CN220899993U - Nitromethane tail gas treatment device - Google Patents

Abstract

The utility model belongs to the field of tail gas treatment, and discloses a nitromethane tail gas treatment device which comprises an air inlet pipe, a water inlet pipe, a mixing drum and a tail gas treatment tower; a mixing device and a phase-change mixing device are arranged in the mixing cylinder, and the phase-change mixing device is arranged below the mixing device; the air inlet pipe and the water inlet pipe are connected with the mixing device; the mixing drum is connected with the tail gas treatment tower. The tail gas enters the mixing device and is mixed with the phase-change mixing device, and then enters the tail gas treatment tower for treatment, so that the working efficiency is high and the treatment effect is good.

Description

Nitromethane tail gas treatment device

Technical Field

The utility model belongs to the field of environmental protection equipment, and particularly relates to a nitromethane tail gas treatment device.

Background

The existing nitromethane tail gas treatment device has the defects that the tail gas enters from the lower part of the equipment and then goes above the equipment, and the treatment efficiency is low.

Disclosure of utility model

The utility model aims to provide a nitromethane tail gas treatment device, and aims to solve the problems that the existing nitromethane tail gas treatment device is low in treatment efficiency because tail gas enters from the lower part of equipment and then goes to the upper part of the equipment.

The utility model is realized in such a way that the nitromethane tail gas treatment device comprises an air inlet pipe, an water inlet pipe, a first mixing cylinder, a mixer, a second mixing cylinder, a third mixing cylinder, a fourth mixing cylinder, a first tail gas treatment tower, a second tail gas treatment tower and a phase-change mixing device;

The first mixing drum is connected with the second mixing drum, the second mixing drum is arranged at the bottom inside the first tail gas treatment tower, the first tail gas treatment tower is connected with the third mixing drum through an exhaust port at the top, the third mixing drum is connected with the fourth mixing drum, and the fourth mixing drum is arranged at the bottom inside the second tail gas treatment tower;

A mixer and a phase-change mixing device are arranged in the first mixing cylinder, and the phase-change mixing device is arranged below the mixer;

The air inlet pipe and the water inlet pipe are respectively connected with the mixer.

Further, a plurality of layers of tarpaulin nozzles are arranged in the first tail gas treatment tower from top to bottom.

Further, the bottoms of the second mixing cylinder and the fourth mixing cylinder are provided with phase-changing mixing devices.

Further, an air component detection recorder is arranged in the mixer, the air component detection recorder is made of refractory materials and comprises a power supply module, a solar power generation module and a particle collection module electrically connected with the power supply module, and is characterized in that the particle collection module is electrically connected with an oxygen detection module, a carbon monoxide detection module and a humidity detection module respectively, the oxygen detection module, the carbon monoxide detection module and the humidity detection module are electrically connected with an information collection module, the information collection module is electrically connected with a signal emission module, the signal emission module is electrically connected with a display screen, the display screen is electrically connected with a signal receiving module, and the signal receiving module is electrically connected with a control module;

the power module is respectively and electrically connected with the temperature detection module, the electric quantity detection module and the insulation detection module, and the electric quantity detection module and the insulation detection module are electrically connected with the information collection module;

The control module is electrically connected with the cooling device and the cooling device is electrically connected with the power supply module;

the control module is electrically connected with the charging module, and the charging module is respectively and electrically connected with the power module and the solar power generation module.

The technical scheme provided by the utility model has the positive effects and technical advantages.

Firstly, the tail gas enters the mixer and is mixed with water, then enters the phase-change mixing device and is mixed uniformly, the tail gas after being mixed uniformly enters the tail gas treatment tower from the bottom, is discharged from the top after being treated by the nozzle liquid of the tarpaulin head, and has high working efficiency and good treatment effect.

Second, the present utility model brings significant technical advances.

1. The nitromethane tail gas treatment device comprises a particle collection module, an oxygen detection module, a carbon monoxide detection module, a humidity detection module, an information collection module, a signal emission module, a display screen and a signal receiving module; through with granule collection module and oxygen detection module, carbon monoxide detection module and humidity detection module electric connection, key parameters such as oxygen, carbon monoxide and humidity in the real-time detection tail gas to monitor and handle the tail gas more accurately, and through the electric connection of components such as information collection module, signal transmission module, display screen and signal receiving module, realize real-time transmission, processing and the demonstration of data, improved nitromethane tail gas treatment's accuracy and efficiency.

2. The nitromethane tail gas treatment device also comprises a power supply module, a temperature detection module, an electric quantity detection module and an insulation detection module; through with power module and temperature detection module, electric quantity detection module and insulating detection module electric connection, parameters such as temperature, electric quantity and insulation that can real-time detection nitromethane tail gas processing apparatus to guarantee stability and the security of equipment, and through information collection module's electric connection, transmit these parameter data to components such as signal transmission module, display screen and signal receiving module in real time, realized real-time supervision and the demonstration of equipment parameter, improved nitromethane tail gas processing apparatus's reliability and security.

3. The nitromethane tail gas treatment device also comprises a control module, a cooling device, a charging module, a power module and a solar power generation module; through with control module electric connection cooling device, can realize the cooling control to nitromethane tail gas processing apparatus, guarantee stability and the security of equipment in the operation in-process to through the electric connection of charging module with power module and solar power module, can realize the portable charging and the solar power generation to nitromethane tail gas processing apparatus, increased the use convenience and the sustainability of equipment.

Drawings

FIG. 1 is a schematic structural diagram of a nitromethane tail gas treatment device according to an embodiment of the present utility model;

In the figure: 1. an air inlet pipe; 2. a water inlet pipe; 3. a first mixing drum; 4. a mixer; 5. a second mixing drum; 6. a third mixing drum; 7. a fourth mixing drum; 8. a first tail gas treatment tower; 9. a second tail gas treatment tower; 10. a phase-change mixing device; 11. and a canopy nozzle.

Detailed Description

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings.

The device provided by the utility model comprises a plurality of modules, and the implementation method of each module is explained one by one.

1. A mixer: the mixer is used for mixing different fluids, such as the contents of an inlet pipe and an inlet pipe, to achieve a predetermined mixing ratio. The mixer may be designed as a static mixer or a dynamic mixer, the specific design depending on the nature of the gas or liquid to be treated.

2. Phase-change mixing device: the device is a special mixing device for adjusting the state of the mixture, such as liquid to gas or gas to liquid. The particular implementation depends on the chemical nature and physical state of the substance to be treated.

3. Air composition detection recorder: this is a sensor device comprising a series of gas sensors, such as oxygen sensors, carbon monoxide sensors and humidity sensors. These sensors may detect gas constituents based on electrochemical, spectroscopic, or other methods. The recorder also includes a data recorder and/or data transmission device to record and transmit the detected gas concentration.

4. Particle collection module: this is a filter or collector for collecting particulate matter in the mixed gas. The specific design depends on the size and nature of the particles that need to be collected.

5. And a power supply module: this is the component that provides power to the device, including the battery, power converter, etc. The solar power generation module may convert solar energy into electrical energy through a photovoltaic cell.

6. And a signal transmitting module: this is a device for wireless transmission of data, based on bluetooth, wiFi, zigbee, loRa, etc. wireless communication technologies.

7. And (3) a display screen: the display screen is used to display the status and readings of the device. Specific designs include LCD, LED or other types of display technologies.

8. A signal receiving module: this is a device for wireless reception of data, based on the same wireless communication technology as the signal transmission module.

9. And the control module is used for: the control module is a microcontroller or processor that controls the operation of the device based on the received signals and a predetermined program.

10. Temperature detection module, electric quantity detection module and insulation detection module: these modules use corresponding sensors (such as temperature sensors, voltage/current sensors, and resistance/insulation measurement devices) to detect and record relevant parameters.

Please refer to fig. 1:

The nitromethane tail gas treatment device comprises an air inlet pipe 1, a water inlet pipe 2, a first mixing cylinder 3, a mixer 4, a second mixing cylinder 5, a third mixing cylinder 6, a fourth mixing cylinder 7, a first tail gas treatment tower 8, a second tail gas treatment tower 9 and a phase-change mixing device 10;

The first mixing drum 3 is connected with the second mixing drum 5, the second mixing drum 5 is arranged at the bottom inside the first tail gas treatment tower 8, the first tail gas treatment tower 8 is connected with the third mixing drum 6 through an exhaust port at the top, the third mixing drum 6 is connected with the fourth mixing drum 7, and the fourth mixing drum 7 is arranged at the bottom inside the second tail gas treatment tower 9;

A mixer 4 and a phase-change mixing device 10 are arranged in the first mixing drum 3, and the phase-change mixing device 10 is arranged below the mixer 4;

the air inlet pipe 1 and the water inlet pipe 2 are respectively connected with the mixer 4.

Further, a plurality of layers of canopy nozzles 11 are arranged in the first tail gas treatment tower 8 from top to bottom.

Further, the bottoms of the second mixing drum 5 and the fourth mixing drum 7 are provided with a phase-changing mixing device 10.

Further, an air component detection recorder is arranged in the mixer, the air component detection recorder is made of refractory materials and comprises a power supply module, a solar power generation module and a particle collection module electrically connected with the power supply module, and is characterized in that the particle collection module is electrically connected with an oxygen detection module, a carbon monoxide detection module and a humidity detection module respectively, the oxygen detection module, the carbon monoxide detection module and the humidity detection module are electrically connected with an information collection module, the information collection module is electrically connected with a signal emission module, the signal emission module is electrically connected with a display screen, the display screen is electrically connected with a signal receiving module, and the signal receiving module is electrically connected with a control module;

the power module is respectively and electrically connected with the temperature detection module, the electric quantity detection module and the insulation detection module, and the electric quantity detection module and the insulation detection module are electrically connected with the information collection module;

The control module is electrically connected with the cooling device and the cooling device is electrically connected with the power supply module;

the control module is electrically connected with the charging module, and the charging module is respectively and electrically connected with the power module and the solar power generation module.

This nitromethane tail gas treatment device appears to be a system for treating and purifying tail gas. The working principle thereof is explained as follows:

The inlet pipe and inlet pipe introduce the nitromethane tail gas to be treated and the treatment medium (possibly water or other chemicals) into the first mixing drum.

In the first mixing drum, the mixer and the phase-change mixing device mix the incoming exhaust gas and the treatment medium, possibly changing their physical state for better subsequent treatment.

The mixed tail gas and treatment medium enters the bottom of a first tail gas treatment tower, which may contain some physical or chemical treatment equipment, such as nozzles and packing, to further treat and clean the tail gas.

The treated tail gas enters a third mixing drum from the top of the first tail gas treatment tower, and then enters the bottom of the second tail gas treatment tower for second-stage treatment.

At each stage of the system, the air composition detection recorder monitors and records the gas composition and status in the exhaust gas, which can be used to adjust process parameters and evaluate the effectiveness of the process.

The system also comprises a power module and a solar power module for supplying power and possibly supplementing energy. The power detection module and the insulation detection module monitor the state and safety of the power supply.

The information collection module collects data from all the sensors and detection devices and sends the data to a remote receiving device through the signal transmission module. The display screen displays the data and the control module controls the operation of the device based on the data.

The following are two specific embodiments and specific implementations:

1. examples: a nitromethane processing apparatus for automobile exhaust treatment.

The particle collecting module is electrically connected with the oxygen detecting module, the carbon monoxide detecting module and the humidity detecting module, and key parameters such as oxygen, carbon monoxide, humidity and the like in the automobile exhaust are detected in real time;

-realizing real-time transmission, processing and display of data by adopting the electrical connection of components such as an information collection module, a signal transmitting module, a display screen, a signal receiving module and the like;

-adopting a power module to be electrically connected with the temperature detection module, the electric quantity detection module and the insulation detection module to detect parameters such as temperature, electric quantity and insulation of the nitromethane treatment device in real time;

-electrically connecting the cooling device with a control module to realize cooling control of the nitromethane treatment device;

-portable charging and solar power generation of the nitromethane treatment device is achieved by means of an electrical connection of the charging module with the power module and the solar power module.

2. Examples: a nitromethane processing apparatus for industrial waste gas treatment.

The particle collecting module is electrically connected with the oxygen detecting module, the carbon monoxide detecting module and the humidity detecting module, and key parameters such as oxygen, carbon monoxide, humidity and the like in the industrial waste gas are detected in real time;

-realizing real-time transmission, processing and display of data by adopting the electrical connection of components such as an information collection module, a signal transmitting module, a display screen, a signal receiving module and the like;

-adopting a power module to be electrically connected with the temperature detection module, the electric quantity detection module and the insulation detection module to detect parameters such as temperature, electric quantity and insulation of the nitromethane treatment device in real time;

-electrically connecting the cooling device with a control module to realize cooling control of the nitromethane treatment device;

-portable charging and solar power generation of the nitromethane treatment device is achieved by means of an electrical connection of the charging module with the power module and the solar power module.

The foregoing description is only of the preferred embodiments of the present utility model, and is not intended to limit the utility model in any way, but any simple modification, equivalent variation and modification of the above embodiments according to the technical principles of the present utility model are within the scope of the technical solutions of the present utility model.

Claims (3)

1. The nitromethane tail gas treatment device is characterized by comprising an air inlet pipe, an water inlet pipe, a first mixing cylinder, a mixer, a second mixing cylinder, a third mixing cylinder, a fourth mixing cylinder, a first tail gas treatment tower, a second tail gas treatment tower and a phase-change mixing device;

The first mixing drum is connected with the second mixing drum, the second mixing drum is arranged at the bottom inside the first tail gas treatment tower, the first tail gas treatment tower is connected with the third mixing drum through an exhaust port at the top, the third mixing drum is connected with the fourth mixing drum, and the fourth mixing drum is arranged at the bottom inside the second tail gas treatment tower;

A mixer and a phase-change mixing device are arranged in the first mixing cylinder, and the phase-change mixing device is arranged below the mixer;

The air inlet pipe and the water inlet pipe are respectively connected with the mixer;

The bottoms of the second mixing cylinder and the fourth mixing cylinder are provided with phase-change mixing devices;

An air component detecting recorder is arranged in the mixer, the air component detecting recorder is made of refractory materials and comprises a power module, a solar power generation module and a particle collecting module electrically connected with the power module, and is characterized in that,

The particle collection module is respectively and electrically connected with the oxygen detection module, the carbon monoxide detection module and the humidity detection module, the oxygen detection module the carbon monoxide detection module and the humidity detection module are electrically connected with the information collection module, the information collection module is electrically connected with the signal emission module, the signal emission module is electrically connected with the display screen, the display screen is electrically connected with the signal receiving module, and the signal receiving module is electrically connected with the control module.

2. The nitromethane tail gas treatment device of claim 1, wherein the power module is electrically connected to the temperature detection module, the power detection module, and the insulation detection module, respectively, and the power detection module and the insulation detection module are electrically connected to the information collection module.

3. The nitromethane tail gas treatment device of claim 1, wherein the control module is electrically connected to a cooling device and the cooling device is electrically connected to the power module;

the control module is electrically connected with the charging module, and the charging module is respectively and electrically connected with the power module and the solar power generation module.