding to each device;

detecting each operation state parameter of each device of a target sewage treatment plant by using an information detection unit carried by each device of the target sewage treatment plant, numbering each operation state parameter corresponding to each device of the target sewage treatment plant according to a preset sequence, sequentially marking the operation state parameters as 1,2, and acquiring a numerical value corresponding to each operation state parameter of each device of the target sewage treatment plant of each acquisition event section;

and calling power state parameters corresponding to each device of the target sewage treatment plant, wherein the power state parameters comprise output current, output voltage and output power, and acquiring numerical values corresponding to each power state parameter of each device of the target sewage treatment plant in each acquisition time period.

In the method, the specific acquisition process of the parameters of the sewage treatment process of the sewage treatment area of the target sewage treatment plant is as follows:

acquiring the number of biochemical tanks corresponding to a target sewage treatment plant, numbering the biochemical tanks corresponding to the target sewage treatment plant according to a preset sequence, and sequentially marking as 1,2,. once.k;

acquiring the number of biochemical areas corresponding to each biochemical pool of a target sewage treatment plant, wherein the biochemical pools comprise anaerobic areas, aerobic areas and anoxic areas, and the anaerobic areas, the aerobic areas and the anoxic areas corresponding to the biochemical pools of the target sewage treatment plant are respectively marked as a1, a2 and a3 in sequence;

and respectively collecting the sewage treatment process parameters of each biochemical area of each biochemical pool of the target sewage treatment plant by using the treatment process information collection unit, wherein the sewage treatment process parameters comprise sludge parameters and water parameters.

In the method, the water quality parameter after treatment of the target sewage treatment plant is acquired by using the water quality parameter acquisition unit to acquire the water quality parameter after treatment corresponding to the target sewage treatment plant, and the specific acquisition process is as follows:

the method comprises the steps of obtaining the number of throwing tanks of a target sewage treatment plant, numbering the throwing tanks of the target sewage treatment plant according to a preset sequence, and sequentially marking the throwing tanks as 1 and 2;

the water quality parameter acquisition unit is used for acquiring the water quality parameters corresponding to the water quality parameters in the feeding tanks of the target sewage treatment plant, and the numerical values corresponding to the water quality parameters in the feeding tanks of the target sewage treatment plant are obtained, wherein the water quality parameters comprise COD concentration, BOD concentration, pH value, suspended matter content and water color.

In the method, the processing and analyzing of the state parameters corresponding to each device of the target sewage treatment plant is used for processing and analyzing the operation state parameters and the power state parameters corresponding to each device of the target sewage treatment plant, and the specific processing and analyzing process comprises the following steps:

acquiring the number of equipment corresponding to a target sewage treatment plant, the type corresponding to each equipment and the numerical value corresponding to each running state parameter of each equipment;

calling a preset weight value corresponding to each equipment of each target sewage treatment plant according to the type corresponding to each equipment of the target sewage treatment plant;

acquiring a standard value corresponding to each operation state parameter of each device of a target sewage treatment plant and a standard value corresponding to each power state parameter;

comparing the numerical value corresponding to each operation state parameter of each equipment of the target sewage treatment plant with the numerical value corresponding to each standard operation state parameter of each equipment, and calculating the operation state conformity index of each equipment of the target sewage treatment plant by using a calculation formula;

comparing the value corresponding to each power state parameter of each equipment of the target sewage treatment plant with the standard value corresponding to each power state parameter of each equipment, and calculating the power state conformity index of each equipment of the target sewage treatment plant by using a calculation formula;

calculating and calculating a state conformity index corresponding to each device of a target sewage treatment plant by using a calculation formula, comparing the state conformity index corresponding to each device of the target pollution treatment plant with a preset device preset state index, recording the device of the target pollution treatment plant as warning device if the state conformity index corresponding to a certain device of the target pollution treatment plant reaches an early warning value, and extracting the number of the warning devices and the type corresponding to each warning device.

In the method, the treatment and analysis of the treatment process parameters of the treatment area of the target sewage treatment plant are used for treating and analyzing the sludge parameters and the water parameters in the anaerobic zone, the aerobic zone and the anoxic zone of each biochemical pool of the target sewage treatment plant, and the specific treatment and analysis process comprises the following steps:

acquiring the number of biochemical pools corresponding to a target sewage treatment plant, and respectively calling a numerical value corresponding to each sludge parameter and a numerical value corresponding to each water body parameter in each biochemical area of each biochemical pool of the target sewage treatment plant;

acquiring standard values corresponding to sludge parameters and water parameters of biochemical regions of biochemical pools of a target sewage treatment plant;

comparing the value corresponding to each sludge parameter of each biochemical area of each biochemical pool of the target sewage treatment plant with the standard value corresponding to each sludge parameter of each biochemical area of each biochemical pool corresponding to the value, and calculating the sludge treatment coincidence index of each biochemical area of each biochemical pool of the target sewage treatment plant;

comparing the value corresponding to each water body parameter of each biochemical area of each biochemical pool of the target sewage treatment plant with the standard value corresponding to each water body parameter of each biochemical area of each biochemical pool corresponding to the value, and calculating the water body treatment conformity index of each biochemical area of each biochemical pool of the target sewage treatment plant;

and calculating the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant by using a calculation formula, comparing the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant with a preset regulation and control demand index of each biochemical pool, and screening the quantity of the biochemical pools needing to be regulated of the target sewage treatment plant and the information of the biochemical areas needing to be regulated and controlled corresponding to each biochemical pool needing to be regulated and controlled.

In the method, the treatment and analysis of the water quality parameters after treatment in the target sewage treatment plant is used for treating and analyzing the water quality parameters corresponding to the feeding tanks of the target sewage treatment plant, and the specific treatment and analysis process comprises the following steps:

acquiring numerical values corresponding to water quality parameters of feeding tanks of a target sewage treatment plant;

acquiring standard values corresponding to various discharged water quality parameters of a target sewage treatment plant;

comparing the value corresponding to each water quality parameter of each feeding pool of the target sewage treatment plant with the standard value corresponding to each discharged water quality parameter, and calculating the water quality conformity index of each feeding pool of the target sewage treatment plant;

and comparing the water quality emission conformity index of each throwing pool of the target sewage treatment plant with a preset emission water quality conformity index, and screening the quantity of the throwing pools with unqualified emission water quality and the corresponding positions of the throwing pools with unqualified emission water quality.

The invention provides a cloud system, which comprises a processor, a machine-readable storage medium and a network interface, wherein the machine-readable storage medium, the network interface and the processor are connected through a bus system, the network interface is used for being in communication connection with at least one construction project supervision terminal, the machine-readable storage medium is used for storing programs, instructions or codes, and the processor is used for executing the programs, the instructions or the codes in the machine-readable storage medium, so that the intelligent water affair comprehensive intelligent management method is provided.

A third aspect of the present invention provides a storage medium, where a computer program is burned in the storage medium, and when the computer program runs in a memory of a server, the method of the present invention is implemented.

Compared with the prior art, the intelligent comprehensive water affair management method realizes the analysis of the integration of the sewage treatment of the target sewage treatment plant by acquiring and analyzing the equipment state parameter, the sewage treatment process parameter and the treated water quality parameter of the target sewage treatment plant, effectively solves the problem that the prior management mode of the urban discharged sewage does not monitor and manage the important intermediate link of the sewage treatment process, further can not effectively avoid the problem of unqualified urban discharged sewage quality, effectively reduces the pollution influence of the urban sewage on the urban water resource to a certain extent, greatly improves the management efficiency of the urban sewage, and simultaneously effectively promotes the cyclic utilization rate of the urban water resource.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a diagram of the steps of the method of the present invention.

Detailed Description

While the foregoing is directed to embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow.

Referring to fig. 1, a method for intelligent water affair comprehensive intelligent management includes the following steps:

step 1, acquiring basic information corresponding to a target sewage treatment plant, wherein the basic information corresponding to the target sewage treatment plant comprises equipment information, treatment area information, discharged water quality information and throwing area information corresponding to the target sewage treatment plant;

specifically, the equipment information includes the number of equipment corresponding to the target sewage treatment plant, the type corresponding to each equipment, the standard state information corresponding to each equipment, and the preset weight corresponding to each type of equipment; the processing area information comprises the number of biochemical pools corresponding to the target sewage treatment plant and standard processing information corresponding to each biochemical pool; the discharged water quality information is a standard discharged water quality parameter corresponding to a target sewage treatment plant; the throwing area information comprises the number of throwing pools and the corresponding positions of all the throwing pools.

The preset weight of each type of equipment is used for setting according to the corresponding importance of each type of equipment in the sewage treatment process;

the device type comprises main equipment and auxiliary equipment, wherein in a specific embodiment, the main equipment comprises a blower, a water pump, a stirrer and the like, the auxiliary equipment comprises metering equipment, water level control equipment and the like, and the metering equipment comprises a small metering unit such as a flowmeter and the like;

the equipment standard state information comprises equipment standard operation state information and standard power state information, the equipment standard operation state information comprises the quantity of equipment operation state parameters, standard values corresponding to the operation state parameters and allowable standard errors corresponding to the operation state parameters, and the equipment standard power state information comprises the quantity of the equipment power state parameters, the standard values corresponding to the power state parameters and the allowable standard errors corresponding to the power state parameters;

the standard treatment information corresponding to the biochemical pool comprises the number of biochemical areas corresponding to the biochemical pool and standard purification information of each biochemical area, wherein the biochemical areas comprise anaerobic areas, aerobic areas and anoxic areas, and the standard purification information of each biochemical area comprises standard values corresponding to sludge parameters and standard values corresponding to water parameters;

wherein the standard discharge water quality parameters comprise standard discharge water body COD concentration, standard discharge water body BOD concentration, standard discharge water body pH value, standard discharge water body suspended matter content and standard discharge water body color.

In one embodiment, for example, the standard operating condition parameters of the blower include standard air flow and standard air pressure values and standard motor speed.

According to the invention, by acquiring the corresponding basic information of the target sewage treatment plant, effective reference data is provided for the subsequent analysis of the equipment state parameters in the target sewage treatment plant, the sewage treatment process parameters and the water quality parameters after sewage treatment, so that the analysis efficiency of the equipment state parameter analysis, the sewage treatment process parameters and the water quality parameter analysis after sewage treatment is effectively improved.

Step 2, acquiring state parameters corresponding to each device of the target sewage treatment plant according to device information corresponding to the target sewage treatment plant, numbering the devices corresponding to the target sewage treatment plant according to a preset sequence, and sequentially marking the devices as 1,2, wherein the value of n is an integer;

specifically, the state parameter acquisition corresponding to each device of the target sewage treatment plant comprises operation state parameter acquisition and power parameter acquisition, and the specific acquisition process comprises the following steps:

acquiring the number of devices corresponding to a target sewage treatment plant and the type corresponding to each device;

detecting each operation state parameter of each device of a target sewage treatment plant by using an information detection unit carried by each device of the target sewage treatment plant, numbering each operation state parameter corresponding to each device of the target sewage treatment plant according to a preset sequence, sequentially marking the operation state parameters as 1,2, and acquiring a numerical value corresponding to each operation state parameter of each device of the target sewage treatment plant of each acquisition event section;

and calling power state parameters corresponding to each device of the target sewage treatment plant, wherein the power state parameters comprise output current, output voltage and output power, and acquiring numerical values corresponding to each power state parameter of each device of the target sewage treatment plant in each acquisition time period.

It should be noted that, in one embodiment, for example, the operation state parameters corresponding to the blower of the target sewage treatment plant include an air volume and an air pressure value and a blower motor rotation speed, wherein the detection of the blower operation state parameters is collected by using a micro-pressure meter, a first acceleration sensor and an air volume detector in the information detection unit, the micro-pressure meter is used for detecting the air pressure value corresponding to the blower, the air volume detector is used for detecting the air volume value corresponding to the blower, the first acceleration sensor is used for detecting the rotation speed of the blower motor, and for example, the operation state parameters corresponding to the water pump of the target sewage treatment plant include a flow rate corresponding to the water pump, a pump head pump shaft rotation speed, wherein the detection of the water pump operation state parameters is performed by using a flow meter, a head pressure gauge and a second acceleration sensor in the information detection unit, the flowmeter is used for detecting the flow that the water pump corresponds, and head measuring apparatu is used for detecting the lift that the water pump corresponds, and second acceleration sensor is used for detecting water pump shaft rotational speed.

According to the embodiment of the invention, the operating states of the equipment of the target sewage treatment plant are intuitively displayed by acquiring the corresponding state parameters of the equipment of the target sewage treatment plant, the stability of the sewage treatment process of the target sewage treatment plant is effectively ensured, and the sewage treatment efficiency and the sewage treatment quality of the sewage treatment plant are effectively improved to a certain extent.

Step 3, collecting sewage treatment process parameters corresponding to the sewage treatment area of the target sewage treatment plant according to the treatment area information corresponding to the target sewage treatment plant;

specifically, the specific collection process of the parameters of the sewage treatment process of the sewage treatment area of the target sewage treatment plant is as follows:

acquiring the number of biochemical tanks corresponding to a target sewage treatment plant, numbering the biochemical tanks corresponding to the target sewage treatment plant according to a preset sequence, and sequentially marking as 1,2,. once.k;

acquiring the number of biochemical areas corresponding to each biochemical pool of a target sewage treatment plant, wherein the biochemical pools comprise anaerobic areas, aerobic areas and anoxic areas, and the anaerobic areas, the aerobic areas and the anoxic areas corresponding to the biochemical pools of the target sewage treatment plant are respectively marked as a1, a2 and a3 in sequence;

and respectively collecting the sewage treatment process parameters of each biochemical area of each biochemical pool of the target sewage treatment plant by using the treatment process information collection unit, wherein the sewage treatment process parameters comprise sludge parameters and water parameters.

The sludge parameters comprise sludge reflux amount, sludge color and sludge concentration, and the water parameters comprise sewage dissolved oxygen concentration, pH value and ammonia nitrogen concentration; the processing process information acquisition unit comprises a first camera, an ultrasonic flowmeter and a sludge concentration meter, the device comprises a dissolved oxygen tester, a pH value detector and an ammonia nitrogen concentration detector, wherein a first camera is used for collecting corresponding sludge colors in each biochemical area of each biochemical pool of a target sewage treatment plant, the dissolved oxygen tester is used for collecting the corresponding dissolved oxygen concentration of sewage in each biochemical area of the target sewage treatment plant, an ultrasonic flow meter is used for collecting the corresponding sludge backflow amount in each biochemical area of each biochemical pool of the target sewage treatment plant, a sludge concentration meter is used for collecting the corresponding sludge concentration in each biochemical area of each biochemical pool of the target sewage treatment plant, the pH value detector is used for detecting the corresponding pH value of the sewage in each biochemical area of each biochemical pool of the target sewage treatment plant, and the ammonia nitrogen concentration detector is used for detecting the corresponding ammonia nitrogen concentration of the sewage in each biochemical area of each biochemical pool of the target sewage treatment plant.

The embodiment of the invention can effectively judge the sewage treatment degree by the activated sludge by collecting the sludge parameters and the water body parameters corresponding to each biochemical area of each biochemical pool of the target sewage treatment plant, and simultaneously provides an information basis for the workers of the sewage treatment plant to the sewage treatment and management in the biochemical pools.

Step 4, collecting water quality parameters treated by a target sewage treatment plant;

specifically, the water quality parameter acquisition after the treatment of the target sewage treatment plant acquires the water quality parameter after the treatment corresponding to the target sewage treatment plant by using the water quality parameter acquisition unit, and the specific acquisition process is as follows:

the method comprises the steps of obtaining the number of throwing tanks of a target sewage treatment plant, numbering the throwing tanks of the target sewage treatment plant according to a preset sequence, and sequentially marking the throwing tanks as 1 and 2;

the water quality parameter acquisition unit is used for acquiring the water quality parameters corresponding to the water quality parameters in the feeding tanks of the target sewage treatment plant, and the numerical values corresponding to the water quality parameters in the feeding tanks of the target sewage treatment plant are obtained, wherein the water quality parameters comprise COD concentration, BOD concentration, pH value, suspended matter content and water color.

The feeding tank refers to a sewage placing area after treatment; quality of water parameter detecting element includes the second camera, the COD detector, the BOD detector, PH meter and SS concentration detection appearance, the second camera is used for gathering the water colour that corresponds in each input pond of target sewage treatment plant, the COD detector is used for gathering the water COD concentration that corresponds in each input pond of target sewage treatment plant, wherein the BOD detector is used for gathering the water BOD concentration that corresponds in each input pond of target sewage treatment plant, the PH meter is used for detecting the water pH valve that corresponds in each input pond of target sewage treatment plant, SS concentration detection appearance is used for detecting the suspended solid content that corresponds in each input pond of target sewage treatment plant.

According to the embodiment of the invention, the safety and scientificity of sewage discharge are further ensured by collecting the water quality parameters treated by the target sewage treatment plant, the phenomenon of discharging sewage with unqualified water quality can be effectively avoided, and the rationality of sewage discharge is improved.

Step 5, processing and analyzing the state parameters corresponding to the equipment of the target sewage treatment plant, the processing process parameters corresponding to the processing area and the processed water quality parameters;

specifically, the processing and analyzing of the state parameters corresponding to each device of the target sewage treatment plant is used for processing and analyzing the operation state parameters and the power state parameters corresponding to each device of the target sewage treatment plant, and the specific processing and analyzing process includes the following steps:

1) acquiring the number of equipment corresponding to a target sewage treatment plant, the type corresponding to each equipment and the numerical value corresponding to each running state parameter of each equipment;

2) calling a preset weight value corresponding to each equipment of each target sewage treatment plant according to the type corresponding to each equipment of the target sewage treatment plant;

3) acquiring a standard value corresponding to each operation state parameter of each device of a target sewage treatment plant and a standard value corresponding to each power state parameter;

4) comparing the numerical value corresponding to each operation state parameter of each equipment of the target sewage treatment plant with the numerical value corresponding to each standard operation state parameter of each equipment, and calculating the operation state conformity index of each equipment of the target sewage treatment plant by using a calculation formula;

wherein the specific calculation formula is

YZ_r ^tIndicating the operational state of the r-th equipment of the target sewage treatment plant conforms to the index, ZT_r ^tA value YT corresponding to the tth running state parameter of the tth equipment of the target sewage treatment plant_r ^tThe standard value corresponding to the tth operation state parameter of the tth equipment of the target sewage treatment plant is represented, r represents the equipment corresponding to the target sewage treatment plant, r is 1,2, the.

5) Comparing the value corresponding to each power state parameter of each equipment of the target sewage treatment plant with the standard value corresponding to each power state parameter of each equipment, and calculating the power state conformity index of each equipment of the target sewage treatment plant by using a calculation formula;

wherein the specific calculation formula is

DZ_rRepresenting that the power state corresponding to the r-th equipment of the target sewage treatment plant conforms to the index, alpha 1, alpha 2 and alpha 3 are preset coefficients, DV_r、DL_r、GL_rRespectively represents the output current value, the output voltage value, the output power value and the YV corresponding to the r-th equipment of the target sewage treatment plant_r、YL_r、YG_rThe standard output current value, the standard output voltage value and the standard output power value, delta V, corresponding to the r-th equipment of the target sewage treatment plant respectively_r、ΔL_r、ΔG_rRespectively representing standard allowable errors corresponding to the output current value, the output voltage value and the output power value of the r-th equipment of the target sewage treatment plant.

6) Calculating and calculating a state conformity index corresponding to each device of a target sewage treatment plant by using a calculation formula, comparing the state conformity index corresponding to each device of the target pollution treatment plant with a preset device preset state index, recording the device of the target pollution treatment plant as warning device if the state conformity index corresponding to a certain device of the target pollution treatment plant reaches an early warning value, and extracting the number of the warning devices and the type corresponding to each warning device.

Wherein, the corresponding state conformity index calculation formula of each device of the target sewage treatment plant is HT_r＝(β1*YZ_r+β2*DZ_r)*λ_r，HT_rThe corresponding state of the ith device of the target sewage plant is expressed to accord with the index, beta 1 and beta 2 are preset coefficients, and lambda_rAnd the preset weight value corresponding to the nth equipment of the target sewage plant is represented.

According to the embodiment of the invention, the running state parameters and the power state parameters corresponding to the equipment of the target sewage treatment plant are analyzed, so that the running efficiency of the equipment of the target sewage treatment plant is effectively ensured, and the stability and the reliability of the treatment of the corresponding treatment process of the sewage treatment process of the target sewage treatment plant are improved.

Specifically, the treatment and analysis of the treatment process parameters of the treatment area of the target sewage treatment plant is used for treating and analyzing the sludge parameters and water parameters in the anaerobic zone, the aerobic zone and the anoxic zone of each biochemical pool of the target sewage treatment plant, and the specific treatment and analysis process comprises the following steps:

s1, acquiring the number of biochemical pools corresponding to the target sewage treatment plant, and respectively calling the numerical value corresponding to each sludge parameter and the numerical value corresponding to each water body parameter in each biochemical area of each biochemical pool of the target sewage treatment plant;

s2, acquiring standard values corresponding to sludge parameters and water parameters of biochemical regions of biochemical pools of a target sewage treatment plant;

s3, comparing the corresponding numerical value of each sludge parameter of each biochemical area of each biochemical pool of the target sewage treatment plant with the corresponding standard numerical value of each sludge parameter of each biochemical area of each biochemical pool corresponding to the numerical value, and calculating the sludge treatment coincidence index of each biochemical area of each biochemical pool of the target sewage treatment plant;

the specific calculation process of the sludge treatment conformity index of each biochemical area of each biochemical pool of the target sewage treatment plant is as follows:

s31, according to the numerical value corresponding to each sludge parameter in each biochemical area of each biochemical pool of the target sewage treatment plant, adjusting the sludge return flow and the sludge concentration of each sludge color corresponding to each biochemical area of each biochemical pool of the target sewage treatment plant;

s32, comparing the color of sludge corresponding to each biochemical area of each biochemical pool of the target sewage treatment plant with the color of standard sludge corresponding to each biochemical area of each biochemical pool of the target sewage treatment plant, recording the color of sludge corresponding to each biochemical area of a biochemical pool as eta if the color of sludge corresponding to each biochemical area of the biochemical pool is not consistent with the color of standard sludge corresponding to each biochemical area of the biochemical pool, and recording the color of sludge corresponding to each biochemical area of the biochemical pool as eta' if the color of sludge corresponding to each biochemical area of the biochemical pool is consistent with the color of standard sludge corresponding to each biochemical area of the biochemical pool;

s33, comparing the sludge return flow and the sludge concentration corresponding to each biochemical area of each biochemical pool of the target sewage treatment plant with the standard sludge return flow and the standard sludge concentration corresponding to each biochemical area of each biochemical pool, and calculating the sludge state coincidence index of each biochemical area of each biochemical pool of the target sewage treatment plant by using a calculation formula;

wherein the specific calculation formula is

WN_i ^dIndicates that the sludge state corresponding to the d biochemical area of the ith biochemical pool of the target sewage treatment plant conforms to the index, WH_i ^d、ND_i ^dRespectively represents the sludge reflux quantity, the sludge concentration and YH of the d biochemical area of the ith biochemical pool of the target sewage treatment plant_i ^d、YN_i ^dRespectively representing standard sludge reflux amount and standard sludge concentration corresponding to a d-th biochemical area of an i-th biochemical pool of a target sewage treatment plant, wherein i represents the biochemical pool corresponding to the target sewage treatment plant, i is 1,2, and a.

S34, calculating the sludge treatment coincidence index of each biochemical area of each biochemical pool of the target sewage treatment plant by using a calculation formula, wherein the specific calculation formula is WC_i ^d＝σ1*WY_i ^d+σ2*WN_i ^d，WC_i ^dIndicates that the sludge treatment corresponding to the d biochemical area of the ith biochemical pool of the target sewage treatment plant conforms to the index, sigma 1 and sigma 2 are preset coefficients, and WY_i ^dThe color of the sludge corresponding to the d biochemical area of the ith biochemical pool of the target sewage treatment plant is expressed as WY_i ^d∈(η,η′),η＜η′。

S4, comparing the value corresponding to each water body parameter of each biochemical area of each biochemical pool of the target sewage treatment plant with the standard value corresponding to each water body parameter of each biochemical area of each biochemical pool corresponding to the value, and calculating the water body treatment coincidence index of each biochemical area of each biochemical pool of the target sewage treatment plant;

wherein the specific calculation formula is

ST_i ^dIndicates that the water body treatment corresponding to the d biochemical area of the ith biochemical pool of the target sewage treatment plant conforms to the index,

respectively expressed as a predetermined coefficient, WS_i ^d、SJ_i ^d、AN_i ^dRespectively expressed as the dissolved oxygen concentration, the pH value, the ammonia nitrogen concentration and the YW corresponding to the sewage of the d biochemical area of the ith biochemical pool of the target sewage treatment plant_i ^d、YJ_i ^d、YA_i ^dRespectively expressing the standard dissolved oxygen concentration, the standard pH value and the standard ammonia nitrogen concentration corresponding to the sewage of the d biochemical area of the ith biochemical pool of the target sewage treatment plant;

s5, calculating the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant by using a calculation formula, comparing the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant with a preset regulation and control demand index of each biochemical pool, and screening the number of the biochemical pools needing to be regulated of the target sewage treatment plant and the information of the biochemical areas needing to be regulated and controlled corresponding to the biochemical pools needing to be regulated and controlled.

Wherein, the calculation formula of the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant is

TX_i ^dIndicating the regulation demand index corresponding to the d biochemical area of the ith biochemical pool of the target sewage treatment plant,

for the preset coefficient, YZ represents the preset treatment index of the biochemical tank.

It should be noted that the specific screening process is as follows: comparing the regulation demand index of each biochemical area of each biochemical pool of the target sewage treatment plant with a preset biochemical pool regulation demand index, if the regulation demand index corresponding to a certain biochemical area of a certain biochemical pool is greater than or equal to the corresponding preset value, marking the biochemical pool as a regulation demand biochemical pool, marking the biochemical area of the biochemical pool as a regulation demand biochemical area, if the regulation demand index corresponding to a certain biochemical area of a certain biochemical pool is less than the corresponding preset value, marking the biochemical area corresponding to the biochemical pool as a non-demand regulation biochemical area, when the regulation demand index corresponding to each biochemical area of a certain biochemical pool is less than the corresponding preset value, marking the biochemical pool as a non-demand regulation biochemical pool, and screening out the number of the biochemical pools to be regulated of the target sewage treatment plant, the number of the biochemical areas to be regulated corresponding to the biochemical pools and the corresponding types of the biochemical areas to be regulated, the corresponding types of the biochemical regions comprise anaerobic type, aerobic type and anoxic type.

The embodiment of the invention analyzes the sludge parameters and the water body parameters corresponding to the biochemical regions of the biochemical tanks of the target sewage treatment plant, improves the timeliness of regulation response of the biochemical regions needing to be regulated and controlled of the target biochemical tank, ensures the sewage treatment quality of the biochemical regions of the target sewage treatment plant, solves the problem that the prior management mode of urban sewage discharge does not monitor and manage the important intermediate link of the sewage treatment process, further can not effectively avoid the problem of unqualified quality of the urban sewage discharge, and effectively reduces the pollution influence of the urban sewage on urban water resources to a certain extent.

Specifically, the treatment and analysis of the water quality parameters after treatment in the target sewage treatment plant is used for treating and analyzing the water quality parameters corresponding to the feeding tanks of the target sewage treatment plant, and the specific treatment and analysis process comprises the following steps:

h1, obtaining a numerical value corresponding to each water quality parameter of each feeding pool of the target sewage treatment plant;

h2, obtaining standard values corresponding to the parameters of the water quality discharged from the target sewage treatment plant;

h3, comparing the value corresponding to each water quality parameter of each feeding pool of the target sewage treatment plant with the standard value corresponding to each discharged water quality parameter, and calculating the water quality conformity index of each feeding pool of the target sewage treatment plant;

the specific calculation process of the water quality conformity index of each feeding pool of the target sewage treatment plant is as follows:

h31, obtaining COD concentration, BOD concentration, pH value, suspended matter content and water color corresponding to the water body of each feeding pool of the target sewage treatment plant;

h32, acquiring the COD concentration, BOD concentration, pH value, suspended matter content and color of the standard discharge water body corresponding to the target sewage treatment plant;

h33, comparing the water color corresponding to each throwing pool of the target sewage treatment plant with the standard discharge water color corresponding to the target sewage treatment plant, and recording the water color coincidence index corresponding to the throwing pool of the target sewage treatment plant as the standard discharge water color if the water color in a certain throwing pool of the target sewage treatment plant is consistent with the standard discharge water color

Otherwise it is recorded as

H34, respectively comparing the COD concentration, the BOD concentration, the pH value and the suspended matter content corresponding to the water body of each throwing pool of the target sewage treatment plant with the COD concentration, the BOD concentration, the pH value and the suspended matter content of the standard discharge water body corresponding to the target sewage treatment plant, and calculating the basic water quality conformity index of each throwing pool of the target sewage treatment plant by using a calculation formula;

wherein, the calculation formula is

KZ_sRepresenting the basic water quality coincidence index corresponding to the s-th feeding pool of the target sewage treatment plant, wherein epsilon 1, epsilon 2, epsilon 3 and epsilon 4 respectively represent preset coefficients, and FC_s、FB_s、FX_s、FJ_sRespectively represents the COD concentration, the BOD concentration and the suspended matter content corresponding to the water body of the s-th feeding pool of the target sewage treatment plantpH value, FC_{Standard of merit}、FB_{Standard of merit}、FX_{Standard of merit}、FJ_{Standard of merit}The standard discharge water body COD concentration, the standard discharge water body BOD concentration, the standard discharge water body suspended matter content and the standard discharge water body pH value which correspond to the target sewage treatment plant are respectively expressed, s represents the number of the throwing pool of the target sewage treatment plant, and is 1, 2.

H35, calculating the water quality discharge conformity index of each feeding pool of the target sewage treatment plant by using a calculation formula, wherein the specific calculation formula is PL_s＝κ1*PY_s+κ2*KZ_s，PL_sExpressed as the water quality discharge corresponding to the s-th feeding pool of the target sewage treatment plant meets the index, kappa 1 and kappa 2 are preset coefficients, PY_sThe color of the water body of the s-th feeding pool of the target sewage treatment plant is corresponding to the index,

h4, comparing the water quality emission conformity index of each throwing pool of the target sewage treatment plant with a preset emission water quality conformity index, and screening the quantity of the throwing pools with unqualified emission water quality and the corresponding positions of the throwing pools with unqualified emission water quality.

Wherein, the number of the throwing pools with unqualified discharged water quality and the position specific screening process corresponding to each unqualified throwing pool with discharged water quality are as follows: comparing the water quality emission coincidence index of each throwing pool of the target sewage treatment plant with a preset emission water quality coincidence index, if the water quality emission coincidence index of a certain throwing pool of the target sewage treatment plant is greater than or equal to the preset emission water quality coincidence index, marking the throwing pool as a qualified water quality emission throwing pool, and if the water quality emission coincidence index of a certain throwing pool of the target sewage treatment plant is less than the preset emission water quality coincidence index, marking the throwing pool as an unqualified discharge throwing pool, counting the number of unqualified discharge throwing pools of the target sewage treatment plant, counting the number corresponding to each unqualified discharge throwing pool of the target sewage treatment plant, or the position corresponding to each unqualified discharge throwing pool.

According to the embodiment of the invention, the equipment state parameter, the sewage treatment process parameter and the treated water quality parameter of the target sewage treatment plant are analyzed, so that the integrated analysis of the sewage treatment of the target sewage treatment plant is realized, the pollution influence of urban sewage on urban water resources is effectively reduced, the management efficiency of the urban sewage is greatly improved, and meanwhile, the cyclic utilization rate of the urban water resources is effectively promoted and the treatment level of the urban sewage is improved.

And 6, feeding back the results of the treatment and analysis of the target sewage treatment plant to the corresponding sewage treatment personnel of the target sewage treatment plant.

Specifically, the results after treatment and analysis of the target sewage treatment plant comprise equipment state parameter treatment and analysis results, sewage treatment process parameter treatment and analysis results and treated water quality parameter treatment and analysis results; the equipment state parameter processing and analyzing result is the number of warning equipment of a target sewage treatment plant and the type corresponding to each warning equipment; the sewage treatment process parameter processing and analysis results are the number of biochemical pools needing to be regulated and controlled of a target sewage treatment plant, the number of biochemical areas needing to be regulated and controlled corresponding to each biochemical pool needing to be regulated and controlled and the corresponding types of the biochemical areas needing to be regulated and controlled corresponding to each biochemical pool needing to be regulated and controlled; the processed water quality parameters are processed and analyzed to obtain the number of the throwing pools with unqualified discharged water quality and the corresponding positions of the throwing pools with unqualified discharged water quality.

According to the embodiment of the invention, the results of the treatment and analysis of the target sewage treatment plant are fed back to the sewage treatment personnel corresponding to the target sewage treatment plant, so that the management efficiency and the response efficiency of the sewage treatment personnel corresponding to the target sewage treatment plant on sewage treatment are improved, and the operation and maintenance stability of the target sewage treatment plant is effectively ensured.

The invention provides a cloud system, which comprises a processor, a machine-readable storage medium and a network interface, wherein the machine-readable storage medium, the network interface and the processor are connected through a bus system, the network interface is used for being in communication connection with at least one construction project supervision terminal, the machine-readable storage medium is used for storing programs, instructions or codes, and the processor is used for executing the programs, the instructions or the codes in the machine-readable storage medium, so that the intelligent water affair comprehensive intelligent management method is provided.

A third aspect of the present invention provides a storage medium, where a computer program is burned in the storage medium, and when the computer program runs in a memory of a server, the method of the present invention is implemented.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims (10)

1. An intelligent water affair comprehensive intelligent management method is characterized in that: the method comprises the following steps:

step 1, acquiring basic information corresponding to a target sewage treatment plant, wherein the basic information corresponding to the target sewage treatment plant comprises equipment information, treatment area information, discharged water quality information and throwing area information corresponding to the target sewage treatment plant;

step 2, acquiring state parameters corresponding to each device of the target sewage treatment plant according to device information corresponding to the target sewage treatment plant, numbering the devices corresponding to the target sewage treatment plant according to a preset sequence, and sequentially marking the devices as 1,2, wherein the value of n is an integer;

step 3, collecting sewage treatment process parameters corresponding to the sewage treatment area of the target sewage treatment plant according to the treatment area information corresponding to the target sewage treatment plant;

step 4, collecting water quality parameters treated by a target sewage treatment plant;

step 5, processing and analyzing the state parameters corresponding to the equipment of the target sewage treatment plant, the processing process parameters corresponding to the processing area and the processed water quality parameters;

and 6, feeding back the results of the treatment and analysis of the target sewage treatment plant to the corresponding sewage treatment personnel of the target sewage treatment plant.

2. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the equipment information comprises the number of equipment corresponding to a target sewage treatment plant, the type corresponding to each equipment, standard state information corresponding to each equipment and a preset weight corresponding to each type of equipment; the processing area information comprises the number of biochemical pools corresponding to the target sewage treatment plant and standard processing information corresponding to each biochemical pool; the discharged water quality information is a standard discharged water quality parameter corresponding to a target sewage treatment plant; the throwing area information comprises the number of throwing pools and the corresponding positions of all the throwing pools.

3. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the state parameter acquisition corresponding to each device of the target sewage treatment plant comprises operation state parameter acquisition and electric power parameter acquisition, and the specific acquisition process comprises the following steps:

acquiring the number of devices corresponding to a target sewage treatment plant and the type corresponding to each device;

detecting each operation state parameter of each device of a target sewage treatment plant by using an information detection unit carried by each device of the target sewage treatment plant, numbering each operation state parameter corresponding to each device of the target sewage treatment plant according to a preset sequence, sequentially marking the operation state parameters as 1,2, and acquiring a numerical value corresponding to each operation state parameter of each device of the target sewage treatment plant of each acquisition event section;

and calling power state parameters corresponding to each device of the target sewage treatment plant, wherein the power state parameters comprise output current, output voltage and output power, and acquiring numerical values corresponding to each power state parameter of each device of the target sewage treatment plant in each acquisition time period.

4. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the specific acquisition process of the parameters of the sewage treatment process of the sewage treatment area of the target sewage treatment plant is as follows:

acquiring the number of biochemical tanks corresponding to a target sewage treatment plant, numbering the biochemical tanks corresponding to the target sewage treatment plant according to a preset sequence, and sequentially marking as 1,2,. once.k;

acquiring the number of biochemical areas corresponding to each biochemical pool of a target sewage treatment plant, wherein the biochemical pools comprise anaerobic areas, aerobic areas and anoxic areas, and the anaerobic areas, the aerobic areas and the anoxic areas corresponding to the biochemical pools of the target sewage treatment plant are respectively marked as a1, a2 and a3 in sequence;

and respectively collecting the sewage treatment process parameters of each biochemical area of each biochemical pool of the target sewage treatment plant by using the treatment process information collection unit, wherein the sewage treatment process parameters comprise sludge parameters and water parameters.

5. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the water quality parameter acquisition after the treatment of the target sewage treatment plant acquires the water quality parameter after the treatment corresponding to the target sewage treatment plant by using a water quality parameter acquisition unit, and the specific acquisition process is as follows:

the method comprises the steps of obtaining the number of throwing tanks of a target sewage treatment plant, numbering the throwing tanks of the target sewage treatment plant according to a preset sequence, and sequentially marking the throwing tanks as 1 and 2;

the water quality parameter acquisition unit is used for acquiring the water quality parameters corresponding to the water quality parameters in the feeding tanks of the target sewage treatment plant, and the numerical values corresponding to the water quality parameters in the feeding tanks of the target sewage treatment plant are obtained, wherein the water quality parameters comprise COD concentration, BOD concentration, pH value, suspended matter content and water color.

6. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the processing and analysis of the state parameters corresponding to the equipment of the target sewage treatment plant is used for processing and analyzing the operation state parameters and the power state parameters corresponding to the equipment of the target sewage treatment plant, and the specific processing and analysis process comprises the following steps:

acquiring the number of equipment corresponding to a target sewage treatment plant, the type corresponding to each equipment and the numerical value corresponding to each running state parameter of each equipment;

calling a preset weight value corresponding to each equipment of each target sewage treatment plant according to the type corresponding to each equipment of the target sewage treatment plant;

acquiring a standard value corresponding to each operation state parameter of each device of a target sewage treatment plant and a standard value corresponding to each power state parameter;

comparing the numerical value corresponding to each operation state parameter of each equipment of the target sewage treatment plant with the numerical value corresponding to each standard operation state parameter of each equipment, and calculating the operation state conformity index of each equipment of the target sewage treatment plant by using a calculation formula;

comparing the value corresponding to each power state parameter of each equipment of the target sewage treatment plant with the standard value corresponding to each power state parameter of each equipment, and calculating the power state conformity index of each equipment of the target sewage treatment plant by using a calculation formula;

calculating and calculating a state conformity index corresponding to each device of a target sewage treatment plant by using a calculation formula, comparing the state conformity index corresponding to each device of the target pollution treatment plant with a preset device preset state index, recording the device of the target pollution treatment plant as warning device if the state conformity index corresponding to a certain device of the target pollution treatment plant reaches an early warning value, and extracting the number of the warning devices and the type corresponding to each warning device.

7. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the treatment and analysis of the treatment process parameters of the treatment area of the target sewage treatment plant are used for treating and analyzing the sludge parameters and water parameters in the anaerobic zone, the aerobic zone and the anoxic zone of each biochemical pool of the target sewage treatment plant, and the specific treatment and analysis process comprises the following steps:

acquiring the number of biochemical pools corresponding to a target sewage treatment plant, and respectively calling a numerical value corresponding to each sludge parameter and a numerical value corresponding to each water body parameter in each biochemical area of each biochemical pool of the target sewage treatment plant;

acquiring standard values corresponding to sludge parameters and water parameters of biochemical regions of biochemical pools of a target sewage treatment plant;

comparing the value corresponding to each sludge parameter of each biochemical area of each biochemical pool of the target sewage treatment plant with the standard value corresponding to each sludge parameter of each biochemical area of each biochemical pool corresponding to the value, and calculating the sludge treatment coincidence index of each biochemical area of each biochemical pool of the target sewage treatment plant;

comparing the value corresponding to each water body parameter of each biochemical area of each biochemical pool of the target sewage treatment plant with the standard value corresponding to each water body parameter of each biochemical area of each biochemical pool corresponding to the value, and calculating the water body treatment conformity index of each biochemical area of each biochemical pool of the target sewage treatment plant;

and calculating the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant by using a calculation formula, comparing the regulation and control demand index of each biochemical area of each biochemical pool of the target sewage treatment plant with a preset regulation and control demand index of each biochemical pool, and screening the quantity of the biochemical pools needing to be regulated of the target sewage treatment plant and the information of the biochemical areas needing to be regulated and controlled corresponding to each biochemical pool needing to be regulated and controlled.

8. The intelligent water affair comprehensive intelligent management method according to claim 1, wherein: the treatment and analysis of the water quality parameters after the treatment of the target sewage treatment plant are used for treating and analyzing the water quality parameters corresponding to the feeding tanks of the target sewage treatment plant, and the specific treatment and analysis process comprises the following steps:

acquiring numerical values corresponding to water quality parameters of feeding tanks of a target sewage treatment plant;

acquiring standard values corresponding to various discharged water quality parameters of a target sewage treatment plant;

comparing the value corresponding to each water quality parameter of each feeding pool of the target sewage treatment plant with the standard value corresponding to each discharged water quality parameter, and calculating the water quality conformity index of each feeding pool of the target sewage treatment plant;

and comparing the water quality emission conformity index of each throwing pool of the target sewage treatment plant with a preset emission water quality conformity index, and screening the quantity of the throwing pools with unqualified emission water quality and the corresponding positions of the throwing pools with unqualified emission water quality.

9. A cloud system, characterized by: the cloud system comprises a processor, a machine-readable storage medium and a network interface, wherein the machine-readable storage medium, the network interface and the processor are connected through a bus system, the network interface is used for being in communication connection with at least one construction project supervision terminal, the machine-readable storage medium is used for storing programs, instructions or codes, and the processor is used for executing the programs, the instructions or the codes in the machine-readable storage medium so as to execute the intelligent water affair comprehensive intelligent management method according to any one of claims 1 to 8.

10. A storage medium, characterized by: the storage medium is burned with a computer program, and the computer program realizes the method of any one of the above claims 1-8 when running in the memory of the server.

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