CLEAN BOILER WITH STEAM CONVERSION AND HYDROGEN/OXYGEN PRE-BLENDING

Abstract

In a clean boiler with steam conversion and hydrogen/oxygen pre-blending, the clean boiler comprises two identical boiler bodies integrated to form a single entity. The clean boiler comprises two slim cavities, four water-containing chambers and four combustors, which is heated at wide faces and generates steams rapidly. The boiler comprises an integrate body containing two independent boiler bodies (1), and each of the independent boiler bodies (1) contains an independent boiler chamber (19). A steam conversion and transformation system is simultaneously provided for introducing a part of steam into the independent boiler chamber (19). High temperature of the boiler chamber (19) is utilized to promote a decomposition of the steam into H.sub.2 and O.sub.2. Water formed by H.sub.2 and O.sub.2 is utilized as a fuel to provide a self-sustaining combustion and heating, thus reducing a dependence on a primary energy source, reducing carbon emissions and protecting the environment.

Claims

1. A clean boiler with steam conversion and hydrogen/oxygen pre-blending, characterized in that the clean boiler provides two identical slim cavities integrated to form a single entity; the clean boiler comprises a plurality of water-containing chambers and a plurality of combustors; the clean boiler is heated at a plurality of wide faces, decomposes a water molecule completely and generates steam rapidly; the clean boiler spontaneously produces hydrogen energy and provides a system enabling to boil water automatically and to generate the steam; the clean boiler comprises an integrate body containing two independent boiler bodies, and each of the independent boiler bodies contains an independent boiler chamber; a double layer liner pot of boiler is respectively provided in a middle part and an upper part of the independent boiler chamber; a modified hydrogen-energy infrared combustor by a steam catalytic reaction is provided in a middle space between an upper part of a lower-layer boiler pot and an upper-layer boiler pot; a hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel is separately provided at a lower part of an lower part of the lower-layer boiler pot in the independent boiler chamber; a water steam filter tank is provided at an upper part of the independent boiler body to intercept the steam evaporated from the clean boiler; a fire smoke collection tank is provided in a center of the folding of the integrate body of the clean boiler; a steam collection/distribution tank is provided in the middle part of the fire smoke collection tank; a first snake-shape steam pipe is respectively provided between each of the independent boiler chamber and the middle space of the lower-layer boiler pot and the upper-layer boiler pot; an upper end of the first snake-shape steam pipe enters into the fire smoke collection tank and is connected to the steam collection/distribution tank through a smoke outlet of the independent boiler chamber; and a lower end of the first snake-shape steam pipe at the lower part of the boiler chamber is connected to a steam separation and reaction component installed with an aim of separating and converting the steam.

2. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that a structure of the double layer liner pot of boiler of the independent boiler chamber comprises a water cavity with a round bottom of the lower-layer boiler pot of the double layer liner pot of boiler; a first water pipe section, a second water pipe section and a third water pipe section are connected between the upper-layer boiler pot and the lower-layer boiler pot and the independent boiler bodies; and the upper-layer boiler pot, the lower-layer boiler pot are suspended in a middle-upper part of the independent boiler bodies, forming a lantern-shape structure layout.

3. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that a steam catalytic converting reaction bed is provided in a middle of an ignition cavity of the hydrogen-energy infrared combustor by a steam catalytic reaction; an infrared radiation plate is provided on the steam catalytic converting reaction bed; and the hydrogen-energy infrared combustor by a steam catalytic reaction is dismountable, and is attached to the margin of the second water pipe section between the upper-layer boiler pot and the lower-layer boiler pot to remove a replaceable wearing part and an ineffective catalyst.

4. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that a flare tube is vertically provided in a burning cavity of the hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel; an upper end of the flare tube is lifted out of an ignition point center to draw a large amount of external air into the independent boiler chamber by a suction force of a rising gas from the independent boiler chamber; and energy of air is raised; a fire starter is provided in a cavity of the flare tube for starting an ignition; a joint inlet for gas, fuel, steam and air is provided on a side of an lower part of the hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel; a catalytic reaction bed is provided in the middle of the ignition cavity between an inside of the hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel and an outside of the flare tube; the catalytic reaction bed is used for compatibility of a conversion reaction of primary energy, steam and air.

5. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that in the water steam filter tank provided at an upper part of the independent boiler body, a first steam-stopper cap is provided above the convex nozzle at the center of the bottom of the water steam filter tank to intercept and precipitate a rising blister in the clean boiler; a first water sink is provided around a bottom circle of the water steam filter tank; a small return water pipe is provided at the bottom of the first water sink and an lower end of the small return water pipe is directly inserted into a middle of receiving water in the independent boiler body, to avoid a pressure interference in the independent boiler body during transporting of sinking water back to the independent boiler body.

6. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that the steam collection/distribution tank is connected respectively to a left and a right wings of the water steam filter tank at two independent boiler bodies; the steam collection/distribution tank collects, filters the steam and distributes the steam again; the steam collection/distribution tank collect an unburnt flue-air of the fire smoke collection tank and preserves temperature and energy; a second steam-stopper cap is provided above an inlet of the steam collection/distribution tank to intercept for a second time to reduce water accompanying with the steam from the steam collection/distribution tank; a second water sink is provided around a bottom circle of the water steam filter tank; a small water-passing pipe is provided at the bottom of the second water sink and an lower end of the small water-passing pipe is directly inserted into a middle of receiving water in the independent boiler body, to avoid an interference imposed by a saturated steam during transporting of sinking water back to the independent boiler body.

7. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that in the middle of the steam separation and reaction component, a catalytic reactor is arranged for intercepting the catalytic reforming of the steam; a sub-steam mouth is provided at one side of the steam separation and reaction component and connected with a second snake-shape steam pipe; a steam separation and connection pipe is provided at a lower part of the steam separation and reaction component; the steam in the first snake-shape steam pipe enters into the steam separation and reaction component and then into the modified hydrogen-energy infrared combustor by a steam catalytic reaction through second snake-shape steam pipe; the steam also enters into a hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel through a connecting tube.

8. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 7, characterized in that the second snake-shape steam pipe comprises a spiral spring-shape pipe to increase a length of the spiral spring-shape pipe; the spiral spring-shape pipe increase the decomposition of steam at high temperature and improve a gasification rate before the steam enters into the modified hydrogen-energy infrared combustor by a steam catalytic reaction.

9. The clean boiler with steam conversion and hydrogen/oxygen pre-blending of claim 1, characterized in that a peephole is provided at a wall of the boiler body, to observe the situation of steam conversion and burning; a steam passing speed is adjusted accordingly to ensure a combustion effect.

Description

BRIEF DESCRIPTION OF DRAWAINGS

[0011] FIG. 1 shows a schematic diagram of the present invention.

[0012] The dotted line quoted in the drawings ensures that the lines at the slits in the figure can distinguish the details in the drawings more clearly.

[0013] Combined with figures and detailed embodiments, detailed description and explanation are further provided below.

DETAILED DESCRIPTION

[0014] Referring to the figure, the clean boiler comprises two slim cavities, four water-containing chambers and four combustors, which is heated at wide faces and generates steams rapidly. The clean boiler provides self-combustion, heating and energy-supplying. The boiler comprises an integrate body containing two independent boiler bodies 1, and each of the independent boiler bodies 1 contains an independent boiler chamber 19. A double layer liner pot of boiler with a lantern shape is respectively provided in a middle part and an upper part of the independent boiler chamber 19.

[0015] A structure of the double layer liner pot of boiler of the independent boiler chamber comprises a water cavity with a round bottom of the lower-layer boiler pot 3.

[0016] A first water pipe section 18, a second water pipe section 21 and a third water pipe section 26 are connected between the upper-layer boiler pot 7 and the lower-layer boiler pot 3 and the independent boiler bodies.

[0017] The upper-layer boiler pot 7, the lower-layer boiler pot 3 are suspended in a middle-upper part of the independent boiler bodies 1, forming a lantern-shape structure layout.

[0018] A modified hydrogen-energy infrared combustor by a steam catalytic reaction 5 is provided in a middle space between an upper part of a lower-layer boiler pot 3 and an upper-layer boiler pot 7. a steam catalytic converting reaction bed 27 is provided in a middle of an ignition cavity of the hydrogen-energy infrared combustor by a steam catalytic reaction.

[0019] An infrared radiation plate 6 is provided on the steam catalytic converting reaction bed 27. The hydrogen-energy infrared combustor by a steam catalytic reaction 5 is dismountable, and is attached to the margin of the second water pipe section 21 between the upper-layer boiler pot 7 and the lower-layer boiler pot 3 to remove a replaceable wearing part and an ineffective catalyst.

[0020] A hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel 28 is separately provided at a lower part of an lower part of the lower-layer boiler pot 3 in the independent boiler chamber 19.

[0021] A flare tube 29 is vertically provided in a burning cavity of the hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel 28.

[0022] An upper end of the flare tube 29 is lifted out of an ignition point center to draw a large amount of external air into the independent boiler chamber 19 by a suction force of a rising gas from the independent boiler chamber 19; and energy of air is raised.

[0023] An electronic or pulse fire starter is provided in a cavity of the flare tube for starting an ignition.

[0024] A joint inlet for gas, fuel, steam and air 24 is provided on a side of an lower part of the hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel 28.

[0025] A catalytic reaction bed 23 is provided in the middle of the ignition cavity between an inside of the hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel 28 and an outside of the flare tube 29.

[0026] The catalytic reaction bed 23 is used for compatibility of a conversion reaction of primary energy, steam and air.

[0027] A water steam filter tank 11 is provided at an upper part of the independent boiler body 1 to intercept the steam evaporated from the clean boiler.

[0028] In the water steam filter tank 11 provided at an upper part of the independent boiler body 1, a first steam-stopper cap 10 is provided above the convex nozzle at the center of the bottom of the water steam filter tank 11 to intercept and precipitate a rising blister in the clean boiler.

[0029] A first water sink 17 is provided around a bottom circle of the water steam filter tank 11.

[0030] A small return water pipe 20 is provided at the bottom of the first water sink 17 and an lower end of the small return water pipe 20 is directly inserted into a middle of receiving water in the independent boiler body 1, to ensure the sinked water transported coming back to the boiler body 1 successfully.

[0031] A fire smoke collection tank 12 is provided in a center of the folding of the boiler body 1 of the clean boiler.

[0032] A steam collection/distribution tank 13 is provided in the middle part of the fire smoke collection tank 11 for collecting the steam from two boiler bodies and distribution of the steam.

[0033] A second steam-stopper cap 14 is provided above an inlet of the steam collection/distribution tank 13 to intercept for a second time to reduce water accompanying with the steam from the steam filter tank 11.

[0034] A second water sink 15 is provided around a bottom circle of the water steam collection/distribution tank 13.

[0035] A small water-passing pipe 16 is provided at the bottom of the second water sink 15 and an lower end of the small water-passing pipe 16 is directly inserted into a middle of receiving water in the independent boiler body, to avoid an interference imposed by a saturated steam during transporting of sinking water back to the independent boiler body.

[0036] A first snake-shape steam pipe 8 is respectively provided between each of the independent boiler chamber 19 and the middle space of the upper-layer boiler pot 7 and the upper-layer boiler pot 3.

[0037] An upper end of the first snake-shape steam pipe 8 enters into the fire smoke collection tank 12 and is connected to the steam collection/distribution tank 13 through an flue-air outlet 9 above the independent boiler chamber 19.

[0038] An lower end of the first snake-shape steam pipe 8 at the lower part of the boiler chamber 19 is connected to a steam separation and reaction component 2 installed with an aim of separating and converting the steam.

[0039] In the middle of the steam separation and reaction component 2, a catalytic reactor 31 is arranged for intercepting the catalytic reforming of the steam.

[0040] A sub-steam mouth is provided at one side of the steam separation and reaction component 2 and connected with a second snake-shape steam pipe 4.

[0041] A steam separation and connection pipe 30 is provided at a lower part of the steam separation and reaction component 2.

[0042] The steam in the first snake-shape steam pipe 4 enters into the steam separation and reaction component 2 and then into the modified hydrogen-energy infrared combustor 5 by a steam catalytic reaction through second snake-shape steam pipe 4.

[0043] The steam also enters into a hydrogen-energy reaction infrared combustor initiating combustion and heating with an air inlet channel 28 through the steam separation and connection pipe 30.

[0044] The second snake-shape steam pipe 4 comprises a spiral spring-shape pipe to increase a length of the spiral spring-shape pipe. The structure increases the decomposition of steam at high temperature and improve a gasification rate before the steam enters into the modified hydrogen-energy infrared combustor by a steam catalytic reaction 5.

[0045] A peephole 22 is provided at a wall of the boiler body 1, to observe the situation of steam conversion and burning; a steam passing speed is adjusted accordingly to ensure a combustion effect.