CN210001832U

CN210001832U - liquid fuel puffing and cracking device capable of refrigerating

Info

Publication number: CN210001832U
Application number: CN201920409178.XU
Authority: CN
Inventors: 颜园甲; 王彦泽; 陈瑜; 罗安文; 贾云锋; 郭鹍鹏; 杜启渠; 李鑫
Original assignee: Wanrong Jintan Energy Technology Co Ltd
Current assignee: Wanrong Jintan Energy Technology Co Ltd
Priority date: 2019-03-28
Filing date: 2019-03-28
Publication date: 2020-01-31
Anticipated expiration: 2029-03-28

Abstract

The utility model relates to a liquid fuel processing technology field, concretely relates to kinds of liquid fuel popped fission ware that can refrigerate, spout liquid fuel into the fission pipe through high-speed atomizing stream form through high-pressure gas, collision at fission pipe continuous collision and each high-speed atomizing stream, after forming liquid gas fuel, export the use through the outlet pipe, through the resonance box, realize in the resonance box high-pressure gas and the fission pipe in the resonance box resonance of the process that liquid fuel gasification strikes the fission pipe, strengthen liquid fuel's gasification, the outlet pipe adopts T type pipe, the heavy fog drop that smugglies secretly in the gas fuel stream falls into the liquid outlet through the action of gravity and retrieves, through atomizing endothermic process, be used for air cooler air conditioning source, the air-volume size is adjusted through the regulating tube to the air-cooler.

Description

liquid fuel puffing and cracking device capable of refrigerating

Technical Field

The utility model relates to a liquid fuel handles technical field, more specifically relates to kinds of popped fission ware of liquid fuel that can refrigerate.

Background

The alcohol-based fuel is a novel substitute energy with the most potential, namely the alcohol-based fuel which is mainly configured by alcohols (such as methanol, ethanol, butanol and the like) and exists in a liquid or solid form, is biomass energy, nuclear energy, solar energy, wind energy and hydraulic energy , is an environment-friendly clean energy which is greatly promoted by various governments at present, is favored by various enterprise organizations, is extremely clean in combustion emission, does not have particles (PM2.5, PM10), ozone, sulfur dioxide, CO, mercury and nitrogen oxides, has the energy consumption which is 10 times lower than that of a natural gas boiler, can relieve coal and diesel oil, can greatly relieve atmospheric pollution by combustion, is an important energy consumption for the combustion of carbon, is considered as a methanol-based fuel, is an important fuel for the industrial combustion of methanol, is considered as a methanol-based fuel, is low in combustion, is especially low in combustion energy consumption, is considered as a methanol-based fuel for the industrial organization, is low in combustion, is more than that of coal, diesel oil, is low in combustion emission, is an air pollution, is considered as a methanol-based fuel for the industrial fuel, is an important fuel for the industrial combustion of coal-based fuel, is low in the industrial combustion of coal-based fuel, is considered as a methanol-based fuel, is a methanol-based fuel for the industrial combustion of a methanol-based fuel, is low-based fuel, is an important fuel for the industrial fuel for the.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide kinds of popped fission ware of refrigeratable liquid fuel, through the resonance processing liquid fuel of high-speed collision, resonance case and fission pipe, prepare stable, the energy consumption is low, the fuel of difficult carbon deposit, and this process heat absorption can be used to the preparation of system air conditioning, is used for the air-cooler with the preparation of air conditioning.

In order to achieve the above purpose, the utility model provides a technical scheme does:

A refrigerable liquid fuel puffing fission device comprises a fission pipe, a resonance box and a cold air blower, wherein a high-pressure spray head, an inlet pipe and an outlet pipe are arranged in the fission pipe, a second port and a second port are respectively arranged at two ends of the fission pipe, the port is fixedly connected with the high-pressure spray head, the high-pressure spray head comprises a mixing cavity and a spray nozzle, the mixing cavity is communicated with the spray nozzle, the spray nozzle comprises a spray cavity and a spray hole, the spray cavity is hemispherical and is communicated with the fission pipe through the spray hole, the rear end of the high-pressure spray head mixing cavity is communicated with the inlet pipe, the inlet pipe comprises a gas inlet pipe and a liquid inlet pipe, the second port is fixedly connected with the outlet pipe, the outlet pipe is a T-shaped pipe, the transverse pipe is a gas outlet pipe, the vertical pipe below the transverse pipe is a liquid outlet pipe, the gas outlet pipe is communicated with the liquid outlet pipe, the resonance box is nested outside the fission pipe, a sawtooth saw tooth is arranged on the resonance box body, a high-pressure air inlet and a cooling pipe are filled with high-pressure air, the high-pressure air is introduced into the resonance box, the resonance box is filled with high-pressure air, the cold air is introduced into the resonance box, the cold air inlet is inserted into the resonance box, the saw tooth is inserted into the saw tooth of the resonance box, the saw tooth of the resonance box, the saw tooth of.

, the high-pressure nozzle is hermetically connected with the port, the outlet pipe is hermetically connected with the second port, the resonance box is hermetically connected with the fission pipe, and the cooling pipe is hermetically connected with the resonance box at the outer walls of the two ends in the resonance box respectively.

, the fission tube body has a length to diameter ratio of 40:2 to 40: 6.

And , the liquid outlet pipe of the outlet pipe is spaced from the fission pipe by a distance of 1-4 mm.

, the area of the second air outlet is not less than the area of the air outlet.

, the shell is provided with a cold air port.

, introducing high pressure air at 2-6MPa and flow rate of 4-10 m/s into the gas inlet pipe, and introducing liquid fuel at 0.1MPa and 500 ml/hr into the liquid inlet pipe.

, jetting a plurality of high-speed jet flows by the liquid fuel and the high-pressure air through a high-pressure nozzle in the liquid fuel swelling fission device, wherein the high-speed jet flows directly to the inner wall of the fission tube body, after being reflected, the high-speed jet flows continuously collide with the inner wall of the fission tube body and the high-speed jet flows crossed with the inner wall of the fission tube body at a high speed, the fission tube body forms resonance with the high-pressure air wrapped outside the fission tube body, and transmits energy to the high-speed jet flows, so that the high-speed jet flow liquid fuel particles are continuously reduced until the high-speed jet flow fuel particles are discharged out of the fission tube through an outlet pipe.

, the liquid fuel is methanol.

Further , the methanol has a purity greater than 92%.

Compared with the prior art, the utility model discloses the beneficial effect who has does:

the utility model provides an kind can refrigerated liquid fuel popped fission ware, spout liquid fuel into the fission pipe through high-speed atomizing stream form through high-pressure gas, collision constantly and each high-speed atomizing stream's collision at fission pipe, form gaseous fuel after, export the use through the outlet pipe, through the resonance box, realize the resonance of the process of high-pressure gas in the resonance box and the liquid fuel gasification in the fission pipe impact to the fission pipe, strengthen the gasification of liquid fuel, the outlet pipe adopts T type pipe, the big fog droplet that smugglies secretly in the gaseous fuel stream falls into the liquid outlet through the action of gravity and retrieves, through atomizing endothermic process, be used for air cooler air conditioning source, the air cooler adjusts the amount of wind size through the regulating tube.

Drawings

Fig. 1 is a schematic view of cryogenic liquid fuel puffing breakers provided by the present invention;

FIG. 2 is a schematic view of a high pressure showerhead;

FIG. 3 is a schematic view of the internal structure of an air cooler;

FIG. 4 is a cross-sectional view of the adjustment tube and the retaining sleeve;

fig. 5 is a schematic view of the connection between the adjusting tube and the second fixing sleeve.

In the figure, 1 is a fission tube, 2 is a th port, 3 is a second port, 4 is a high-pressure nozzle, 5 is an inlet tube, 501 is a gas inlet tube, 502 is a liquid inlet tube, 6 is an outlet tube, 601 is a gas outlet tube, 602 is a liquid outlet tube, 7 is a mixing chamber, 8 is an injection chamber, 9 is an injection hole, 10 is a resonance box, 11 is a constant-pressure valve, 12 is a high-pressure gas inlet, 13 is a cooling tube, 14 is a cold air tube, 15 is a shell, 16 is an adjusting tube, 17 is a th air outlet, 18 is a second air outlet, 19 is a sawtooth, 20 is a th fixing sleeve, 21 is a second fixing sleeve, 22 is a support rod, 23 grooves, 24 is a pull bead, and 25 is a cold air outlet.

Detailed Description

The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of , but not all embodiments.

As shown in fig. 1-5, refrigerable liquid fuel puffing fission device comprises a fission pipe 1, a resonance box 10 and a cold air blower, a high-pressure nozzle 4, an inlet pipe 5 and an outlet pipe 6 are arranged in the fission pipe 1, a port 2 and a second port 3 are respectively arranged at two ends of the fission pipe 1, a high-pressure nozzle 4 is fixedly connected to the port 2 of the second 0 and comprises a mixing cavity 7 and a nozzle, the mixing cavity 7 is communicated with the nozzle, the nozzle comprises a jet cavity 8 and a jet hole 9, the jet cavity 8 is hemispherical, the jet cavity 8 is communicated with the fission pipe 1 through the jet hole 9, the rear end of the mixing cavity 7 of the high-pressure nozzle 4 is communicated with the inlet pipe 5, the inlet pipe 5 comprises a gas inlet pipe 501 and a liquid inlet pipe 502, the second port 3 is fixedly connected with the outlet pipe 6, the outlet pipe 6 is a T-shaped pipe, the gas outlet pipe 601, a vertical pipe below the horizontal pipe is a liquid outlet pipe 602, the gas outlet pipe 601 is communicated with the liquid outlet pipe 602, the gas outlet pipe 601 and the liquid outlet pipe 602, the gas outlet pipe 602 is nested outside the resonance box 10, the resonance box 10 is nested outside the resonance box 10, a constant pressure valve 11, a sawtooth inlet 12 and a sawtooth inlet pipe 13 is arranged on the resonance box, the resonance box 10 is arranged in the resonance box, the cold air outlet 20, the resonance box, the cold air outlet 20 is connected with the cold air blower, the cold air blower 13, the cold air blower is connected with the cold air blower 13, the cold air blower 13 is connected with the cold air blower, the cold air blower 13 is connected with the cold air blower, the cold air blower is connected with the cold air blower, the cold air blower 13 is connected with the cold air blower, the cold air.

High-pressure air is introduced into a gas inlet pipe of the liquid fuel swelling fission device, and liquid fuel is introduced into a liquid inlet pipe; adjusting the inlet pressure of the liquid fuel to 0.1MPa, the flow rate to 500 ml/h, the inlet pressure of the high-pressure air to 2-6MPa and the flow rate to 4-10 m/s, introducing the liquid fuel and the gas fuel, filling high-pressure air into the resonance box through the high-pressure air inlet until the fuel gas is discharged from the outlet pipe of the fission pipe, stopping filling the high-pressure air into the resonance box, and setting a constant pressure valve for constant pressure; liquid fuel and high-pressure air are sprayed with a plurality of high-speed jet flows through a high-pressure nozzle in the liquid fuel swelling and cracking device, the high-speed jet flows directly to the inner wall of the tube body of the cracking tube, after being reflected, the high-speed jet flows continuously collide with the inner wall of the tube body of the cracking tube and the high-speed jet flows crossed with the inner wall of the tube body of the cracking tube at a high speed, the tube body of the cracking tube forms resonance with high-pressure air wrapped outside the tube body of the cracking tube, and energy is transmitted to the high-speed jet flows; the liquid fuel is expanded and cracked by the fission pipe and then is discharged through the outlet pipe, and is separated into gas and liquid in the outlet pipe, and the gas can be directly used as fuel.

In the embodiment, the liquid fuel adopts methanol, and the purity of the methanol is more than 92%.

In the embodiment, when in implementation, the liquid fuel is pressurized to form a liquid flow, and then enters the high-pressure nozzle 4 through the liquid inlet pipe 502, the gas is pressurized to form a gas flow, and then enters the high-pressure nozzle through the gas inlet pipe 501, the liquid flow and the gas flow meet in the high-pressure nozzle 4 and are ejected through the high-pressure nozzle 4 to form a plurality of high-pressure jets to be ejected into the tube body of the fission tube 1, the high-pressure jets continuously collide and reflect on the inner wall of the tube body of the fission tube 1, and the high-pressure jets continuously collide with each other, at the same time, the high-pressure air distributed outside the tube body of the fission tube 1 resonates with the tube body of the fission tube 1, droplets of the liquid fuel are continuously broken and worn in the collision process (absorbing energy and heat, overcoming surface tension), the surface is promoted to be renewed, and the surface area of the droplets is increased until stable, and are discharged, the residual gas outputs fuel gas through the gas outlet 601, the fuel gas is high-pressure gas carrying fuel droplets with extremely small particle size, the storage is stable, the energy consumption is low in the using process, and carbon deposition is not easy to generate. The liquid fuel continuously absorbs heat from the periphery in the expanding process, and the heat absorption process is utilized for the cold air source of the air cooler.

The above description has been made in detail only for the preferred embodiment of the present invention, but the present invention is not limited to the above embodiment, and various changes can be made without departing from the spirit of the present invention within the knowledge scope of those skilled in the art, and all such changes are intended to be encompassed by the present invention.

Claims

The cryogenic liquid fuel puffing fission device is characterized by comprising a fission tube, a resonance box and a cold air blower, wherein a high-pressure spray head, an inlet tube and an outlet tube are arranged in the fission tube, the second port and the second port are respectively arranged at two ends of a tube body of the fission tube, the high-pressure spray head is fixedly connected with the port and comprises a mixing cavity and a spray nozzle, the mixing cavity is communicated with the spray nozzle, the spray nozzle comprises a spray cavity and a spray hole, the spray cavity is hemispherical and is communicated with the fission tube through the spray hole, the rear end of the mixing cavity of the high-pressure spray head is communicated with the inlet tube, the inlet tube comprises a gas inlet tube and a liquid inlet tube, the second port is fixedly connected with the outlet tube, the outlet tube is a T-shaped tube, the transverse tube is a gas outlet tube, the transverse tube below the transverse tube is a liquid outlet tube, the gas outlet tube is communicated with the liquid outlet tube, the resonance box is nested outside the fission tube, a constant pressure valve, a high-pressure gas inlet and a cooling tube are arranged on the resonance box body, high-pressure air inlet and high-pressure air is filled in the resonance box body, the resonance box is used for introducing high-pressure air, the cooling tube penetrates through the resonance box, the cold air outlet tube penetrates through a sawtooth, the regulating tube is connected with a second regulating sleeve, the second regulating sleeve, the regulating sleeve is connected with a second regulating sleeve, the regulating end of the second regulating sleeve, the sawtooth regulating end.
2. The cryogenic liquid fuel puffing and cracking device of claim 1, wherein the high-pressure nozzle is hermetically connected with a port, the outlet pipe is hermetically connected with a second port, the resonance box is hermetically connected with the fission pipe, and the cooling pipe is hermetically connected with the resonance box respectively at the inner end and the outer end of the resonance box.
3. The refrigerable liquid fuel puffing-fission device of claim 1, wherein the ratio of the length to the diameter of the fission tube body is 40: 2-40: 6.
4. The refrigerable liquid fuel puffing-fission device according to claim 1, wherein the distance from the liquid outlet pipe of the outlet pipe to the fission pipe is 1-4 mm.
5. The refrigerated liquid fuel popping fission device of claim 1, wherein the second air outlet area is not less than the air outlet area.
6. The refrigerated liquid fuel expander-cracker of claim 1, wherein the shell defines a cold air port.
7. The kinds of cryogenic liquid fuel puffing and cracking device, according to claim 1, wherein the gas inlet pipe is filled with high pressure air, the inlet pressure of the high pressure air is 2-6MPa, the flow rate is 4m/s-10m/s, the liquid inlet pipe is filled with liquid fuel, the inlet pressure of the liquid fuel is 0.1MPa, and the flow rate is 500 ml/h.
8. The kinds of refrigerable liquid fuel puffing fission device, according to claim 7, wherein the liquid fuel and the high pressure air jet a plurality of high speed jets through a high pressure nozzle in the liquid fuel puffing fission device, the high speed jets are directly directed to the inner wall of the fission tube body, after being reflected, the high speed jets continue to collide with the inner wall of the fission tube body and the high speed jets crossing the inner wall, the fission tube body forms resonance with the high pressure gas wrapped outside the fission tube body, and transmits energy to the high speed jets, so that the high speed jets continuously reduce the liquid fuel particles until the high pressure gas is discharged out of the fission tube through the outlet tube, the high pressure gas is separated into gas and liquid in the outlet tube, and the gas can be directly used as fuel.
9. The refrigerated liquid fuel popping/cracking device of claim 7, wherein the liquid fuel is methanol.