CN116242436A - Water quality monitoring system for environmental protection monitoring - Google Patents

Abstract

The invention discloses a water quality monitoring system for environmental protection monitoring, which is characterized in that: the system comprises environmental protection monitoring; atmosphere monitoring, water quality monitoring, soil monitoring, noise monitoring, biological monitoring, and local and cloud storage. The beneficial effects are that: according to the invention, the comprehensive three-dimensional detection mechanism can be constructed by environmental protection monitoring, atmospheric monitoring, noise monitoring and biological monitoring aiming at the influence of other indirect factors and objectively reflecting the water quality, so that the effect of multifactor on water quality detection is enhanced, the system can be used for storing various collected information data locally and in cloud, carrying out body storage, cloud backup and summarization, carrying out double protection storage, avoiding the phenomenon of data loss caused by large front-back comparison time span, and further ensuring the safety of the water quality detection system data.

Description

Water quality monitoring system for environmental protection monitoring

Technical Field

The invention relates to the technical field of water quality monitoring systems for environmental protection monitoring, in particular to a water quality monitoring system for environmental protection monitoring.

Background

With the development of modern industry and the bidirectional operation of sustainable development strategy, environmental problems are closely concerned by the whole society, so that environmental protection work is not sustained. The life, living and production of people cannot be separated from water, and the protection of water resources is an important issue of environmental protection. Therefore, the water resource is closely monitored by using the modern high-new technology, which has very important significance for environmental protection work, and the water quality problem is very prominent, so that the water quality monitoring work is enhanced.

1. The system lacks an omnibearing detection function, only detects information data closely related to water quality, cannot react to the water quality by detecting other indirections, and cannot construct an omnibearing three-dimensional detection mechanism, so that the effect of multifactor on water quality detection is enhanced.

2. The collected data are difficult to collect integrally, the effect of integral observation cannot be achieved, meanwhile, the data information is easy to lose for a long time, long-time span comparison is difficult to conduct, and therefore the safety of the data of the water quality detection system is reduced.

Disclosure of Invention

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a water quality monitoring system for environmental protection monitoring.

The invention realizes the above purpose through the following technical scheme:

a water quality monitoring system for environmental protection monitoring comprises environmental protection monitoring; atmospheric monitoring, water quality monitoring, soil monitoring, noise monitoring, biological monitoring, local and cloud storage, the system work flow is as follows:

scheme 1: environmental protection monitoring includes detecting solid waste detection, biological detection, noise and vibration detection, electromagnetic radiation detection, radioactivity detection, thermal detection, light detection, and sanitation detection;

scheme 2: the atmosphere monitoring can carry out point-setting observation on main pollutants in the atmosphere, and mainly monitors the detection of total suspended particulate matters, nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone and the contents of particulate matters, nitrogen oxides and lead matters with the particle diameters less than or equal to 10 mu m;

scheme 3: the soil monitoring is to measure various physicochemical properties of the soil by adopting a proper measuring method, and the classification detection is carried out on iron, manganese, total potassium, organic matters, total nitrogen, available phosphorus, total phosphorus, moisture, total arsenic, available boron, fluoride, chloride, mineral oil, total salt amount and the like;

scheme 4: the noise monitoring can use a sound level meter, a frequency analyzer, a sound intensity analyzer and noise level analysis equipment to collect and analyze the sound level, the sound frequency, the sound intensity and the noise level of equipment of the scene water quality treatment equipment to be detected;

scheme 5: biological monitoring can utilize the response of biological individuals, populations or communities to environmental pollution or change to clarify the environmental pollution condition, and indirectly feed back water quality information through the detection of the number of animals and plants in water.

Flow 6: the local and cloud storage is to store and collect all the collected information by using the information storage device and back up the information to the cloud storage.

Further, the detection of solid waste, biological detection, noise and vibration detection, electromagnetic radiation detection, radioactivity detection, thermal detection, light detection, and sanitation detection in the above-mentioned flow 1 can reflect the influence of such a substance detection on the quality of water.

Further, in the process 1, the content of the total suspended particulate matters, nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone, particulate matters with the particle size less than or equal to 10 μm, nitrogen oxides and lead substances is monitored, so that the specific influence of the content of various substances in the air on the water quality of the water source is realized.

Further, in the above-mentioned flow 1, various physicochemical properties, such as iron, manganese, total potassium, organic matter, total nitrogen, available phosphorus, total phosphorus, moisture, total arsenic, available boron, fluoride, chloride, mineral oil, total salt amount, etc., are classified and detected, and the correlation of various soil material contents to water sources, the soil material content is a significant factor affecting water quality.

Furthermore, in the process 1, the environmental pollution is clarified by the reaction of the individual organisms, the population or the community on the environmental pollution or the change, and the water quality information, such as the type and the quantity of the aquatic organisms in the water and the actual monitoring quantity, is indirectly fed back through the detection of the number of the animals and the plants in the water, so that the influence of the water on the aquatic organisms can be objectively reflected, and the quality of the water quality can be further known.

Furthermore, the information data collected and stored in the process 1 can form a three-dimensional data network, and the influence on the water quality is reflected in an omnibearing three-dimensional way.

The invention has the beneficial effects that:

1. according to the invention, an omnibearing three-dimensional detection mechanism can be constructed by environmental protection monitoring, atmosphere monitoring, noise monitoring and biological monitoring aiming at the influence of other indirect factors and objectively reflecting the water quality, so that the effect of multifactor on water quality detection is enhanced.

2. The invention can store the collected various information data locally and in the cloud, can carry out body storage, cloud backup and summarization and use, and can carry out double protection storage, thereby avoiding the phenomenon of data loss caused by large front-back comparison time span and further ensuring the data safety of the water quality detection system;

Detailed Description

A water quality monitoring system for environmental protection monitoring, the system includes environmental protection monitoring; atmospheric monitoring, water quality monitoring, soil monitoring, noise monitoring, biological monitoring, local and cloud storage, the system work flow is as follows:

scheme 1: environmental protection monitoring includes detecting solid waste detection, biological detection, noise and vibration detection, electromagnetic radiation detection, radioactivity detection, thermal detection, light detection, and sanitation detection;

scheme 2: the atmosphere monitoring can carry out point-setting observation on main pollutants in the atmosphere, and mainly monitors the detection of total suspended particulate matters, nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone and the contents of particulate matters, nitrogen oxides and lead matters with the particle diameters less than or equal to 10 mu m;

scheme 3: the soil monitoring is to measure various physicochemical properties of the soil by adopting a proper measuring method, and the classification detection is carried out on iron, manganese, total potassium, organic matters, total nitrogen, available phosphorus, total phosphorus, moisture, total arsenic, available boron, fluoride, chloride, mineral oil, total salt amount and the like;

scheme 4: the noise monitoring can use a sound level meter, a frequency analyzer, a sound intensity analyzer and noise level analysis equipment to collect and analyze the sound level, the sound frequency, the sound intensity and the noise level of equipment of the scene water quality treatment equipment to be detected;

scheme 5: biological monitoring can utilize the response of biological individuals, populations or communities to environmental pollution or change to clarify the environmental pollution condition, and indirectly feed back water quality information through the detection of the number of animals and plants in water.

Flow 6: the local and cloud storage is to store and collect all the collected information by using the information storage device and back up the information to the cloud storage.

In this example, in the process 1, the content of the total suspended particulate matters, nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone, particulate matters with the particle size less than or equal to 10 μm, nitrogen oxides and lead substances is monitored, so that the specific influence of the content of various substances in the air on the water quality of the water source is realized.

In this example, in the above-mentioned process 1, various physicochemical properties, such as iron, manganese, total potassium, organic matter, total nitrogen, available phosphorus, total phosphorus, moisture, total arsenic, available boron, fluoride, chloride, mineral oil, total salt, etc., are classified and detected, and the correlation of various soil material contents to water sources is a significant factor affecting water quality.

In this example, the reaction of the process 1 on the environmental pollution or change of the individual, population or community of the living things clarifies the environmental pollution condition, and the quality of the water can be obtained by indirectly feeding back the water quality information, for example, comparing the type and quantity of the aquatic living things in the water with the actual monitoring quantity, so as to objectively reflect the influence of the water on the aquatic living things.

In this example, the information data collected and stored in the process 1 can form a three-dimensional data network, and the influence on the water quality is reflected in an omnibearing three-dimensional way.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (6)

1. The utility model provides a water quality monitoring system for environmental protection monitoring which characterized in that: the system comprises environmental protection monitoring; atmospheric monitoring, water quality monitoring, soil monitoring, noise monitoring, biological monitoring, local and cloud storage, the system work flow is as follows:

scheme 1: environmental protection monitoring includes detecting solid waste detection, biological detection, noise and vibration detection, electromagnetic radiation detection, radioactivity detection, thermal detection, light detection, and sanitation detection;

scheme 2: the atmosphere monitoring can carry out point-setting observation on main pollutants in the atmosphere, and mainly monitors the detection of total suspended particulate matters, nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone and the contents of particulate matters, nitrogen oxides and lead matters with the particle diameters less than or equal to 10 mu m;

scheme 3: the soil monitoring is to measure various physicochemical properties of the soil by adopting a proper measuring method, and the classification detection is carried out on iron, manganese, total potassium, organic matters, total nitrogen, available phosphorus, total phosphorus, moisture, total arsenic, available boron, fluoride, chloride, mineral oil, total salt amount and the like;

scheme 4: the noise monitoring can use a sound level meter, a frequency analyzer, a sound intensity analyzer and noise level analysis equipment to collect and analyze the sound level, the sound frequency, the sound intensity and the noise level of equipment of the scene water quality treatment equipment to be detected;

scheme 5: biological monitoring can utilize the response of biological individuals, populations or communities to environmental pollution or change to clarify the environmental pollution condition, and indirectly feed back water quality information through the detection of the number of animals and plants in water.

Flow 6: the local and cloud storage is to store and collect all the collected information by using the information storage device and back up the information to the cloud storage.

2. The water quality monitoring system for environmental protection monitoring of claim 1, wherein: the detection of solid waste, biological detection, noise and vibration detection, electromagnetic radiation detection, radioactivity detection, thermal detection, light detection, and sanitation detection in the process 1 can reflect the influence of the detection of the substances on the quality of water.

3. The water quality monitoring system for environmental protection monitoring of claim 1, wherein: in the flow 1, the content of the total suspended particles, nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone, and particles with the particle size less than or equal to 10 mu m, nitrogen oxides and lead substances is monitored, so that the specific influence of the content of various substances in the air on the water quality of the water source is realized.

4. The water quality monitoring system for environmental protection monitoring of claim 1, wherein: in the process 1, various physicochemical properties, such as iron, manganese, total potassium, organic matters, total nitrogen, available phosphorus, total phosphorus, moisture, total arsenic, available boron, fluoride, chloride, mineral oil, total salt amount and the like, are subjected to classification detection, the correlation of various soil substance contents on water sources is achieved, and the soil substance contents are important factors affecting water quality.

5. The water quality monitoring system for environmental protection monitoring of claim 1, wherein: in the process 1, the environmental pollution condition is clarified by the reaction of the biological individuals, populations or communities on the environmental pollution or change, and the quality of water can be obtained by indirectly feeding back the water quality information, such as the type and the quantity of the aquatic organisms in the water and the actual monitoring quantity, and the influence of the water on the aquatic organisms can be objectively reflected, so that the quality of the water quality can be obtained.

6. The water quality monitoring system for environmental protection monitoring of claim 1, wherein: the information data collected and stored in the process 1 can form a three-dimensional data network, and the influence on the water quality is reflected in an omnibearing three-dimensional way.