CN114138038A - Air purification system based on air compression station - Google Patents

Abstract

The invention discloses an air purification system based on an air compressor station, which belongs to the technical field of air purification and solves the problems that the loss of energy consumption is high when a device body is purified due to the fact that external factors such as the working temperature and the humidity of equipment are not considered, the obtained purified gas is relatively less, and the high-efficiency purification effect cannot be achieved, the temperature and the humidity in the air compressor station are set to be specified values through internal equipment of the air compressor station, the temperature value and the humidity value are changed for a plurality of times, the content value of a polluted gas is collected in the changing process, the influence factor is calculated through the changed difference value, the average value of the change factor calculated for a plurality of times is adopted, the calculated influence factor can be more accurate, the judgment on the treatment mode of the polluted gas is convenient, different treatment modes are adopted for the air compressor stations with different pollution values, not only can purify and remove the polluted gas effectively, but also can save energy better, and avoid the waste caused by energy loss.

Description

Air purification system based on air compression station

Technical Field

The invention belongs to the technical field of air purification, and particularly relates to an air purification system based on an air compression station.

Background

The air compression station is a compressed air station and consists of an air compressor, an air storage tank, air treatment and purification equipment and a cold dryer, and the technical and economic scheme of the arrangement of the compressed air station in a plant is determined according to the following factors.

When the internal gas of the air compression station is treated, an external air purification system is required to be adopted to purify the gas, but the existing air purification system only adopts a simple purification mode to purify the gas, but does not consider external factors such as the working temperature and the humidity of equipment, so that the energy consumption is high when the device body is purified, the obtained purified gas is relatively less, and the high-efficiency purification effect cannot be achieved.

Disclosure of Invention

In order to solve the problems existing in the scheme, the invention provides an air purification system based on an air compression station.

The purpose of the invention can be realized by the following technical scheme: the air purification system based on the air compression station comprises an acquisition terminal, a processing terminal, a comparison terminal, an influence factor recording module, a threshold module, a regulation and control terminal, an air purification terminal and an atomization terminal;

the acquisition terminal is electrically connected with the temperature sensor, the humidity sensor, the carbon dioxide concentration test sensor and the air particle concentration sensor respectively;

the processing terminal is used for processing various data acquired by the acquisition terminal, acquiring data of indoor temperature values and indoor humidity values, and calculating air pollution influence factors through the acquired data, wherein the air pollution influence factors are used in a processing mode of polluted gas in the air compression station;

and the influence factor recording module records and stores the calculated influence factors and can convey the stored influence factors to the processing terminal.

Furthermore, the regulation and control terminal is in communication connection with a temperature regulation device and a humidity regulation device inside the air compression station.

Further, the influence factor is calculated as follows:

s1, setting the optimal working temperature and humidity of the air compressor station, setting the temperature and humidity inside the air compressor station to specified values through internal equipment of the air compressor station, recording the temperature value as Wz and the humidity value as Sz;

s2, collecting and integrating the carbon dioxide content value and the air particle concentration content value in the air pressure station, and recording the values as Vh;

s3, changing the indoor temperature value and humidity value, recording the content value of the polluted gas in the changing process as Vz, and recording the changed temperature value and humidity value as Wg and Sg respectively;

s4, adopting a calculation formula

And calculating to obtain a temperature influence factor Wy, calculating to obtain a humidity influence factor Sy by adopting the same formula, and calculating an average value through multiple tests to obtain an average temperature influence factor Wyj and an average humidity influence factor Syj.

Further, air purification terminal and the inside air purifier communication connection of gas station, air purification terminal controls air purifier, and atomizing terminal and the inside atomizer communication connection of gas station control the atomizer simultaneously.

Further, the data processing mode of the processing terminal is as follows:

v1, collecting carbon dioxide and gas particle content values in the air pressure station, and integrating the content values to obtain a polluted gas content value Vo;

v2, collecting the actual temperature value and the actual humidity value of the work in the air pressure station, and recording the actual temperature value and the actual humidity value as Wo and So respectively;

and V3, obtaining the content value Vc of the polluted gas to be treated by adopting a calculation formula Vc Vo- (| Wo-Wz | × Wyj) - (| So-Sz | × Syj).

Further, the comparison terminal is used for comparing the content value Vc of the polluted gas to be treated with the internal interval value of the threshold module, and the internal threshold interval value of the threshold module is set by an operator.

Further, the comparison mode of the comparison terminal is as follows:

when W1 and Vc are located in the threshold module, regulating and controlling the temperature value and the humidity value in the air compressor station through a regulating and controlling terminal, and regulating and controlling the temperature value and the humidity value to the optimal values;

when W2 and Vc exceed the internal interval of the threshold module, the polluted gas is treated and purified by controlling the atomization terminal and the air purification terminal;

and further, when the Vc value is lower than the value of the internal interval of the threshold module, displaying that the content value of the polluted gas is not overproof through an external display terminal.

Compared with the prior art, the invention has the beneficial effects that: the method comprises the steps that the optimal working temperature and humidity of an air compressor station are collected, the temperature and humidity inside the air compressor station are set to be specified values through internal equipment of the air compressor station, the temperature value and the humidity value are changed for many times, the content value of the polluted gas is collected in the changing process, the changed difference value is used for calculating an influence factor, and the average value of the calculation for many times is adopted, so that the calculated influence factor is more accurate, and the judgment on the treatment mode of the polluted gas is facilitated;

in the process of processing the polluted gas, the optimal content of the polluted gas to be processed is calculated through a temperature difference value, a humidity difference value and an influence factor, the content value of the polluted gas is compared and judged through a comparison terminal and a threshold module, different processing modes are adopted for air compression gas stations with different pollution values, the polluted gas can be effectively purified and removed, energy can be better saved, and waste caused by energy loss is avoided.

Drawings

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

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

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

As shown in fig. 1, the air purification system based on the air compression station includes an acquisition terminal, a processing terminal, a comparison terminal, an influence factor recording module, a threshold module, a regulation terminal, an air purification terminal, and an atomization terminal;

the output end of the acquisition terminal is electrically connected with the input end of the processing terminal, the processing terminal is bidirectionally connected with the influence factor recording module, the output end of the processing terminal is electrically connected with the input end of the comparison terminal, the comparison terminal is bidirectionally connected with the threshold module, and the output end of the comparison terminal is respectively electrically connected with the input ends of the regulation terminal, the air purification terminal and the atomization terminal;

the collecting terminal is respectively and electrically connected with the temperature sensor, the humidity sensor, the carbon dioxide concentration testing sensor and the air particle concentration sensor, the temperature sensor, the humidity sensor, the carbon dioxide concentration testing sensor and the air particle concentration sensor are respectively arranged inside the air compression station, the temperature sensor can collect the temperature in the air compression station, the humidity sensor can collect the humidity in the air compression station, and the carbon dioxide concentration testing sensor and the air particle concentration sensor can collect the carbon dioxide concentration and the air particle concentration in the air compression station;

the processing terminal is used for processing various data acquired by the acquisition terminal and calculating influence factors;

the impact factors are calculated as follows:

s1, acquiring the optimal working temperature and humidity of the air compressor station, adjusting the temperature and humidity inside the air compressor station to be set values through internal equipment of the air compressor station, wherein the set values are the optimal temperature value and the optimal humidity value, the temperature value is recorded as Wz, and the humidity value is recorded as Sz;

s2, collecting and integrating the carbon dioxide content value and the air particle concentration content value in the air pressure station, and recording the values as Vh;

s3, changing the indoor temperature value and humidity value, recording the content value of the polluted gas in the changing process as Vz, and recording the changed temperature value and humidity value as Wg and Sg respectively;

s4, adopting a calculation formula

Calculating to obtain a temperature influence factor Wy, calculating to obtain a humidity influence factor Sy by adopting the same formula, and calculating to obtain a corresponding average value of the obtained Wy and Sy through multiple test calculations to obtain an average temperature influence factor Wyj and an average humidity influence factor Syj.

By calculating the influence factors, the influence factors in the polluted gas can be effectively eliminated, and the polluted gas can be directly eliminated by eliminating the influence factors at the later stage, so that the consumed energy is effectively saved, the energy consumption pollution at another layer is reduced, and a good polluted gas removing effect can be achieved;

the data processing mode of the processing terminal is as follows:

v1, collecting carbon dioxide and gas particle content values in the air pressure station, and integrating the content values to obtain a polluted gas content value Vo;

v2, collecting the actual temperature value and the actual humidity value of the work in the air pressure station, and recording the actual temperature value and the actual humidity value as Wo and So respectively;

and V3, obtaining the content value Vc of the polluted gas to be treated by adopting a calculation formula Vc Vo- (Wo-Wz | multiplied by Wyj) - (| So-Sz | multiplied by Syj |).

By adopting the calculation mode, the real content of the indoor polluted gas can be calculated, the part influenced by external factors is removed, the content value is calculated, and the optimal treatment mode is obtained, so that the optimal polluted gas treatment effect is achieved.

The influence factor recording module records and stores the calculated influence factors and can transmit the stored influence factors to the processing terminal;

the comparison terminal is used for comparing the numerical value with the threshold module internal interval value, and the threshold module internal interval value is set by an operator;

the air purification system comprises a regulation and control terminal, an air purification terminal, an atomizer and a temperature regulation device, wherein the regulation and control terminal is in communication connection with the temperature regulation device and the humidity regulation device in the air compression station, the temperature regulation device and the humidity regulation device can also be manually regulated, the air purification terminal is in communication connection with the air purifier in the air station, the air purification terminal controls the air purifier, the air purifier can purify the air in the air station, the atomization terminal is in communication connection with the atomizer in the air station, and the atomizer can effectively remove polluted gas in the air station;

the comparison mode of the comparison terminal is as follows:

when Vc is located in the internal interval of the threshold module, the control terminal is controlled, the control terminal can control the temperature value and the humidity value in the air station, and the temperature value and the humidity value are controlled to be the optimal values;

when the Vc internal value exceeds the threshold module internal interval, the atomization terminal and the air purification terminal are controlled, the atomization terminal can directly control the atomizer, the atomizer starts to work to remove the polluted gas in the gas station, the air purification terminal can perform ventilation and purification effects on the gas, the purified polluted gas is discharged to the outside, and the gas is treated by an operator;

when the internal value of Vc is lower than the internal interval of the threshold module, the content value Vc of the polluted gas is not overproof, and the regulation terminal, the air purification terminal and the atomization terminal do not work.

The above formulas are all calculated by removing dimensions and taking numerical values thereof, the formula is a formula which is obtained by acquiring a large amount of data and performing software simulation to obtain the closest real situation, and the preset parameters and the preset threshold value in the formula are set by the technical personnel in the field according to the actual situation or obtained by simulating a large amount of data.

In the embodiments provided by the present invention, it should be understood that the disclosed apparatus, device and method can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and there may be other divisions when the actual implementation is performed; the modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of the embodiment.

It will also be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms second, etc. are used to denote air purification systems based on air compressor stations, and do not denote any particular order.

Finally, it should be noted that the above examples are only intended to illustrate the technical process of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical process of the present invention without departing from the spirit and scope of the technical process of the present invention.

Claims (8)

1. The air purification system based on the air compression station is characterized by comprising an acquisition terminal, a processing terminal, a comparison terminal, an influence factor recording module, a threshold module, a regulation and control terminal, an air purification terminal and an atomization terminal;

the acquisition terminal is respectively electrically connected with the temperature sensor, the humidity sensor, the carbon dioxide concentration test sensor and the air particle concentration sensor, and simultaneously acquires various data;

the processing terminal is used for processing various data collected by the collecting terminal to obtain air pollution influence factors, presetting the temperature and humidity inside the air pressure station, collecting actual values, calculating corresponding influence factors according to actual difference values, and storing the air pollution influence factors in the influence factor recording module and in a judging mode of polluted gas in the air pressure station.

2. The air purification system based on the air compressor station is characterized in that the regulation terminal is in communication connection with a temperature regulation device and a humidity regulation device inside the air compressor station.

3. The air compressor station-based air purification system of claim 1, wherein the impact factor is calculated as follows:

s1, setting the optimal working temperature and humidity of the air compressor station, adjusting the temperature and humidity inside the air compressor station to set values through internal equipment of the air compressor station, recording the temperature value as Wz and the humidity value as Sz;

s2, collecting and integrating the carbon dioxide content value and the air particle concentration content value in the air pressure station, and recording the values as Vh;

s3, changing the indoor temperature value and humidity value, recording the content value of the polluted gas in the changing process as Vz, and recording the changed temperature value and humidity value as Wg and Sg respectively;

s4, adopting a calculation formula

And calculating to obtain a temperature influence factor Wy, calculating to obtain a humidity influence factor Sy by adopting the same formula, and calculating an average value through multiple tests to obtain an average temperature influence factor Wyj and an average humidity influence factor Syj.

4. The air purification system based on the air compressor station as claimed in claim 1, wherein the air purification terminal is in communication connection with an air purifier inside the air station, the air purification terminal controls the air purifier, and the atomization terminal is in communication connection with an atomizer inside the air station and controls the atomizer.

5. The air purification system based on the air compressor station as claimed in claim 4, wherein the data is processed by the processing terminal in the following way:

v1, collecting carbon dioxide and gas particle content values in the air pressure station, and integrating the content values to obtain a polluted gas content value Vo;

v2, collecting the actual temperature value and the actual humidity value of the work in the air pressure station, and recording the actual temperature value and the actual humidity value as Wo and So respectively;

and V3, obtaining the content value Vc of the polluted gas to be treated by adopting a calculation formula Vc Vo- (| Wo-Wz | × Wyj) - (| So-Sz | × Syj).

6. The air purification system based on the air compression station as claimed in claim 5, wherein the comparison terminal is used for comparing the content value Vc of the polluted gas to be treated with the internal interval value of the threshold module, and the internal threshold interval value of the threshold module is set by an operator.

7. The air purification system based on the air compressor station as claimed in claim 6, wherein the comparison mode of the comparison terminal is as follows:

when W1 and Vc are located in the threshold module, regulating and controlling the temperature value and the humidity value in the air compressor station through a regulating and controlling terminal, and regulating and controlling the temperature value and the humidity value to the optimal values;

when W2, Vc surpass threshold value module internal interval, through controlling atomizing terminal and air purification terminal, handle the purification to gaseous pollutants.

8. The air purification system based on the air compressor station as claimed in claim 7, wherein when the value of Vc is lower than the value of the internal interval of the threshold module, it is displayed through an external display terminal that the content value of the polluted gas is not out of standard.

Images