CN211014210U - Test platform for hydrogen production by methanol water reforming - Google Patents

Abstract

The utility model relates to the technical field of hydrogen production by formaldehyde water, in particular to a test platform for hydrogen production by methanol water reforming, which is provided with a water-cooling gas-water separation device, is convenient for hydrogen production by formaldehyde water reforming and improves the practicability; the water cooling tank comprises a water cooling tank, a compressor, a circulating condenser pipe, a first water falling funnel, a first water control valve and a first water falling pipe, wherein the compressor is arranged in the middle of the upper end of the water cooling tank, the output end of the compressor is connected with the input end of the upper end of the circulating condenser pipe, the circulating condenser pipe is arranged in a condensation cavity, the circulating condenser pipe is transversely arranged between a first air inlet and a first air outlet, a water outlet is formed in the lower end of the water cooling tank, the upper end of the first water falling funnel is connected with the lower end of the water outlet of the water cooling tank, the first water falling funnel is communicated with the condensation cavity, the lower end of the first water falling funnel is connected with the upper end of the first water falling pipe, the first water falling pipe is communicated with the condensation cavity through the first water falling funnel, and the first water control.

Description

Test platform for hydrogen production by methanol water reforming

Technical Field

The utility model relates to a technical field of formalin hydrogen manufacturing especially relates to a test platform of methanol-water reforming hydrogen manufacturing.

Background

As is well known, a test platform for hydrogen production by methanol water reforming is an auxiliary device for hydrogen production by formaldehyde water reforming, and is widely used in the field of hydrogen production by formaldehyde water; the methanol is the most common reaction raw material in the hydrogen production by fuel reforming, the source of the methanol is wide, the production process is mature, and the hydrogen production by methanol-water reforming realizes the hydrogen production on site and the mobile hydrogen production, saves the links of hydrogen storage and transportation, and has great advantages; the existing test platform for hydrogen production by methanol water reforming is used for discovering that hydrogen can be mixed with certain water vapor in the hydrogen production process by formaldehyde water reforming, so that hydrogen is impure in preparation and poor in use practicability.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a set up water-cooling gas-water separation device, the methanol-water reformation hydrogen manufacturing operation of being convenient for improves the test platform who uses the practicality.

The utility model relates to a test platform for methanol water reforming hydrogen production, which comprises a water cooling tank, a first gas inlet, a first gas outlet, a condensation cavity, a compressor, a circulating condenser pipe, a first water falling funnel, a first water control valve and a first water falling pipe, wherein the inside of the water cooling tank is provided with the condensation cavity, the upper side of the right end of the water cooling tank is provided with the first gas inlet, the first gas inlet is communicated with the condensation cavity, the upper side of the left end of the water cooling tank is provided with the first gas outlet, the first gas outlet is communicated with the condensation cavity, the middle part of the upper end of the water cooling tank is provided with the compressor, the output end of the compressor is connected with the input end of the upper end of the circulating condenser pipe, the circulating condenser pipe is arranged inside the condensation cavity, the circulating condenser pipe is transversely arranged between the first gas inlet and the first gas outlet, an air vent is arranged between the circulating condenser pipes, the lower end of the water cooling, and the first downpipe is communicated with the condensation cavity through the first downpipe funnel, and the first water control valve is arranged in the middle of the outer side of the circumference of the first downpipe.

The utility model discloses a test platform for methanol water reforming hydrogen production, which also comprises an accelerating aeration pipe, a high pressure fan, a cyclone separating cylinder, a cyclone separating cavity, a gas-water isolating pipe, a second water falling funnel, a second water control valve, a second water falling pipe, a gas outlet box and a second gas outlet, wherein the right end of the accelerating aeration pipe is communicated with the left end of the first gas outlet, the high pressure fan is communicated and arranged in the middle of the accelerating aeration pipe, the upside of the right end of the cyclone separating cylinder is connected with the left end of the accelerating aeration pipe, the cyclone separating cavity is arranged in the cyclone separating cylinder, the gas-water isolating pipe is arranged in the middle of the upper end of the cyclone separating cylinder, the lower part of the gas-water isolating pipe is arranged in the cyclone separating cavity, the upper part of the gas-water isolating pipe is connected with the middle of the lower end of the gas outlet box, the gas-water isolating pipe is communicated with the gas outlet box, the upper, the second water control valve is arranged in the middle of the outer side of the circumference of the second downpipe, and a second air outlet is arranged in the middle of the left end of the air outlet box.

The utility model discloses a test platform of methanol-water reforming hydrogen manufacturing still includes accelerating motor and accelerating flabellum, and the accelerating motor lower extreme is connected with box upper end middle part of giving vent to anger, and accelerating motor lower extreme output is connected with accelerating flabellum upper end input to the flabellum setting is inside the box of giving vent to anger with higher speed.

The utility model discloses a test platform of methanol-water reforming hydrogen manufacturing, still include the rose box, total water collecting pipe, the water-stop sheet, filter and delivery port, total water collecting pipe left end and second pipe in the water intercommunication, total water collecting pipe right-hand member and first pipe in the water intercommunication, the rose box sets up at total water collecting pipe downside, and total water collecting pipe lower extreme and rose box upper end left side water inlet intercommunication, the inside filter chamber that is provided with of rose box, the water-stop sheet sets up inside the rose box, and the water-stop sheet upper end is connected with the inside upper wall left side of rose box, the water-stop sheet lower extreme has the basin with rose box lower wall reservation, the filter plate left end is connected with the water-stop sheet right-hand member, the filter plate right-hand member is connected with the inside right wall of rose.

The utility model discloses a test platform of methanol-water reformation hydrogen manufacturing, the filter is provided with two sets ofly.

The utility model discloses a test platform of methanol-water reforming hydrogen manufacturing still includes the air inlet funnel, and the air inlet funnel left end is connected with the breather pipe right-hand member with higher speed to the air inlet funnel right-hand member communicates with first gas outlet left end.

The utility model discloses a test platform of methanol-water reforming hydrogen production still includes the valve of always controlling, and the valve setting of always controlling is in the total water collecting pipe lower part circumference outside.

The utility model discloses a test platform of methanol-water reforming hydrogen production, circulating condenser pipe outer wall surface sets up to stainless steel.

Compared with the prior art, the beneficial effects of the utility model are that: input the hydrogen water mixture who renovates out again in the formaldehyde aquatic to the condensation chamber through first income gas port, later start the compressor, the compressor inputs air conditioning to the circulation condenser pipe in, then the circulation condenser pipe carries out the water-cooling separation to the hydrogen water mixture, make moisture condense into the drop of water, later the drop of water falls into the first funnel up end that falls into water of downside, then outside first funnel that falls into water passes through first pipe outflow ware, through setting up first accuse water valve, be convenient for control drop of water outflow rate, through setting up water-cooling gas-water separation device, the formaldehyde water reforming hydrogen production operation of being convenient for, improve the practicality of use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is an enlarged schematic view of the water cooling tank;

FIG. 3 is an enlarged schematic view of the filter box;

in the drawings, the reference numbers: 1. a water cooling tank; 2. a first air inlet; 3. a first air outlet; 4. a condensation chamber; 5. a compressor; 6. a circulating condenser pipe; 7. a first sink funnel; 8. a first water control valve; 9. a first downpipe; 10. accelerating the vent pipe; 11. a high pressure fan; 12. a cyclone separation cylinder; 13. a cyclonic separation chamber; 14. a gas-water isolating pipe; 15. a second water falling funnel; 16. a second water control valve; 17. a second downpipe; 18. an air outlet box; 19. a second air outlet; 20. an acceleration motor; 21. accelerating fan blades; 22. a filter box; 23. a main header pipe; 24. a water-stop sheet; 25. a filter plate; 26. a water outlet; 27. an air inlet funnel; 28. the total control valve.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in figures 1 to 3, the utility model relates to a test platform for methanol water reforming hydrogen production, which comprises a water cooling tank 1, a first gas inlet 2, a first gas outlet 3, a condensation chamber 4, a compressor 5, a circulating condensation pipe 6, a first water falling funnel 7, a first water control valve 8 and a first water falling pipe 9, wherein the inside of the water cooling tank 1 is provided with the condensation chamber 4, the upper side of the right end of the water cooling tank 1 is provided with the first gas inlet 2, the first gas inlet 2 is communicated with the condensation chamber 4, the upper side of the left end of the water cooling tank 1 is provided with the first gas outlet 3, the first gas outlet 3 is communicated with the condensation chamber 4, the middle part of the upper end of the water cooling tank 1 is provided with the compressor 5, the output end of the compressor 5 is connected with the upper input end of the circulating condensation pipe 6, the circulating condensation pipe 6 is arranged inside the condensation chamber 4, the circulating condensation pipe 6 is transversely arranged between the first gas inlet 2 and the first gas outlet 3, and a vent hole is, the lower end of the water cooling tank 1 is provided with a water outlet, the upper end of a first water falling funnel 7 is connected with the lower end of the water outlet of the water cooling tank 1, the first water falling funnel 7 is communicated with the condensation cavity 4, the lower end of the first water falling funnel 7 is connected with the upper end of a first water falling pipe 9, the first water falling pipe 9 is communicated with the condensation cavity 4 through the first water falling funnel 7, and a first water control valve 8 is arranged in the middle of the outer side of the circumference of the first water falling pipe 9; input the hydrogen water mixture who renovates out again in the formalin to condensation chamber 4 through first income gas port 2, after start compressor 5, compressor 5 inputs air conditioning to circulation condenser pipe 6 in, then circulation condenser pipe 6 carries out the water-cooling separation to the hydrogen water mixture, make moisture condense into the drop of water, later the drop of water falls into the first funnel 7 up end that falls into water of downside, then first funnel 7 that falls into water is outside through first pipe 9 outflow ware, through setting up first accuse water valve 8, be convenient for control drop of water outflow rate, through setting up water-cooling air water separator, the hydrogen manufacturing operation of formalin reforming of being convenient for, improve the practicality of use.

The utility model discloses a test platform for methanol water reforming hydrogen production, which also comprises an accelerating aeration pipe 10, a high pressure fan 11, a cyclone separating cylinder 12, a cyclone separating cavity 13, a gas-water isolating pipe 14, a second water falling funnel 15, a second water control valve 16, a second water falling pipe 17, a gas outlet box 18 and a second gas outlet 19, wherein the right end of the accelerating aeration pipe 10 is communicated with the left end of a first gas outlet 3, the high pressure fan 11 is communicated and arranged in the middle of the accelerating aeration pipe 10, the upper side of the right end of the cyclone separating cylinder 12 is connected with the left end of the accelerating aeration pipe 10, the cyclone separating cavity 13 is arranged in the cyclone separating cylinder 12, the gas-water isolating pipe 14 is arranged in the middle of the upper end of the cyclone separating cylinder 12, the lower part of the gas-water isolating pipe 14 is arranged in the cyclone separating cavity 13, the upper part of the gas-water isolating pipe 14 is connected with the middle of the lower end of the gas outlet box 18, the gas-water isolating, the second downpipe 17 is connected with the upper end of a second downpipe through a squat of a second downpipe funnel 15, a second water control valve 16 is arranged in the middle of the outer side of the circumference of the second downpipe 17, and a second air outlet 19 is arranged in the middle of the left end of an air outlet box 18; through starting high pressure positive blower 11, with the high-speed hydrogen of water-cooling after-separating in right side water-cooling case 1 taking out from water-cooling case 1, and get into left side whirlwind separation chamber 13 at a high speed, later the high-speed hydrogen water mixture that transversely gets into can be along whirlwind 12 inner walls of cylinder for helical motion, then the aqueous vapor separates in following wall spiral motion because of self density difference, heavier water is along the slowly spiral motion downwards of whirlwind 12 inner walls of cylinder, lighter hydrogen stops on upper portion, later through gas-water separation pipe 14 with give vent to anger outside box 18 outflow ware, input to next process, through addding whirlwind gas water separator, improve gas-water separation efficiency, improve gas-water separation effect, improve the practicality of use.

The utility model discloses a test platform for hydrogen production by methanol water reforming, which also comprises an accelerating motor 20 and accelerating fan blades 21, wherein the lower end of the accelerating motor 20 is connected with the middle part of the upper end of the gas outlet box 18, the output end of the lower end of the accelerating motor 20 is connected with the input end of the upper end of the accelerating fan blades 21, and the accelerating fan blades 21 are arranged inside the gas outlet box 18; the hydrogen flowing into the gas outlet box 18 through the gas-water isolating pipe 14 is accelerated out of the hydrogen outflow device through the cooperation of the accelerating motor 20 and the accelerating fan 21, so that the accumulation of the hydrogen in the gas outlet box 18 is avoided, and the use efficiency is improved.

The utility model discloses a test platform of methanol-water reformation hydrogen manufacturing, still include rose box 22, water collection pipe 23 always, water-stop sheet 24, filter 25 and delivery port 26, water collection pipe 23 left end and second pipe in water 17 intercommunication always, water collection pipe 23 right-hand member and first pipe in water 9 intercommunication always, rose box 22 sets up at water collection pipe 23 downside always, and water collection pipe 23 lower extreme and rose box 22 upper end left side water inlet intercommunication always, the inside filter chamber that is provided with of rose box 22, water-stop sheet 24 sets up inside rose box 22, and water-stop sheet 24 upper end and rose box 22 inside upper wall left side are connected, water-stop sheet 24 lower extreme and rose box 22 lower wall reserve has the basin of crossing, the filter 25 left end is connected with water-stop sheet 24 right-hand member, filter 25 right-hand member and rose box 22 inside right wall are connected, rose box 22 right-hand member upside is provided; the comdenstion water that the separation was gone out flows into to rose box 22 through total collector 23 in, and later the comdenstion water passes through 24 isolations of water-stop sheet and flows into water-stop sheet 24 right sides from downside water flowing groove, then filters through filter 25, and later the drainage passes through delivery port 26 outflow equipment, through setting up separation water filtration equipment, is convenient for purify reforming hydrogen exhaust waste water, prevents that waste water from discharging in disorder and putting the polluted environment, improves and uses the feature of environmental protection.

The utility model discloses a test platform for hydrogen production by methanol water reforming, two groups of filter plates 25 are arranged; through setting up two sets of filter 25, be convenient for improve the filter effect, improve and use the practicality.

The utility model discloses a test platform for hydrogen production by methanol water reforming, which also comprises an air inlet funnel 27, wherein the left end of the air inlet funnel 27 is connected with the right end of the accelerating vent pipe 10, and the right end of the air inlet funnel 27 is communicated with the left end of the first air outlet 3; through setting up air inlet funnel 27, be convenient for guide air water mixture to get into in accelerating vent pipe 10, prevent that air water mixture from excessive, improve the stability in use.

The utility model discloses a test platform for hydrogen production by methanol water reforming, which also comprises a master control valve 28, wherein the master control valve 28 is arranged outside the circumference of the lower part of the master water collecting pipe 23; through setting up total control valve 28, be convenient for control water flow rate improves the convenience of use.

The utility model discloses a test platform for hydrogen production by methanol water reforming, the surface of the outer wall of a circulating condenser pipe 6 is made of stainless steel; because circulation condenser pipe 6 is first gas-water separation device, so 6 surperficial rusts of circulation condenser pipe can be comparatively serious, sets up to stainless steel through 6 surfaces with circulation condenser pipe, avoids equipment rust to corrode, improves stability in use.

The utility model discloses a test platform for methanol water reforming hydrogen production, when it works, firstly, the hydrogen water mixture which is reformed and treated again in the formaldehyde water is input into the condensation chamber through the first air inlet, then the compressor is started, the compressor inputs the cold air into the circulating condenser pipe, then the circulating condenser pipe carries out water-cooling separation on the hydrogen water mixture, so that the water is condensed into water drops, then the water drops fall into the upper end surface of the first water falling funnel at the lower side, then the first water falling funnel flows out of the device through the first water falling pipe, then the hydrogen which is subjected to water-cooling separation in the water cooling tank at the right side is pumped out of the water cooling tank at high speed by starting the high pressure fan, and enters into the cyclone separation chamber at the left side at high speed, then the hydrogen water mixture which transversely enters at high speed can do spiral motion along the inner wall of the cyclone separation barrel, later the water is separated in spiral motion along the wall due to the density difference, lighter hydrogen stops in upper portion, then through the gas-water separation pipe with give vent to anger outside the box outflow, input to next process, the comdenstion water that separates flows into in the filter box through total header pipe, later the comdenstion water through the water-stop sheet keep apart from downside water flowing groove flow into the water-stop sheet right side, then through the filter filtration, later the filtration water through delivery port outflow equipment can.

The utility model discloses a test platform of methanol-water reforming hydrogen production, its mounting means, connected mode or set up the mode and be common mechanical type, as long as can reach all can implement of its beneficial effect.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A test platform for methanol water reforming hydrogen production is characterized by comprising a water cooling tank (1), a first air inlet (2), a first air outlet (3), a condensation cavity (4), a compressor (5), a circulating condensation pipe (6), a first water falling funnel (7), a first water control valve (8) and a first water falling pipe (9), wherein the condensation cavity (4) is arranged inside the water cooling tank (1), the first air inlet (2) is arranged on the upper side of the right end of the water cooling tank (1), the first air inlet (2) is communicated with the condensation cavity (4), the first air outlet (3) is arranged on the upper side of the left end of the water cooling tank (1), the first air outlet (3) is communicated with the condensation cavity (4), the compressor (5) is arranged in the middle of the upper end of the water cooling tank (1), the output end of the compressor (5) is connected with the input end of the upper end of the circulating condensation pipe (6), and the circulating condensation pipe (6) is arranged inside the condensation cavity (4), the circulating condenser pipe (6) is transversely arranged between the first air inlet (2) and the first air outlet (3), an air vent is arranged between the circulating condenser pipes (6), a water outlet is formed in the lower end of the water cooling tank (1), the upper end of the first downpipe (7) is connected with the lower end of the water outlet of the water cooling tank (1), the first downpipe (7) is communicated with the condensation cavity (4), the lower end of the first downpipe (7) is connected with the upper end of the first downpipe (9), the first downpipe (9) is communicated with the condensation cavity (4) through the first downpipe (7), and the first water control valve (8) is arranged in the middle of the outer side of the circumference of the first downpipe (9).

2. The test platform for hydrogen production by methanol water reforming as claimed in claim 1, further comprising an accelerating aeration pipe (10), a high pressure fan (11), a cyclone separation cylinder (12), a cyclone separation chamber (13), a gas-water separation pipe (14), a second water falling funnel (15), a second water control valve (16), a second water falling pipe (17), an air outlet box (18) and a second air outlet (19), wherein the right end of the accelerating aeration pipe (10) is communicated with the left end of the first air outlet (3), the high pressure fan (11) is communicated with the middle part of the accelerating aeration pipe (10), the upper side of the right end of the cyclone separation cylinder (12) is connected with the left end of the accelerating aeration pipe (10), the cyclone separation chamber (13) is arranged inside the cyclone separation cylinder (12), the gas-water separation pipe (14) is arranged in the middle part of the upper end of the cyclone separation cylinder (12), and the lower part of the cyclone separation pipe (14) is arranged in the gas-water separation chamber (, the upper part of the air-water separation pipe (14) is connected with the middle part of the lower end of the air outlet box (18), the air-water separation pipe (14) is communicated with the air outlet box (18), the upper end of the second water falling funnel (15) is connected with a water falling port at the lower end of the cyclone separation cylinder (12), the second water falling funnel (15) squats downwards and is connected with the upper end of the second water falling pipe (17), the second water control valve (16) is arranged in the middle part of the outer side of the circumference of the second water falling pipe (17), and the middle part of the left end of the air outlet box (18) is provided with a second air outlet (19).

3. The test platform for hydrogen production by methanol water reforming as claimed in claim 2, further comprising an acceleration motor (20) and acceleration fan blades (21), wherein the lower end of the acceleration motor (20) is connected with the middle part of the upper end of the gas outlet box (18), the output end of the lower end of the acceleration motor (20) is connected with the input end of the upper end of the acceleration fan blades (21), and the acceleration fan blades (21) are arranged inside the gas outlet box (18).

4. The test platform for hydrogen production by methanol water reforming as claimed in claim 3, further comprising a filter box (22), a total water collecting pipe (23), a water stop plate (24), a filter plate (25) and a water outlet (26), wherein the left end of the total water collecting pipe (23) is communicated with the second water falling pipe (17), the right end of the total water collecting pipe (23) is communicated with the first water falling pipe (9), the filter box (22) is arranged at the lower side of the total water collecting pipe (23), the lower end of the total water collecting pipe (23) is communicated with a left water inlet at the upper end of the filter box (22), a filter chamber is arranged inside the filter box (22), the water stop plate (24) is arranged inside the filter box (22), the upper end of the water stop plate (24) is connected with the left side of the inner upper wall of the filter box (22), the lower end of the water stop plate (24) is reserved with the lower wall of the filter box (22), the left end of the filter plate (25) is connected with the right end of, the right end of the filter plate (25) is connected with the right wall inside the filter box (22), and a water outlet (26) is arranged on the upper side of the right end of the filter box (22).

5. The test platform for hydrogen production by methanol water reforming as claimed in claim 4, wherein two groups of filter plates (25) are provided.

6. The test platform for hydrogen production by methanol water reforming as claimed in claim 5, further comprising an air inlet funnel (27), wherein the left end of the air inlet funnel (27) is connected with the right end of the accelerating vent pipe (10), and the right end of the air inlet funnel (27) is communicated with the left end of the first air outlet (3).

7. The test platform for hydrogen production by methanol water reforming as claimed in claim 6, further comprising a master control valve (28), wherein the master control valve (28) is arranged outside the circumference of the lower part of the total water collecting pipe (23).

8. The test platform for hydrogen production by methanol water reforming as claimed in claim 7, wherein the surface of the outer wall of the circulating condensation pipe (6) is made of stainless steel.

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