CN105540540A - Method for preparing hydrogen and oxygen by nuclear energy, laser and titanium dioxide - Google Patents

Abstract

A method for preparing hydrogen and oxygen by nuclear energy, laser and titanium dioxide belongs to the fields of novel energy and greenhouse gas emission reduction environment protection as well as military, wherein the nuclear energy is converted into more practical hydrogen and oxygen energy, power energy generated by a nuclear power plant is converted into laser by using a laser generation device, the laser is conducted into water by using an optical cable and generates hydrogen and oxygen under the catalytic action of titanium dioxide, for safety, in the process of preparing the hydrogen and oxygen, the diameter of each hydrogen preparation laser device can only be the size like that of a honeycomb, only one piece of optical cable can be used, high heat is prevented from occurring, the generated hydrogen and oxygen are quickly cooled and float under the action of water, an tapered-top barrel at the upper part can collect the hydrogen and oxygen and quickly separate the hydrogen and oxygen, the inner part of the tapered-top barrel is always kept in a state with least hydrogen and oxygen, and is kept away from personnel and other devices, the whole hydrogen and oxygen preparation process is performed in the water, a valve of a hydrogen and oxygen preparation device is a pneumatic valve, low voltage not liable to generate sparks is used for instrument control, automatic diving is realized, and compressed air is used for driving the hydrogen and oxygen preparation device to float, so that the method is safe.

Description

Nuclear energy laser titanium dioxide hydrogen manufacturing oxygen method

Technical field

Nuclear energy laser titanium dioxide hydrogen manufacturing oxygen oxygen method is new forms of energy and reduces greenhouse gas emission environment protection and military field, reduce use and the Carbon emission of the extinct plants and animal energy, slow down the South Pole, the permanent ice sheet in the arctic and the whole world disappears molten speed, reduce E Ninuo phenomenon to endanger the mankind, nuclear energy can be converted to the energy of hydrogen-oxygen form to meet the demand of the universe to the energy, can be military equipment service with hydrogen-oxygen fuel power station in military field, this hydrogen manufacturing oxygen oxygen and use hydrogen-oxygen process all do not have greenhouse gas emission, thus reach minimizing greenhouse gas emission, slow down the South Pole, the arctic and global permanent ice sheet disappear molten and sea level rise speed.

Background technology

Extinct plants and animal through billions of year in the slow long long evolutionary process of history, continuous Annexation eats carbonic acid gas and produces oxygen, by the carbon dioxide solidification of gaseous state be: coal, oil, the applicable animal survival that Earth'S atmosphere purifies by Wingdale etc., the mankind are in process of economic development, again change solid-state carbonic acid gas into gaseous state in a short period of time to discharge into the atmosphere, greenhouse gases make the South Pole, the permanent ice sheet of the arctic constantly dissolves, sea level is made constantly to increase, there is pass report for work: the South Pole and arctic ice sheet dissolve can make that sea level rise 60 meters completely, its consequence will be polar bear extinction, all coastal cities of China all can be subject to serious harm, the Plain, the middle and lower reach of Yangtze River of China will not exist, a lot of country can be made to sink to sea erase from the earth, also have the harm of meteorologicdisasters to the mankind of E Ninuo phenomenon, therefore we mankind should accelerate to carry out reducing to use the extinct plants and animal energy, reduce greenhouse gas emission, what the environment that the mankind are survived on earth kept can grow a bit.Estimation of Nuclear Hydrogen Production oxygen will be a good selection, and nuclear energy is converted to hydrogen oxygen energy by nuclear energy laser titanium dioxide hydrogen manufacturing oxygen method exactly, does not have carbonic acid gas in this process and produces, and uses hydrogen oxygen energy also not have greenhouse gas emission,

Summary of the invention

Nuclear energy laser titanium dioxide hydrogen manufacturing oxygen method, the electric energy of nuclear power station is used to convert laser to, with several hundreds of thousands of root and even billions of optical fiber, corresponding for the importing of nuclear energy laser bottom upwards being penetrated fine-structure mesh holds in the titanium dioxide of titanium dioxide rectangular cells, and the tubulose of water cycle from bottom to top or rectangular tubular or similar honeycomb hexagon tubulose cell can be made, make its upper and lower fluid by, the mouth of pipe vertical level of each cell rearranges the very large plectane of area, every 1 cell inserts 1 optical fiber from bottom, optical fiber is made to imbed in titanium dioxide, every 1 cell all fills titanium dioxide, sunk to below seawater, laser generator is installed by Nuclear power plants steamer, when converting laser to the electric energy of nuclear power, with optical cable, laser is imported every 1 cell, under Titanium Dioxide effect, just there is hydrogen-oxygen to produce (" utilizing sunlight hydrogen manufacturing oxygen " part in examination as to substances bibliography), the hydrogen-oxygen of this state is easily blasted, can float rapidly under effect at seawater after hydrogen-oxygen generates, every 1 manufacture hydrogen-oxygen energy manufacturing hydrogen-oxygen individual equipment (refer to every 1 cell) is very little, make hydrogen-oxygen produce after can not with high thermo-contact, hydrogen-oxygen leaves laser spots can rapidly by cooled with seawater, avoid blasting, hydrogen-oxygen combines in vertex of a cone staving top after rising, due to the hydrogen that hydrogen proportion therefore top duct less of oxygen is collected, what bottom oxygen collection tube floated storehouse collection is oxygen, making it in collecting device should just should be separated with minimum volume, below the seawater that hydrogen-oxygen makes tubulose circular cone hydrogen-oxygen collection container device control certain depth (use diving outfit), keep a safe distance apart from personnel and miscellaneous equipment, prevent hydrogen detonation from injuring personnel and equipment.

By on Nuclear power plants steamer, laser generator can be installed, build a hydrogen-oxygen storage tank oceangoing ship ship again and be mated use, as shown in Figure 1, laser hydrogen and oxygen production equipment in figure is hung in seawater, open the instrument control pneumavalve 15 in laminated sump water shoot 9 (also can intake), open the instrument control operated pneumatic valve 15 in laminated sump air discharge pipe 16, seawater is made to enter laminated sump from laminated sump water shoot 9, the air of laminated sump is discharged from laminated sump air discharge pipe 16, laser hydrogen manufacturing and oxygen generating plant delay silk ribbon attached to an official seal or a medal dive, open the instrument control pneumavalve 15 on upper and lower setting-out storehouse communicating pipe 8, open the instrument control pneumavalve 15 in setting-out storehouse, upper strata air discharge pipe 6, instrument on the empty water shoot 7 in setting-out storehouse, upper strata closely controls pneumavalve 15, seawater is made to enter setting-out storehouse, upper strata through upper and lower setting-out storehouse communicating pipe 8 and setting-out storehouse, upper strata water shoot 7, air in storehouse is discharged by setting-out storehouse, upper strata air discharge pipe 6, when laser hydrogen manufacturing oxygen and oxygen generating plant are closed when marine submerged depth reaches expection, close the instrument control pneumavalve 15 in laminated sump air discharge pipe 16 and the instrument control pneumavalve 15 on laminated sump water shoot 9, close the instrument control pneumavalve 15 on upper and lower setting-out storehouse communicating pipe 8, close the instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot 7, , close the instrument control pneumavalve 15 in setting-out storehouse, upper strata air discharge pipe 6 and the instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot (being also water inlet pipe) 7, laser oxygen generating plant is made to be stabilized in certain degree of depth in the seawater, light harvesting upwards penetrates in the titanium dioxide of each rectangular tubular cell by the bottom of hydrogen-oxygen generation bed 2 by every 1 optical fiber that the laser that Nuclear power plants steamer produces is imported on optical cable 10 by laser, fibre-optic terminus is made to imbed in titanium dioxide, by fine-structure mesh, titanium dioxide is held bottom rectangular tubular cell, each rectangular tubular cell has filled titanium dioxide, laser is under the katalysis of titanium dioxide, hydrogen or oxygen gas is in the seawater floated, the proportion of hydrogen is little, therefore to be sent to by hydrogen transferpump by top Hydrogen collection pipe 3 (opening the instrument control pneumavalve 15 on this pipe) in the hydrogen storage tank on hydrogen-oxygen storage tank oceangoing ship ship and to store, oxygen is floated in the oxygen storage tank that storehouse 14 (equal with sea level fluctuations) to be sent to by oxygen delivery pump through the inner scalable oxygen collection tube 17 of snakelike nylon of vertex of a cone staving and oxygen collection tube 14 on hydrogen-oxygen storage tank oceangoing ship ship by oxygen collection tube and stores.

When laser hydrogen manufacturing and oxygen generating plant need repairing maintenance, instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot 7 to be opened and instrument control pneumavalve 15 on laminated sump water shoot 9 is opened, setting-out storehouse, upper strata air discharge pipe 6 is opened the instrument control pneumavalve 15 on this pipe and the instrument control pneumavalve 15 on laminated sump compressed air pipe 18, these two pipes are received the compressed air pipe of spiral shell screw air compressor (oil-free air compressor), pressurized air is made to enter laminated sump and setting-out storehouse, upper strata, seawater is discharged under compressed-air actuated effect from laminated sump water shoot 9 and setting-out storehouse, upper strata water shoot 7 by seawater, when laminated sump water shoot 9 has air to overflow, close the instrument control pneumavalve 15 on this pipe, when setting-out storehouse, upper strata water shoot 7 has air to overflow, close instrument control pneumavalve 15, just can enter maintenance maintenance state, when seawater from laminated sump water shoot 9 and setting-out storehouse, upper strata water shoot 7 wherein one break down time, instrument control hydrogen on upper and lower setting-out storehouse communicating pipe 8 can be moved valve to open, wherein 1 pressurized air is made to draw in pipe, just the seawater in two setting-out storehouses can be discharged.

Accompanying drawing explanation

Fig. 1 is laser hydrogen manufacturing oxygen and oxygen generating plant front view.

Fig. 2 is laser hydrogen manufacturing oxygen and oxygen generating plant A-A sectional view.

Fig. 3 is laser hydrogen manufacturing oxygen and oxygen generating plant particular sheet.

Embodiment

As shown in Figure 3: laser hydrogen manufacturing oxygen and oxygen generating plant are by vertex of a cone staving 1, hydrogen-oxygen generation bed 2, Hydrogen collection pipe 3, oxygen collection tube 4, vertex of a cone staving air discharge pipe 5, setting-out storehouse, upper strata air discharge pipe 6, setting-out storehouse, upper strata water shoot 7, upper and lower setting-out storehouse communicating pipe 8, laminated sump water shoot 9, laser imports optical cable 10, laminated sump 11, setting-out storehouse, upper strata 12, taper(ed)pipe 13, oxygen collection tube floats storehouse 14, instrument control pneumavalve 15, laminated sump air discharge pipe 16, the inner snakelike nylon oxygen collection tube 17 of vertex of a cone staving, laminated sump inlet pipe 18 forms.

Nuclear energy laser titanium dioxide hydrogen manufacturing oxygen method, the electric energy of nuclear power station is used to convert laser to, with several hundreds of thousands of root and even billions of optical fiber, corresponding for the importing of nuclear energy laser bottom upwards being penetrated fine-structure mesh holds in the titanium dioxide of titanium dioxide rectangular cells, and the tubulose of water cycle from bottom to top or rectangular tubular or similar honeycomb hexagon tubulose cell can be made, make its upper and lower fluid by, the mouth of pipe vertical level of each cell rearranges the very large plectane of area, every 1 cell inserts 1 optical fiber from bottom, optical fiber is made to imbed in titanium dioxide, every 1 cell all fills titanium dioxide, sunk to below seawater, laser generator is installed by Nuclear power plants steamer, when converting laser to the electric energy of nuclear power, with optical cable, laser is imported every 1 cell, under Titanium Dioxide effect, just there is hydrogen-oxygen to produce (" utilizing sunlight hydrogen manufacturing oxygen " part in examination as to substances bibliography), the hydrogen-oxygen of this state is easily blasted, can float rapidly under effect at seawater after hydrogen-oxygen generates, every 1 manufacture hydrogen-oxygen energy manufacturing hydrogen-oxygen individual equipment (refer to every 1 cell) is very little, make hydrogen-oxygen produce after can not with high thermo-contact, hydrogen-oxygen leaves laser spots can rapidly by cooled with seawater, avoid blasting, hydrogen-oxygen combines in vertex of a cone staving top after rising, due to the hydrogen that hydrogen proportion therefore top duct less of oxygen is collected, what bottom oxygen collection tube floated storehouse collection is oxygen, making it in collecting device should just should be separated with minimum volume, below the seawater that hydrogen-oxygen makes tubulose circular cone hydrogen-oxygen collection container device control certain depth (use diving outfit), keep a safe distance apart from personnel and miscellaneous equipment, prevent hydrogen detonation from injuring personnel and equipment.

By on Nuclear power plants steamer, laser generator can be installed, build a hydrogen-oxygen storage tank oceangoing ship ship again and be mated use, as shown in Figure 1, laser hydrogen and oxygen production equipment in figure is hung in seawater, open the instrument control pneumavalve 15 in laminated sump water shoot 9 (also can intake), open the instrument control operated pneumatic valve 15 in laminated sump air discharge pipe 16, seawater is made to enter laminated sump from laminated sump water shoot 9, the air of laminated sump is discharged from laminated sump air discharge pipe 16, laser hydrogen manufacturing and oxygen generating plant delay silk ribbon attached to an official seal or a medal dive, open the instrument control pneumavalve 15 on upper and lower setting-out storehouse communicating pipe 8, open the instrument control pneumavalve 15 in setting-out storehouse, upper strata air discharge pipe 6, instrument on the empty water shoot 7 in setting-out storehouse, upper strata closely controls pneumavalve 15, seawater is made to enter setting-out storehouse, upper strata through upper and lower setting-out storehouse communicating pipe 8 and setting-out storehouse, upper strata water shoot 7, air in storehouse is discharged by setting-out storehouse, upper strata air discharge pipe 6, when laser hydrogen manufacturing oxygen and oxygen generating plant are closed when marine submerged depth reaches expection, close the instrument control pneumavalve 15 in laminated sump air discharge pipe 16 and the instrument control pneumavalve 15 on laminated sump water shoot 9, close the instrument control pneumavalve 15 on upper and lower setting-out storehouse communicating pipe 8, close the instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot 7, , close the instrument control pneumavalve 15 in setting-out storehouse, upper strata air discharge pipe 6 and the instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot (being also water inlet pipe) 7, laser oxygen generating plant is made to be stabilized in certain degree of depth in the seawater, light harvesting upwards penetrates in the titanium dioxide of each rectangular tubular cell by the bottom of hydrogen-oxygen generation bed 2 by every 1 optical fiber that the laser that Nuclear power plants steamer produces is imported on optical cable 10 by laser, fibre-optic terminus is made to imbed in titanium dioxide, by fine-structure mesh, titanium dioxide is held bottom rectangular tubular cell, each rectangular tubular cell has filled titanium dioxide, laser is under the katalysis of titanium dioxide, hydrogen or oxygen gas is in the seawater floated, the proportion of hydrogen is little, therefore to be sent to by hydrogen transferpump by top Hydrogen collection pipe 3 (opening the instrument control pneumavalve 15 on this pipe) in the hydrogen storage tank on hydrogen-oxygen storage tank oceangoing ship ship and to store, oxygen is floated in the oxygen storage tank that storehouse 14 (equal with sea level fluctuations) to be sent to by oxygen delivery pump through the inner scalable oxygen collection tube 17 of snakelike nylon of vertex of a cone staving and oxygen collection tube 14 on hydrogen-oxygen storage tank oceangoing ship ship by oxygen collection tube and stores.

When laser hydrogen manufacturing and oxygen generating plant need repairing maintenance, instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot 7 to be opened and instrument control pneumavalve 15 on laminated sump water shoot 9 is opened, setting-out storehouse, upper strata air discharge pipe 6 is opened the instrument control pneumavalve 15 on this pipe and the instrument control pneumavalve 15 on laminated sump compressed air pipe 18, these two pipes are received the compressed air pipe of spiral shell screw air compressor (oil-free air compressor), pressurized air is made to enter laminated sump and setting-out storehouse, upper strata, seawater is discharged under compressed-air actuated effect from laminated sump water shoot 9 and setting-out storehouse, upper strata water shoot 7 by seawater, when laminated sump water shoot 9 has air to overflow, close the instrument control pneumavalve 15 on this pipe, when setting-out storehouse, upper strata water shoot 7 has air to overflow, close instrument control pneumavalve 15, just can enter maintenance maintenance state, when seawater from laminated sump water shoot 9 and setting-out storehouse, upper strata water shoot 7 wherein one break down time, instrument control hydrogen on upper and lower setting-out storehouse communicating pipe 8 can be moved valve to open, wherein 1 pressurized air is made to draw in pipe, just the seawater in two setting-out storehouses can be discharged, the embodiment of the above is only the preferred embodiment of the present invention, not limit practical range of the present invention with this, therefore all shapes according to the present invention, the change that principle is done, all should be encompassed in protection scope of the present invention.

Claims (10)

1. the equipment of a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen method is by vertex of a cone staving 1, hydrogen-oxygen generation bed 2, Hydrogen collection pipe 3, oxygen collection tube 4, vertex of a cone staving air discharge pipe 5, setting-out storehouse, upper strata air discharge pipe 6, the empty water shoot 7 in setting-out storehouse, upper strata, upper and lower setting-out storehouse communicating pipe 8, laminated sump water shoot 9, laser imports optical cable 10, laminated sump 11, setting-out storehouse, upper strata 12, taper(ed)pipe 13, oxygen collection tube floats storehouse 14, instrument control pneumavalve 15, laminated sump air discharge pipe 16, the inner snakelike nylon oxygen collection tube 17 of vertex of a cone staving, laminated sump inlet pipe 18 forms.

2. the equipment of nuclear energy laser titanium dioxide hydrogen manufacturing oxygen oxygen method be sent by Nuclear power plants electric energy, to convert laser, in the seawater or produce the technique of hydrogen-oxygen in fresh water under the katalysis of titanium dioxide to laser generation device.

3. a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen method, by on Nuclear power plants steamer, laser generator can be installed, build a hydrogen-oxygen storage tank oceangoing ship ship again and be mated use, as shown in Figure 1, laser hydrogen and oxygen production equipment in figure is hung in seawater, open the instrument control pneumavalve 15 in laminated sump water shoot 9 (also can intake), open the instrument control operated pneumatic valve 15 in laminated sump air discharge pipe 16, seawater is made to enter laminated sump from laminated sump water shoot 9, the air of laminated sump is discharged from laminated sump air discharge pipe 16, laser hydrogen manufacturing and oxygen generating plant delay silk ribbon attached to an official seal or a medal dive, open the instrument control pneumavalve 15 on upper and lower setting-out storehouse communicating pipe 8, open the instrument control pneumavalve 15 in setting-out storehouse, upper strata air discharge pipe 6, instrument on the empty water shoot 7 in setting-out storehouse, upper strata closely controls pneumavalve 15, seawater is made to enter setting-out storehouse, upper strata through upper and lower setting-out storehouse communicating pipe 8 and setting-out storehouse, upper strata water shoot 7, air in storehouse is discharged by setting-out storehouse, upper strata air discharge pipe 6, when laser hydrogen manufacturing oxygen and oxygen generating plant are closed when marine submerged depth reaches expection, close the instrument control pneumavalve 15 in laminated sump air discharge pipe 16 and the instrument control pneumavalve 15 on laminated sump water shoot 9, close the instrument control pneumavalve 15 on upper and lower setting-out storehouse communicating pipe 8, close the instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot 7, , close the instrument control pneumavalve 15 in setting-out storehouse, upper strata air discharge pipe 6 and the instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot (being also water inlet pipe) 7, laser oxygen generating plant is made to be stabilized in certain degree of depth in the seawater, light harvesting upwards penetrates in the titanium dioxide of each rectangular tubular cell by the bottom of hydrogen-oxygen generation bed 2 by every 1 optical fiber that the laser that Nuclear power plants steamer produces is imported on optical cable 10 by laser, fibre-optic terminus is made to imbed in titanium dioxide, by fine-structure mesh, titanium dioxide is held bottom rectangular tubular cell, each rectangular tubular cell has filled titanium dioxide, laser is under the katalysis of titanium dioxide, hydrogen or oxygen gas is in the seawater floated, the proportion of hydrogen is little, therefore to be sent to by hydrogen transferpump by top Hydrogen collection pipe 3 (opening the instrument control pneumavalve 15 on this pipe) in the hydrogen storage tank on hydrogen-oxygen storage tank oceangoing ship ship and to store, oxygen is floated in the oxygen storage tank that storehouse 14 (equal with sea level fluctuations) to be sent to by oxygen delivery pump through the inner scalable oxygen collection tube 17 of snakelike nylon of vertex of a cone staving and oxygen collection tube 14 on hydrogen-oxygen storage tank oceangoing ship ship by oxygen collection tube and stores.

4. in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen oxygen method, when laser hydrogen manufacturing and oxygen generating plant need repairing maintenance, instrument control pneumavalve 15 on setting-out storehouse, upper strata water shoot 7 to be opened and instrument control pneumavalve 15 on laminated sump water shoot 9 is opened, setting-out storehouse, upper strata air discharge pipe 6 is opened the instrument control pneumavalve 15 on this pipe and the instrument control pneumavalve 15 on laminated sump compressed air pipe 18, these two pipes are received the compressed air pipe of spiral shell screw air compressor (oil-free air compressor), pressurized air is made to enter laminated sump and setting-out storehouse, upper strata, seawater is discharged under compressed-air actuated effect from laminated sump water shoot 9 and setting-out storehouse, upper strata water shoot 7 by seawater, when laminated sump water shoot 9 has air to overflow, close the instrument control pneumavalve 15 on this pipe, when setting-out storehouse, upper strata water shoot 7 has air to overflow, close instrument control pneumavalve 15, just can enter maintenance maintenance state, when seawater from laminated sump water shoot 9 and setting-out storehouse, upper strata water shoot 7 wherein one break down time, instrument control hydrogen on upper and lower setting-out storehouse communicating pipe 8 can be moved valve to open, wherein 1 pressurized air is made to draw in pipe, just the seawater in two setting-out storehouses can be discharged.

5. in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, the electric energy that Nuclear power plants sends is used for switched laser, also can be that the electric energy that other type power station sends is used for rotation laser under Titanium Dioxide or more efficient catalyst action, in seawater or fresh water, manufacture hydrogen and oxygen.

6., in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, the equipment manufacturing hydrogen and oxygen is dived beneath the water collection hydrogen-oxygen, understands safer like this.

7. in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, the valve being used in its floating of equipment and the dive control agent manufacturing hydrogen and oxygen uses instrument control pneumavalve, make its pressurized air using screw air compressor to produce that floats, what this compressor produced is oil-free compressed air, safe in high oxygen concentration environment, driving the instrument of instrument control pneumavalve to control power supply is not easily produce pyrophoric low tension, is therefore also safe.

8., in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, single independent means in manufacture hydrogen-oxygen process, note single complete independently hydrogen and oxygen producing equipment, essence is with regard to rectangular tubular hydrogen manufacturing oxygen cell.Middle generation hydrogen or oxygen gas should be all minimum state, for safety.

9. in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, by on Nuclear power plants steamer, laser generator can be installed, build again a hydrogen-oxygen storage tank oceangoing ship ship be mated use or or with a kind of nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, use every 1 optical fiber in optical cable laser to be imported the bed of hydrogen-oxygen generation under water 2, upwards penetrate bottom it and manufacture hydrogen-oxygen rectangular cells.

10. in a nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, for the sake of security laser hydrogen and oxygen producing equipment is placed under water manufacture hydrogen-oxygen or or with a kind of nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique, opening instrument control pneumavalve makes setting-out storehouse air discharge, seawater entered dive voluntarily or or a kind of nuclear energy laser titanium dioxide hydrogen manufacturing oxygen technique in, use the air-operated drive of screw press that water is discharged from setting-out storehouse, laser hydrogen and oxygen producing equipment can be floated, carry out maintenance.