CN110567508A - Ecological environment monitoring and treating method, electronic equipment and storage medium - Google Patents

Abstract

The invention discloses an ecological environment monitoring and treating method, which comprises the steps of monitoring the ecological environment of biological growth and obtaining environmental parameters; then, in a constant environment, simulating an ecological environment according to environmental parameters, adding corresponding organisms into the constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the ecological environment in real time; simulating a standard ecological environment according to standard environmental parameters in the same constant environment, adding the same organisms into the same constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the standard ecological environment in real time; and comparing the two, and further carrying out corresponding judgment according to the comparison result and processing. The invention also discloses an electronic device and a storage medium.

Description

Ecological environment monitoring and treating method, electronic equipment and storage medium

Technical Field

The invention relates to ecological environment monitoring, in particular to an ecological environment monitoring and governing method, electronic equipment and a storage medium.

background

For an ecological environment monitoring system, data acquisition is generally carried out on the environment only through simple detection equipment, the acquired data are simply analyzed and processed, and then the processing result is referred to workers. That is, the existing ecological environment monitoring system only stays at the stage of data detection, and does not relate to the processes of environmental management, control and the like after the data detection. In addition, the data acquisition is single, for example, the data types are few when the data acquisition is carried out on the common data such as temperature, humidity and PH value. In addition, when the collected data is analyzed, generally, whether the currently detected environmental parameters are the same as preset environmental parameters is judged through the preset environmental parameters to judge whether the environment meets the system requirements, but the preset environmental parameters are only manual experiences and are not actually tested, and finally, the judgment result of the ecological environment is inaccurate.

disclosure of Invention

in order to overcome the defects of the prior art, the invention aims to provide an ecological environment monitoring and treating method which not only can monitor the ecological environment in real time, but also can treat the ecological environment and the like.

It is a second object of the present invention to provide an electronic device that can monitor an ecological environment in real time and can manage the ecological environment.

The invention also aims to provide a computer readable storage medium which not only can monitor the ecological environment in real time, but also can control the ecological environment and the like.

One of the purposes of the invention is realized by adopting the following technical scheme:

The ecological environment monitoring and treating method includes the following steps:

A data acquisition step: monitoring the current ecological environment of biological growth and acquiring environmental parameters;

Biological test steps: in a constant environment, simulating the current ecological environment according to environmental parameters, adding corresponding organisms into the constant environment to simulate the growth process of the organisms, and acquiring the biological growth data of each organism in the current ecological environment in real time;

A biological simulation step: in the same constant environment, simulating a standard ecological environment according to standard environmental parameters, adding the same organisms into the same constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the standard ecological environment in real time;

A comparison step: comparing the biological growth data of each organism in the current ecological environment with the biological growth data of each organism in the standard ecological environment; when the comparison results are consistent, the current ecological environment is the optimal ecological environment for biological growth; when the comparison results are inconsistent, obtaining the difference between the standard ecological environment and the current ecological environment according to the biological growth rule, the comparison results, and the combination of the standard environmental parameters of the standard ecological environment and the ecological environmental parameters of the current ecological environment;

an adjusting step: and controlling the working state of the environment processing equipment according to the difference between the standard ecological environment and the current ecological environment, and further adjusting the corresponding environmental parameters of the ecological environment.

Further, the adjusting step further comprises: continuously monitoring the adjusted ecological environment, acquiring environmental parameters of the current ecological environment, and sequentially executing a biological test step, a biological simulation step, a comparison step and an adjustment step; until the comparison result is consistent, the ecological environment is considered as the environment for biological growth.

Further, environmental parameters include, but are not limited to: water quality environmental parameters, gas environmental parameters, and solid environmental parameters.

Further, the water quality environmental parameters include, but are not limited to: pH value, total phosphorus value, dissolved oxygen value, conductivity, turbidity, COD and ammonia nitrogen value.

Further, the gas environment parameters are acquired using one or more of the following sensors, including but not limited to: semiconductor gas sensors, electrochemical gas sensors, catalytic combustion gas sensors, thermal conductivity gas sensors, infrared gas sensors, and solid electrolyte gas sensors.

Further, the standard environment parameter obtaining process is as follows:

step S1: presetting original standard data according to historical environment data, and simulating a standard ecological environment in a biological standard box;

Step S2: adding the same organisms into the biological standard box to simulate the biological growth process of the organisms in a standard ecological environment, and monitoring biological growth data in real time;

Step S3: whether the biological growth data accord with biological growth rules or not, if so, the original standard data are standard environmental parameters; if not, updating the original standard data according to the biological growth rule and the biological growth data, simulating a standard ecological environment in the biological standard box according to the updated original standard data, and sequentially executing the step S2 and the step S3.

Further, biological growth data includes, but is not limited to: growth rate, reproductive cycle, activity response, regular frequency of organisms and the resulting changes in water and gas.

Further, the environmental processing devices include, but are not limited to: little electrolysis module of iron carbon, chemical fenton module, super oxygen aeration treatment module, water light decomposition treatment module, ultrafiltration module, reverse osmosis module, physical adsorption treatment module, low temperature evaporation treatment module and sludge separation module.

The second purpose of the invention is realized by adopting the following technical scheme:

an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor when executing the program performing the steps of the method for monitoring and remediating an ecological environment as employed in one of the objects of the present invention.

the third purpose of the invention is realized by adopting the following technical scheme:

A computer-readable storage medium, having stored thereon a computer program which, when executed by a processor, carries out the steps of the ecological environment monitoring and remediation method as employed in one of the objects of the invention.

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

The invention not only can realize the monitoring of the environment in the traditional environment automation system, but also can adjust the environment according to the environmental parameters of the current environment, so that the environment conforms to the optimal environment for biological growth; when monitoring and comparing the environmental parameters of the current environment, the invention simulates the current environment by setting a biological test box, thereby realizing the biological growth data of the organism in the current environment; the standard ecological environment is simulated through the biological standard box, so that biological growth data of organisms in the standard ecological environment are realized, and the biological standard box are compared to judge whether the current environment is the optimal environment for biological growth.

drawings

FIG. 1 is a flow chart of the ecological environment monitoring and governing method provided by the invention.

Detailed Description

the present invention will be further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the embodiments or technical features described below can be used to form a new embodiment without conflict.

the first embodiment is as follows:

The invention provides a biological environment monitoring and treatment system, which comprises: monitoring facilities, central controller, environmental processing equipment, biological test case, biological standard case and biological response monitoring module.

The monitoring device is used for monitoring the ecological environment of biological growth so as to obtain environmental parameters. The invention monitors the ecological environment of the biological growth and controls the ecological environment of the biological growth, thereby adjusting the ecological environment to the environment most suitable for the biological growth and further promoting the biological growth. For example, the invention can be applied to the treatment and control of the ecological environment in the breeding industry.

The environmental parameters may be: quality of water environmental parameter, gas environmental parameter and solid environmental parameter etc. for only detecting common environmental parameter such as temperature, humidity, pH value among the traditional environmental monitoring system, the data type of the environmental parameter who gathers is abundanter various. Of course, other environmental parameters may also be monitored as desired.

wherein, the water quality environmental parameters can be: pH value, total phosphorus value, dissolved oxygen value, conductivity, turbidity, COD, ammonia nitrogen value and the like. In the practical application process, the detection of the water quality environment can be realized by adopting the corresponding sensor.

The gas environment parameters can also be acquired by various sensors. Such as a semiconductor gas sensor, an electrochemical gas sensor, a catalytic combustion gas sensor, a thermal conductivity gas sensor, an infrared gas sensor, a solid electrolyte gas sensor, etc., which are corresponding and different depending on the environmental characteristics.

And (4) monitoring solid environment parameters such as moisture, trace elements and the like of soil.

The invention adopts an experimental simulation mode, under the condition that the same parameters are constant: the ecological environment for the biological growth is simulated, the standard environment for the biological growth is simulated, the ecological environment for the biological growth is adjusted by observing the growth data of the biological in the ecological environment and the growth data of the biological in the standard environment according to the comparison result of the growth data and the growth data of the biological in the standard environment, and the ecological environment for the biological growth is controlled by controlling corresponding equipment. That is, the environment in which the living being grows is simulated by setting a biological test chamber and a biological standard chamber. In order to ensure the consistency of the experimental data, a constant space environment is adopted for both the biological test box and the biological standard box.

Under the condition that other parameters are constant, the actual ecological environment of the biological growth is simulated in the biological test box according to the environmental parameters, then the corresponding organisms are added into the biological test box to simulate the biological growth process of the organisms in the ecological environment, and the biological growth data of each organism in the ecological environment are obtained in real time.

And by the same principle, under the condition of ensuring other parameters to be constant, simulating a standard ecological environment in the biological standard box according to the standard environmental parameters, adding corresponding organisms into the biological standard box to simulate the biological growth process of the organisms in the standard ecological environment, and acquiring biological growth data of each organism in the standard ecological environment in real time.

wherein, the standard ecological environment refers to the optimal ecological environment in the biological growth process.

the standard ecological environment can be derived from historical empirical data. In order to improve the accuracy of the standard data, the invention also corrects the standard ecological environment parameters obtained by the historical experience data.

that is to say:

Presetting original standard data according to historical environment data, and simulating a standard ecological environment in a biological standard box.

then the same organisms are added into the biological standard box to simulate the biological growth process of the organisms in the standard ecological environment, and the biological growth data are monitored in real time.

Whether the real-time biological growth data accord with biological growth rules or not is judged, and if yes, the original standard data are standard environmental parameters; if not, updating the original standard data according to the biological growth rule and the biological growth data, simulating a standard ecological environment in a biological standard box according to the updated original standard data, then adding the organisms for monitoring, and when the biological growth data accord with the biological growth rule, considering the updated original standard data as a standard environmental parameter.

the standard environmental parameters are corrected by the method to obtain new standard environmental parameters. Under the condition of ensuring other parameters to be constant, the standard ecological environment is simulated in the biological standard box, and biological growth data of organisms in the standard ecological environment are observed in real time.

And then comparing the biological growth data of the biological test box with the biological growth data of the biological standard box to obtain a comparison result. The biological growth data can be growth rate, reproduction period, activity response, regular frequency and the caused water and gas changes of the organisms.

When the comparison result shows that the biological growth data of the biological test box is consistent with the biological growth data of the biological standard box, the current ecological environment in the biological test box is suitable for biological growth, the adjustment of the ecological environment is not needed, and the current environmental parameters are kept.

Otherwise, the ecological environment in the current biological test box is not suitable for the growth of the organisms, so the ecological environment needs to be adjusted.

The biological response of different organisms is different under different environments, namely the growth data of the organisms are different. For example, when the pH value of water is high, the growth speed of some organisms is high; when the pH of the water is low, some organisms grow at a slow rate. In addition, since the ecological environment in the biological standard box is the standard ecological environment, when the actual ecological environment for biological growth is adjusted, the adjustment can be appropriately performed with reference to the difference between the standard ecological environment and the current ecological environment. That is, the difference between the ecological environment in the biological test chamber and the standard ecological environment in the biological standard chamber is obtained according to the biological growth rule, the comparison result of the biological growth data, the ecological environment in the biological test chamber and the standard ecological environment in the biological standard chamber.

The central controller controls the environmental processing equipment to adjust the ecological environment of the biological growth according to the difference. Environmental processing devices such as: the system comprises an iron-carbon micro-electrolysis module, a chemical Fenton module, a super-oxygen aeration treatment module, a water photo-electrolysis treatment module, an ultrafiltration module, a reverse osmosis module, a physical adsorption treatment module, a low-temperature evaporation treatment module, a sludge separation module and the like. The central controller modulates the corresponding environmental parameters in the ecological environment by controlling the operation of the modules.

After the ecological environment is adjusted by controlling the corresponding module, the current ecological environment is monitored and compared according to the method, and whether the current ecological environment is the optimal ecological environment for biological growth is judged. If not, the current ecological environment can be continuously adjusted according to the method provided by the invention, and the detection and judgment are carried out.

Example two:

The invention also provides an ecological environment monitoring and treating method, as shown in figure 1, applied to the first embodiment, specifically comprising the following steps:

step S11: and monitoring the ecological environment of the biological growth and acquiring environmental parameters.

And monitoring the ecological environment of biological growth to obtain environmental parameters.

step S12: in a constant environment, simulating an ecological environment according to environmental parameters, adding corresponding organisms into the constant environment to simulate the growth process of the organisms, and acquiring the biological growth data of each organism in the ecological environment in real time.

step S13: in the same constant environment, simulating a standard ecological environment according to standard environmental parameters, adding the same organisms into the same constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the standard ecological environment in real time.

Under the condition that other parameters are constant, the biological growth process of the organisms in the ecological environment and the biological growth process of the organisms in the standard ecological environment are simulated respectively, and the biological growth process is monitored in real time.

Step S14: and comparing according to the biological growth data of each organism in the ecological environment and the biological growth data of each organism in the standard ecological environment.

And comparing the monitoring results, and judging the comparison result.

Step S15: judging a comparison result, wherein when the comparison result is consistent, the ecological environment is the environment for biological growth; when the comparison result is not consistent, step S16 is performed.

when the results are consistent, the ecological environment at this time is the best environment for the growth of the organisms. Because the standard ecological environment is the optimal growth environment for the growth of the organisms that has been previously corrected.

step S16: and obtaining the difference between the standard ecological environment and the ecological environment according to the biological growth rule, the comparison result, the standard environmental parameters of the standard ecological environment and the ecological environmental parameters of the ecological environment.

When the results are inconsistent, adjustments to the ecological environment are required. Therefore, the difference between the environments can be obtained by following the biological growth rule and the comparison result and combining the environmental parameters of the ecological environment and the standard environmental parameters of the standard ecological environment.

Step S17: and controlling the working state of the environment treatment equipment according to the difference between the standard ecological environment and the ecological environment, and further adjusting the corresponding environmental parameters of the ecological environment. And controlling the corresponding equipment according to the difference to realize the adjustment of the environmental parameters of the ecological environment.

step S18: monitoring the adjusted ecological environment, acquiring environmental parameters, and sequentially performing step S12, step S13, step S14, step S15, step S16 and step S17; until when the comparison results in step S5 agree, the ecological environment at this time is considered as the environment in which the living organisms grow.

by continuously adjusting and updating in real time circulation, the ecological environment can be adjusted to the optimal growth environment for the growth of organisms.

For example, the water temperature suitable for living of biological strains and biological groups is 18 ℃, the PH value is 7.2, and the pH value is alkalinity. The central controller can control the work of the corresponding equipment according to the environmental difference so as to adjust the corresponding environmental parameters in the ecological environment. Namely: the water temperature is heated or cooled, and the pH value of the water is adjusted.

for the traditional environment automatic detection management system, the types of the environment data collected by the invention are richer and more than the traditional types. Meanwhile, when monitoring and comparing the environment of biological growth, the method is realized by adopting a simulation experiment mode, so that not only is the monitoring of the ecological environment realized, but also the treatment of the ecological environment is realized. The invention can be applied to the breeding industry of aquatic products, agricultural products and the like, and can control the ecological environment by carrying out the processes of testing, inspecting, post-production and final demonstration according to the invention.

Example three:

the invention also provides an electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the following steps when executing the program:

A data acquisition step: monitoring the current ecological environment of biological growth and acquiring environmental parameters;

Biological test steps: in a constant environment, simulating the current ecological environment according to environmental parameters, adding corresponding organisms into the constant environment to simulate the growth process of the organisms, and acquiring the biological growth data of each organism in the current ecological environment in real time;

A biological simulation step: in the same constant environment, simulating a standard ecological environment according to standard environmental parameters, adding the same organisms into the same constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the standard ecological environment in real time;

A comparison step: comparing the biological growth data of each organism in the current ecological environment with the biological growth data of each organism in the standard ecological environment; when the comparison results are consistent, the current ecological environment is the optimal ecological environment for biological growth; when the comparison results are inconsistent, obtaining the difference between the standard ecological environment and the current ecological environment according to the biological growth rule, the comparison results, and the combination of the standard environmental parameters of the standard ecological environment and the ecological environmental parameters of the current ecological environment;

an adjusting step: and controlling the working state of the environment processing equipment according to the difference between the standard ecological environment and the current ecological environment, and further adjusting the corresponding environmental parameters of the ecological environment.

further, the adjusting step further comprises: continuously monitoring the adjusted ecological environment, acquiring environmental parameters of the current ecological environment, and sequentially executing a biological test step, a biological simulation step, a comparison step and an adjustment step; until the comparison result is consistent, the ecological environment is considered as the environment for biological growth.

Further, environmental parameters include, but are not limited to: water quality environmental parameters, gas environmental parameters, and solid environmental parameters.

Further, the water quality environmental parameters include, but are not limited to: pH value, total phosphorus value, dissolved oxygen value, conductivity, turbidity, COD and ammonia nitrogen value.

further, the gas environment parameters are acquired using one or more of the following sensors, including but not limited to: semiconductor gas sensors, electrochemical gas sensors, catalytic combustion gas sensors, thermal conductivity gas sensors, infrared gas sensors, and solid electrolyte gas sensors.

further, the standard environment parameter obtaining process is as follows:

Step S1: presetting original standard data according to historical environment data, and simulating a standard ecological environment in a biological standard box;

step S2: adding the same organisms into the biological standard box to simulate the biological growth process of the organisms in a standard ecological environment, and monitoring biological growth data in real time;

Step S3: whether the biological growth data accord with biological growth rules or not, if so, the original standard data are standard environmental parameters; if not, updating the original standard data according to the biological growth rule and the biological growth data, simulating a standard ecological environment in the biological standard box according to the updated original standard data, and sequentially executing the step S2 and the step S3.

Further, biological growth data includes, but is not limited to: growth rate, reproductive cycle, activity response, regular frequency of organisms and the resulting changes in water and gas.

Further, the environmental processing devices include, but are not limited to: little electrolysis module of iron carbon, chemical fenton module, super oxygen aeration treatment module, water light decomposition treatment module, ultrafiltration module, reverse osmosis module, physical adsorption treatment module, low temperature evaporation treatment module and sludge separation module.

example four:

the present invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of:

A data acquisition step: monitoring the current ecological environment of biological growth and acquiring environmental parameters;

Biological test steps: in a constant environment, simulating the current ecological environment according to environmental parameters, adding corresponding organisms into the constant environment to simulate the growth process of the organisms, and acquiring the biological growth data of each organism in the current ecological environment in real time;

a biological simulation step: in the same constant environment, simulating a standard ecological environment according to standard environmental parameters, adding the same organisms into the same constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the standard ecological environment in real time;

a comparison step: comparing the biological growth data of each organism in the current ecological environment with the biological growth data of each organism in the standard ecological environment; when the comparison results are consistent, the current ecological environment is the optimal ecological environment for biological growth; when the comparison results are inconsistent, obtaining the difference between the standard ecological environment and the current ecological environment according to the biological growth rule, the comparison results, and the combination of the standard environmental parameters of the standard ecological environment and the ecological environmental parameters of the current ecological environment;

An adjusting step: and controlling the working state of the environment processing equipment according to the difference between the standard ecological environment and the current ecological environment, and further adjusting the corresponding environmental parameters of the ecological environment.

further, the adjusting step further comprises: continuously monitoring the adjusted ecological environment, acquiring environmental parameters of the current ecological environment, and sequentially executing a biological test step, a biological simulation step, a comparison step and an adjustment step; until the comparison result is consistent, the ecological environment is considered as the environment for biological growth.

Further, environmental parameters include, but are not limited to: water quality environmental parameters, gas environmental parameters, and solid environmental parameters.

Further, the water quality environmental parameters include, but are not limited to: pH value, total phosphorus value, dissolved oxygen value, conductivity, turbidity, COD and ammonia nitrogen value.

Further, the gas environment parameters are acquired using one or more of the following sensors, including but not limited to: semiconductor gas sensors, electrochemical gas sensors, catalytic combustion gas sensors, thermal conductivity gas sensors, infrared gas sensors, and solid electrolyte gas sensors.

further, the standard environment parameter obtaining process is as follows:

step S1: presetting original standard data according to historical environment data, and simulating a standard ecological environment in a biological standard box;

step S2: adding the same organisms into the biological standard box to simulate the biological growth process of the organisms in a standard ecological environment, and monitoring biological growth data in real time;

Step S3: whether the biological growth data accord with biological growth rules or not, if so, the original standard data are standard environmental parameters; if not, updating the original standard data according to the biological growth rule and the biological growth data, simulating a standard ecological environment in the biological standard box according to the updated original standard data, and sequentially executing the step S2 and the step S3.

Further, biological growth data includes, but is not limited to: growth rate, reproductive cycle, activity response, regular frequency of organisms and the resulting changes in water and gas.

Further, the environmental processing devices include, but are not limited to: little electrolysis module of iron carbon, chemical fenton module, super oxygen aeration treatment module, water light decomposition treatment module, ultrafiltration module, reverse osmosis module, physical adsorption treatment module, low temperature evaporation treatment module and sludge separation module.

the above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (10)

1. The ecological environment monitoring and treating method is characterized by comprising the following steps: the method comprises the following steps:

A data acquisition step: monitoring the current ecological environment of biological growth and acquiring environmental parameters;

Biological test steps: in a constant environment, simulating the current ecological environment according to environmental parameters, adding corresponding organisms into the constant environment to simulate the growth process of the organisms, and acquiring the biological growth data of each organism in the current ecological environment in real time;

A biological simulation step: in the same constant environment, simulating a standard ecological environment according to standard environmental parameters, adding the same organisms into the same constant environment to simulate an organism growth process, and acquiring organism growth data of each organism in the standard ecological environment in real time;

A comparison step: comparing the biological growth data of each organism in the current ecological environment with the biological growth data of each organism in the standard ecological environment; when the comparison results are consistent, the current ecological environment is the optimal ecological environment for biological growth; when the comparison results are inconsistent, obtaining the difference between the standard ecological environment and the current ecological environment according to the biological growth rule, the comparison results, and the combination of the standard environmental parameters of the standard ecological environment and the ecological environmental parameters of the current ecological environment;

An adjusting step: and controlling the working state of the environment processing equipment according to the difference between the standard ecological environment and the current ecological environment, and further adjusting the corresponding environmental parameters of the ecological environment.

2. the ecological environment monitoring and governing method of claim 1, wherein: after the adjusting step, the method further comprises: continuously monitoring the adjusted ecological environment, acquiring environmental parameters of the current ecological environment, and sequentially executing a biological test step, a biological simulation step, a comparison step and an adjustment step; until the comparison result is consistent, the ecological environment is considered as the environment for biological growth.

3. The ecological environment monitoring and governing method of claim 1, wherein: environmental parameters include, but are not limited to: water quality environmental parameters, gas environmental parameters, and solid environmental parameters.

4. The ecological environment monitoring and governing method according to claim 3, characterized in that: the water quality environmental parameters include but are not limited to: pH value, total phosphorus value, dissolved oxygen value, conductivity, turbidity, COD and ammonia nitrogen value.

5. The ecological environment monitoring and governing method according to claim 3, characterized in that: the gas environment parameters are acquired using one or more of the following sensors, including but not limited to: semiconductor gas sensors, electrochemical gas sensors, catalytic combustion gas sensors, thermal conductivity gas sensors, infrared gas sensors, and solid electrolyte gas sensors.

6. The ecological environment monitoring and governing method of claim 1, wherein: the standard environment parameter acquisition process comprises the following steps:

Step S1: presetting original standard data according to historical environment data, and simulating a standard ecological environment in a biological standard box;

Step S2: adding the same organisms into the biological standard box to simulate the biological growth process of the organisms in a standard ecological environment, and monitoring biological growth data in real time;

Step S3: whether the biological growth data accord with biological growth rules or not, if so, the original standard data are standard environmental parameters; if not, updating the original standard data according to the biological growth rule and the biological growth data, simulating a standard ecological environment in the biological standard box according to the updated original standard data, and sequentially executing the step S2 and the step S3.

7. The ecological environment monitoring and governing method of claim 1, wherein: biological growth data includes, but is not limited to: growth rate, reproductive cycle, activity response, regular frequency of organisms and the resulting changes in water and gas.

8. The ecological environment monitoring and governing method of claim 1, wherein: the environmental processing devices include, but are not limited to: little electrolysis module of iron carbon, chemical fenton module, super oxygen aeration treatment module, water light decomposition treatment module, ultrafiltration module, reverse osmosis module, physical adsorption treatment module, low temperature evaporation treatment module and sludge separation module.

9. an electronic device comprising a memory, a processor, and a computer program stored on the memory and executable on the processor, wherein: the processor, when executing the program, implements the steps of the method of ecological environment monitoring and remediation of any one of claims 1-8.

10. A computer-readable storage medium having stored thereon a computer program, characterized in that: the computer program when executed by a processor implements the steps of the method for ecological environment monitoring and remediation of any one of claims 1 to 8.