CN114703489A - Photoelectric effect electric ionization water vapor preparation hydrogen, oxygen and purified water heating equipment - Google Patents

Abstract

Disclosure of the inventionA heating device for preparing hydrogen, oxygen and purified water by ionizing water vapor with photoelectric effect. The present invention is based on the phillips lenader proposition in 1902 that "when electrons pass through a gas, they must have a certain minimum energy to produce ionization of the gas" and the principle of photoelectric effect and atomic photoelectric effect probability formula τ taught by professor papernow at the university of beijing. CZ⁴λ³The invention relates to a mercury-lead microparticle radioactive microparticle photoelectric effect detection collection chamber and water vapor H₂O (g) photoelectric effect ionization chamber, mercury-lead microparticle radioactive microparticle detection oxygen plasma reducer, positive coulomb repulsion Monel alloy sieve plate and other key components, and the alpha beta-free material is prepared⁺β^‑Low-cost particle purified water, 99.9999% purity hydrogen and oxygen, heat supply and large amount of tritium and deuterium in the clean water collection³He (g) and⁴he (g), etc.

Description

Photoelectric effect electric ionization water vapor preparation hydrogen, oxygen and purified water heating equipment

Technical Field

The invention belongs to photoelectric effect and photoelectric intelligent ionized water vapor H₂O (g) preparing hydrogen, oxygen and purified water and heating technical field, in particular to a heating technical device for preparing hydrogen, oxygen and purified water by ionizing water vapor with photoelectric effect.

Background

The combustion product of hydrogen and oxygen is water, and the energy density is high and is about 3 times that of gasoline and 4.8 times that of standard coal. The hydrogen energy is taken as the energy completely separated from carbon emission, has wide application fields, and is regarded as the clean energy with the most development potential in the world. At present, the global hydrogen energy industry is still in the initial stage of key technology of the whole industry chain and the exploration stage of commercial modes; world 99% of hydrogen production is derived from fossil fuels, and CO is produced therefrom₂(g) The emission amount of (a) accounts for 2.8% of the total emission amount of the whole world. The same is also true in China, and the hydrogen H is prepared by adopting natural gas₂(g) The proportion is about 48 percent, the gas is about 30 percent, and the electrolytic water is about 4 percent. The natural gas and the coal gas belong to the preparation of high-carbon fossil, and although the hydrogen production by water electrolysis is ecological and environment-friendly, the power consumption for preparing hydrogen per kilogram reaches 48kwh, the economic cost is high, and the wide application is difficult. In 2021, 5 and 19 days, the largest hydrogen refueling station built in the great-rise area of Beijing city in China is tried to operate, and the hydrogen selling price reaches 30 yuan/kg due to the adoption of the initial hydrogen production process technology. The invention can greatly improve the purity of hydrogen in China, reduce the preparation cost (less than 6 yuan per kilogram) of hydrogen and more thoroughly solve the problem of CO₂(g) The problem of emissions.

Hydrogen atoms H (g) combined to hydrogen molecules H₂(g) Releasing the binding energy, oxygen atoms O (g) binding to molecular oxygen O₂(g) Medicine for treating chronic gastritisCombined with energy release from water vapour H by photoelectric effect₂O (g) extraction of Hydrogen H₂(g) Oxygen O₂(g) The premise of (1). The 9.1 table on page 274 of atomic physics published by paperwork university papery sacred in 1979 shows: hydrogen H (g) atoms being combined to hydrogen molecules H₂(g) The released binding energy was 431.9kJ/mol, and oxygen O (g) atoms were bound to oxygen molecule O₂(g) The binding energy released was 490.2 kJ/mol. Tables 2-3 of the fourth edition of the book of inorganic chemistry published by the university of Beijing and Huazhong and the university of Nanjing, the book of higher education publishers in 2010 illustrate that: hydrogen H (g) atoms being combined to hydrogen molecules H₂(g) The bond energy released is 436.4kJ/mol, oxygen O (g) atom synthesizes oxygen molecule O₂(g) The bond energy released was 499 kJ/mol. The experimental data of the two subjects of atomic physics and inorganic chemistry are very different, and the two subjects are taken as the average value of the cross demonstration: the binding energy of a hydrogen atom was 434.2kJ/mol, and the binding energy of an oxygen atom was 494.6 kJ/mol.

Statistics of the "Baidu library" at home and abroad show that: clear water H at 100 DEG C₂The liquid enthalpy of O (l) is 7.54kJ/mol, clean water H at 100 DEG C₂O (l) has a heat of vaporization of 40.65kJ/mol and steam H at 100 ℃₂The vapor enthalpy of O (g) is 48.19kJ/mol, and the sum of the three is 96.38 kJ/mol. As the temperature continues to rise again, the heat of vaporization decreases and the liquid and vapor enthalpy increase, the sum of which remains close to the standard state constant. The invention determines the operation temperature of extracting hydrogen and oxygen at 100 ℃; clear water H at 100 DEG C₂Enthalpy of liquid O (l), clean water H at 100 ℃₂Heat of vaporization of O (l), steam H of steam at 100 ℃₂O (g) enthalpy, calculated from the value of 96.38kJ/mol in standard conditions for steam H at 100 ℃₂Proliferation factor K of O (g)₁、K₂，K₁And K₂Respectively represent the proliferation factor of hydrogen and the proliferation factor of oxygen. When oxygen plasma O (g)²⁺Not reduced to oxygen molecules O₂(g) While the hydrogen gas multiplication factor K₁(434.2kJ/mol ÷ 96.38kJ/mol) ═ 4.51; when the oxygen plasma is reduced to oxygen molecular O₂(g) Then, growth factor K₂4.51+ (0.5.× 494.6) ÷ 96.38 ═ 7.073. If K is₁+K₂＜ 1，²⁴¹The photoelectric effect of 59.5keV photons of Am sealed source cannot be extracted from water vapor H₂O (g) hydrogen and oxygen are extracted. It has now been found that K exists in nature₁+K₂Rule > 1, human can utilize surface water and underground water H₂Large amount of hydrogen H stored in O (g)₂(g) Development and production improve the living standard of human beings.

Disclosure of Invention

The invention aims to provide a heating device for preparing hydrogen, oxygen and purified water by ionizing water vapor with photoelectric effect and photoelectric intelligence. The theory of the photoelectric effect and the atomic photoelectric effect probability formula tau taught by paperp reduard (philip equivalent Anton von len n rd, 6/7/1862-5/20/1947) in 1902, "when an electron passes through a gas, it must have a certain minimum energy to produce ionization of the gas", and the principle of the photoelectric effect and the atomic photoelectric effect probability formula tau taught by paperson at Beijing university. CZ⁴λ³The invention relates to a mercury-lead micro-particle radioactive micro-particle photoelectric effect detection and collection chamber and water vapor H₂O (g) photoelectric effect ionization chamber, mercury-lead particle radioactive particle detection oxygen plasma reducer, positive coulomb repulsion Monel alloy sieve plate and other key parts⁺β^-Low-cost particle purified water, 99.9999% purity hydrogen and oxygen, heat supply and large amount of tritium and deuterium in the clean water collection³He (g) and⁴he (g), etc.

Due to proliferation factor K₁And K₂The sum is constantly more than 1, and the fluid can smooth and follow the water vapor H₂O (g) production of hydrogen H₂(g) Oxygen O₂(g) Purified water H₂O (l) and supplying hot air. The technical scheme is formulated according to the following basic experimental results and experimental data of industrial pilot-scale tests as :

first, it was pointed out on page 18 of radiation protection foundation published by atomic energy release in 1982, written by professor li star flood of beijing university from 1978, that when the energy of incident photons is greater than the binding energy of atomic K-layer electrons, the probability of the photoelectric effect of the K-layer electrons is about 80%. Therefore, in the respective tools of the present inventionIn the sequence, only the photoelectric effect probability of various atomic K shell electrons is calculated; secondly, according to the ' atomic physics ' chapter eighth published by the university of Beijing papermulberry sacred bone professor from 1965 and 1979 higher education publishers, the relationship tau between the accurate experimental probability of the photoelectric effect and the X-ray wavelength lambda and the atomic number Z of the absorber is shown on page 234 of the ' atomic physics_α＝CZ⁴λ³(7) Repeatedly carrying out laboratory bench test, industrial pilot test and demonstration engineering construction;

pilot test and field test of the research institute for preventing and treating labor, health and occupational diseases of Hunan province and the prevention and treatment institute for preventing and treating labor, health and occupational diseases of Hunan province are successively performed twice in 1999 to 2004: before the second mine of the Ministry of Mount Flat-topped mountain of Henan, the national department of coal carries out industrial pilot test, a Japanese TSC-121C type gamma scintigraph is adopted 10, 12 days in 1999, and 30 milliCuries are measured²⁴¹Am sealing source carries out industrial pilot test on ionizing radiation at a position 5 cm away from a detector window in the air, and the detection result of the ionizing radiation is more than 21.8 mu sv; the pilot test demonstrated that: the coal dressing equipment not only can realize waterless intelligent coal dressing and mineral dressing, but also can realize a large amount of ionization of air at a position 5 cm away from the detector and water vapor H in the air₂And O (g), the radiation level around the pilot plant meets the requirements of the national standard of the people's republic of China, namely the basic standard of radiation and health protection (GB4792-84), and also meets the requirements of the national standard of the people's republic of China, namely the radiation and health protection standard containing a sealed source instrument (GB 16368-1996). The Ministry of Flat-topped mountain in Henan province is agreed to perform industrial pilot-scale tests, but a radioactive source opening and closing indicating device is arranged. The results of the pilot test and the subsequent pilot test are that the invention adopts the photoelectric effect to react with the water vapor H₂O (g) lays a technical foundation for preparing hydrogen and oxygen; the radiation level of the detection site also meets the national requirements on the basic standard of ionizing radiation protection and radiation source safety (GB 18871-2002). Based on the above experiment, the invention uses the formula (7) tau_α＝CZ⁴λ³Calculate out²⁴¹Am sealed source 59.5keV photon ionized water vapor H₂Number of electrons in K shell of oxygen atom in O (g) and²⁴¹am activity of the sealed source; according to²⁴¹Am sealInternational selling price of the source, hydrogen H produced by the invention₂(g) Oxygen O₂(g) And purified water H₂The actual cost of O (l) is about 1/5 in the background of the present day.

The K absorption limit experimental data on pages 315 to 316 of appendix two of Zhang Jia Ye Xujun Zhujie Qing editions published by atomic energy publishers are consulted in 1981, and are proved: the K absorption limit of the oxygen atom K shell electrons is 0.531keV, which is explained above²⁴¹Am sealing source 59.5keV photon calculation photoelectric effect ionized water vapor H₂O (g), production of hydrogen H₂(g) And oxygen O₂(g) And purified water H₂The low production cost of O (l) is correct. Zhang Jia Ye et al, ed in appendix II of "radioisotope X-ray fluorescence analysis": the K absorption limit of mercury element with atomic number of 80 is 83.106keV, the K absorption limit of lead element with atomic number of 82 is 88.001keV,²⁴¹am is a monochromatic photon of 59.5keV from a sealed source, and cannot cause photoelectric effect on mercury (Hg) atoms of mercury elements and K shell electrons of lead (Pb) atoms of lead elements. Written by Wada and J.L. Butt, W.J. Kaishuhouse and J.L. Butt, University of Oxford (Oxford University), UK, Radioactive Isotopes (Radioactive isotops), Shanghai science and technology Press, Inc., published by Oxford University Press in 1953,¹³⁷the half-life period of the Cs source is as long as 37 years, the radiation energy is 662keV photons, and the Cs source is suitable for irradiating atoms of high atomic number elements such as mercury (Hg) and lead (Pb) in gas and enabling K shell electrons of mercury (Hg) atoms and lead (Pb) atoms to generate a photoelectric effect; the lecture printed out by Beijing university in 1961 is also consistent with data published by Oxford university Press, UK. 72 pages, 83-85 pages of recent physical experiments published by the university Press of national defense science and technology, which was authored in Zhengzheng, Longluming, Zhou Chun, etc. in 1990¹³⁷The corresponding technical parameters of the Cs sealed source are also compatible therewith.

Appendix II on page 315 of Radioactive isotope X-ray fluorescence analysis, edited by Zhang Ye, Xujun right, and Zhujiqing in 1981 indicates the fluorescence yield omega of hydrogen atoms of hydrogen elements_K(ii) 0, illustrating the photoelectric effect of the hydrogen atom H (g)Rate tau_αHydrogen molecule H ═ 0₂(g) And hydrogen atoms H (g) are not generated by photoelectric effect in various X-ray radiation fields, and the invention prepares the hydrogen H by the photoelectric effect₂(g) Provides reliable experimental basis.

The invention realizes the secondary steam H through the following technical scheme₂O (g) extraction of Hydrogen H₂(g) And oxygen O₂(g) And then adopting platinum powder catalyst to synthesize pure water H₂O (l) to realize low-cost production of hydrogen H₂(g) And oxygen O₂(g) And purified water H₂Purpose of O (l). It comprises a clean water filtering pool 1 (clean water pool for short) for surface water and underground water, a commercial power A-B phase starting switch 2, a clean water expansion chamber 3 at 100 ℃, a mercury-lead particle radioactive microparticle photoelectric effect detection collection chamber 4 and water vapor H₂O (g) molecular sieves 5, steam H₂O (g) a photoelectric effect ionization chamber 6, a water level meter and commercial power C phase connector 7, and a positive and negative potential V +/-DC power supply 8; when water vapor molecules H appear on the liquid surface of the clear water expansion chamber 3 at 100 DEG C₂O (g), detecting the collecting chamber 4 and the water vapor H in the mercury-lead microparticle radioactive microparticle photoelectric effect according to the photoelectric effect principle of A₂O (g) the space between the ionization chamber 6, the Monel seal plate 65 and the oxygen molecular sieve 63,²⁴¹Am 59.5keV monochromatic photon of sealed source 33, water vapor H₂O (g) an electron in an atom acquires an energy of 59.5keV photon flies out of the atom as a photoelectron, making the atom positively charged. The probability formula of atomic photoelectric effect tau is shown on page 234 of atomic Physics, which is written by professor of the Nothing's bone of Beijing university Broussonetia_α＝CZ⁴λ³(7) The precise test of the papery skeleton professor proves that: oxygen O (g) atomic number Z₁H (g) atomic number Z₂1, atomic number of oxygen atom (Z)₁)⁴4096 hydrogen atomic number (Z)₂)⁴＝(l)⁴The photoelectric effect rate of hydrogen H (g) is 0.0002 of oxygen atom, which can be ignored;²⁴¹am 59.5keV photons from sealed source 33 will vaporize water vapor molecules H₂O (g) ionization into oxygen plasma O²⁺And hydrogen molecule H₂(g) Two oxygen plasmas O²⁺Reduction to oxygen molecule O₂(g) (ii) a Thus, atomic photoelectric effect probability formula tau of professor chu university beijing_α＝CZ⁴λ³(7) And the test result thereof, the principle of A. Einstein photoelectric effect is advanced a big step; on the other hand, the experimental data on page 315 of "radioisotope X-ray fluorescence analysis" written by Zhangzhu Ye et al: the probability of photoelectric effect of hydrogen H (g) atom is zero, which further proves the atomic photoelectric effect rate formula tau of professor's atomic photoelectric effect of Beijing university Broussonetia_α＝CZ⁴λ³(7) The correctness of the operation.

The photoelectric effect ionized water vapor hydrogen, oxygen and pure water heating structure is characterized in that a sealed vertical hollow upright post composite ionization chamber consists of a clear water expansion chamber 3 with the temperature of 100 ℃, a mercury-lead particle radioactive micro-particle photoelectric effect detection and collection chamber 4, a Monel alloy west side positive electricity coulomb repulsion sieve plate 87, a Monel alloy primary oxygen output chamber 45 and a Monel alloy primary hydrogen output chamber 46, wherein the lower end of the primary hydrogen output chamber 46 at the top layer is provided with a hydrogen molecular sieve 64 without a hydrogen molecular sieve²⁴¹Am seal source 33; the mercury lead particle radioactive particle photoelectric effect detection collection chamber 4 and the Monel alloy primary oxygen output chamber 45 are respectively provided with²⁴¹Am sealed source 33 and¹³⁷the Cs is sealed source.²⁴¹Am 59.5keV photon-to-water vapor H from sealed source 33₂The photoelectric effect generated by O (g) is the same as described above;¹³⁷the photoelectric effect of 662keV photons of the Cs sealed source 34 on the mercury lead particle radioactive particles is the same as before, and oxygen plasma O can be generated when the Monel west side positive coulomb repulsion sieve plate 87 is changed into the Monel west side grounding sieve plate or into the Monel negative coulomb repulsion sieve plate²⁺Reduced to regenerated oxygen molecule O₂(g) The technical performance and the total result are the same as those of a monel alloy west-side positive coulomb repulsion sieve plate 87; the function of the remaining components is substantially the same.

Is heated by water vapor H at 100 DEG C₂O (g) water vapor H drawn into the mercury-lead microparticle radioactive microparticle photoelectric effect detection and collection chamber 4₂O (g) ionization chamber 6, positive west-side Monel alloyCoulomb repulsion force sieve plate 87 is in the west space,¹³⁷662keV photons radiated by a Cs sealed source enable K shell electrons of mercury (Hg) atoms and lead (Pb) atoms in mercury (Hg) lead (Pb) particles to generate a photoelectric effect to fly out the mercury (Hg) atoms and the lead (Pb) atoms on one hand, enable the mercury (Hg) lead (Pb) particles to be positively charged and be adhered to a mercury lead particle radioactive particle photoelectric effect detection collecting chamber 4 and a water vapor H₂O (g) mercury-lead fine particle radioactive fine particle impurity blocks 95 are formed on the surfaces of three grounding parts such as the photoelectric effect ionization chamber 6 and the mercury-lead fine particle radioactive oxygen plasma reducer 61; meanwhile, K shell electrons of uranium (U) atom and thorium (Th) atom in radioactive particles such as uranium (U) and thorium (Th) are enabled to obtain energy of 662keV photons to fly out of the uranium (U) atom and the thorium (Th) atom, so that the radioactive particles are positively charged, and are synthesized into mercury-lead microparticle radioactive microparticle impurity blocks 95 together with mercury (Hg) lead (Pb), and the mercury-lead microparticle radioactive microparticle impurity blocks 95 are pasted on a mercury-lead microparticle radioactive microparticle photoelectric effect detection collection chamber 4 and a water vapor H₂O (g) on the outer surface of three grounded parts, i.e., the photoelectric effect ionization chamber 6 and the mercury-lead microparticle radioactive microparticle oxygen plasma reducer 61.

In the space between the Sieve plate 65 and the Sieve plate 87, under the traction of the Hp-5 hard muscovite fan 43 of the DC motor 10 with armature voltage regulation²⁺And a small amount of hydrogen gas enters the mercury lead particle radioactive particle oxygen plasma reducer 61 through the Monel parallel plate capacitor input port 29, the Hp-5 hard white mica vertical sealing wall plate 30 and the Monel parallel plate capacitor 28, wherein the oxygen plasma O (g)²⁺Is reduced to oxygen molecule O₂(g) Thereafter, it is conveyed to the HP295 steel primary oxygen station 66 of the primary oxygen purification structure 96. The monel fan 41 of the armature voltage-controlled dc motor 11 delivers the primary hydrogen 126 between the hydrogen molecular sieve 64 and the monel east end seal plate 75 to the monel primary hydrogen station 80 of the primary hydrogen purification structure 97 through the monel hydrogen delivery pipe 31, the monel gas rotary ball valve 58, the monel hydrogen delivery gas flange pipe 89, and the monel hydrogen heat-dissipation and temperature-reduction gas pipe 92.

The photoelectric effect ionizes the water vapor to produce primary hydrogen 126 and primary oxygen 124,²⁴¹59.5keV photon ionization of water vapor H from Am sealed source 33₂O (g), primary hydrogen H produced₂(g) Containing small amount of tritium and deuterium³He(g)⁴He (g); extracted oxygen O₂(g) And also contains a small amount of hydrogen H₂(g) Tritium deuterium³He(g)⁴He (g); purification of Structure 97 from Primary Hydrogen with tritium deuterium³He(g)⁴He (g) is separated to obtain high-purity hydrogen H₂(g)127, and then to a monel high purity hydrogen station 79 by a monel fan 41 of a armature voltage adjustable dc motor 21. A small amount of H in the primary oxygen is purified by the primary oxygen purification structure 96₂(g) Tritium deuterium³He(g)⁴He (g) is separated out to obtain high-purity oxygen 125, and then the high-purity oxygen 125 is conveyed into an HP295 welding cylinder steel high-purity oxygen station 68 by an Hp-5 hard mortar mica fan 43 of the armature voltage speed-regulating DC motor 18.

The primary oxygen purification mechanism 96, when the Hp-5 hard muscovite fan 43 of the armature voltage speed-adjustable DC motor 16, the primary oxygen 124 in the HP295 welding bottle steel primary oxygen station 66 is transported to the Rutherford atomic nucleus type structure model HP295 welding bottle steel vacuum tester 69 through the Hp-5 hard muscovite transport gas pipe 44, if there are alpha particles and beta particles emitted by radioactive particles in the clean water 93, the flash of the vulcanized zinc screen (S)70 is immediately observed from the magnifier (M) 71; at this time, the vacuum degree and ground resistance of the HP295 welding-bottle steel vacuum cabinet 72 are immediately checked and increased¹³⁷The activity of the Cs sealing source 34 ensures that radioactive particles are all adhered to the mercury lead particle radioactive particle photoelectric effect detection collecting chamber 4 and the water vapor H₂O (g) on the surface of the three grounded parts of the photoelectric effect ionization chamber 6, mercury lead microparticle radioactive microparticle oxygen plasma reducer 61, etc., until the flare of the zinc sulfide phosphor screen (S)70 is completely disappeared. If the vacuum degree is unqualified, the rotating speeds of the armature voltage speed regulation direct current motor 17 and the armature voltage speed regulation direct current motor 18 must be increased, wherein the vacuum degree of the west side of the Hp-5 hard dolomite gas conveying tee joint 74 must be higher than the vacuum degree of the east side, and tritium deuterium in the clean water 93 is ensured³He(g)⁴He (g) is collected in Monel tritium³He(g)⁴He (g) in collector 67, ensures that high purity oxygen 125 is collected by HP295 welding cylinder steel high purity oxygen station 68.

When the monel fan 41 of the armature voltage speed-regulating dc motor 19 is used, the primary hydrogen purification structure 97 conveys the primary hydrogen 126 in the monel primary hydrogen station 80 to the monel vacuum tester 81 of the rutherford nuclear structure model through the monel hydrogen oxygen plasma conveying pipe 42. Tritium deuterium is typically contained in the primary hydrogen 126³He(g)⁴He (g); in water⁴He (g) is usually derived from the rare gas helium in air, in water³He (g) tritium-generating beta in Water as the principal source^-Decay to form stable helium-3³He(g)]Half-life of 12.5 years; deuterium is present in very small amounts in air and is mainly present in surface water, ground water and sea water. Therefore, the invention can collect considerable tritium and deuterium from surface water and underground water in the process of preparing hydrogen³He(g)⁴He (g) a noble gas. When two kinds of charged particles of alpha and beta are in straight line impact on the zinc sulfide fluorescent screen (S)82 from the Monel hydrogen and oxygen plasma conveying gas pipe 42, the magnifying glass (M)84 can immediately observe the flash of the zinc sulfide fluorescent screen (S) 82; due to the fact that in water³He(g)⁴He (g) is not charged, only tritium emits a negatively charged beta upon decay^-Beta can be observed by the particles^-Particles; whereas the concentration of tritium in water is only 1X 10^-15% it is more difficult to observe the beta emitted by tritium as it decays^-The particles can be prepared by arranging Monel alloy grounding sieve plate 87 and helium-3 molecular sieve 123 with 0.26nm pore diameter on the west side of Monel alloy gas conveying tee³He(g)⁴He (g) free passage through helium-3 molecular sieves 123, passing ordinary hydrogen through 0.289nm hydrogen molecular sieves 64, passing primary hydrogen H₂(g)126 into high purity hydrogen gas 127, which is then transported to a monel high purity hydrogen station 79 by a monel fan 41 of an armature voltage adjustable dc motor 21.

The regeneration purified water synthesis and hot air supply structure 98, electricityThe Monel fan 41 of the pivot voltage speed-regulating DC motor 23 delivers the high purity hydrogen 127 to the north side of the steam synthesis tower 47; the Hp-5 hard muscovite fan 43 of the armature voltage speed-regulating DC motor 22 delivers high-purity oxygen 125 to the south side in the steam synthesis tower 47, and generates high-purity regenerated purified water steam H immediately under the catalysis of the platinum powder catalyst 49₂O (g)128, enthalpy of release formation Δ_fH-241.8 k/mol; high-purity regenerated purified water steam H₂O (g)128 is condensed into high-purity regenerated purified water H in the liquid conveying flange pipeline 62₂O (l)129, releasing heat of vaporization 40.65 kJ/mol; the Hp-5 hard muscovite fan 43 of the armature voltage speed-regulating DC motor 24 delivers the hot air 56 to the heating and heat supply station 52 insulated by the insulated and insulated housing 133 through the HP295 welded-bottle steel insulated and insulated hot air delivery flange pipeline 131, the insulated and insulated hot air delivery air pipe 132, the hot air delivery pipe 54, the HP295 welded-bottle steel gas rotary ball valve 57 and the Hp-5 hard muscovite gas delivery pipe 44, and is used by the peripheral residents, industries and businesses.

The ground shield cooling cabinet 99, it includes: six parts, namely a west-side grounding shielding wallboard 100, a grounding shielding heat dissipation cooling cabinet top plate 101, a grounding shielding top plate inclination angle adjusting plate 113, an east-side grounding shielding wallboard 115, a grounding shielding heat dissipation cooling cabinet panel 116, a ground shielding heat dissipation cooling cabinet rear panel 117 and the like, are all used for ensuring that an operator is not influenced by the conditions that the operator is not influenced by the conditions²⁴¹Am sealing the radiation shielding walls of the 59.5keV photons of the source. The Hp-5 hard cloud fan 43 of the armature voltage speed-regulating direct current motor 25 introduces cold air into the grounding shielding heat dissipation cooling cabinet 99 from the west side grounding shielding wall vent hole 102 and the east side grounding shielding wall vent hole 106, so as to reduce the operating temperature of the positive coulomb repulsion sieve plate and the oxygen-hydrogen molecular sieve structure 122; the hot air is conveyed to the clear water heat dissipation cooling pool 108, cooled to be the normal temperature air by the normal temperature clear water 93, and the heated hot water slightly higher than the normal temperature falls into the clear water pool 1 through the normal temperature clear water vertical output pipe 111.

The hard muscovite is silicate with good insulating and heat-resistant properties, is a raw material for manufacturing acid-resistant and alkali-resistant load-carrying mechanical parts, and can continuously resist temperature up to 500 ℃; the invention adopts Hp-5 hard muscovite to manufacture an insulating heat-resistant load ring bracket 118, a Hp-5 hard muscovite fan 43 and a Hp-5 hard muscovite air conveying pipe 44; in the positive coulomb repulsion sieve plate and oxygen-hydrogen horizontal molecular sieve structure 122, Hp-5 hard muscovite insulating heat-resistant load-bearing ring supports 118 are disposed at its east and west ends.

The invention has the beneficial effects that:

the invention is proposed in 1902 according to philips lenard: "when electrons pass through a gas, it must have a certain minimum energy to produce ionization of the gas", and the photoelectric effect principle and atomic photoelectric effect probability formula τ of professor papery of Beijing university. CZ⁴λ³For detecting mercury lead microparticle radioactive microparticle photoelectric effect, collecting chamber and water vapor H₂O (g) photoelectric effect ionization chamber, mercury-lead microparticle radioactive microparticle detection oxygen plasma reducer, positive coulomb repulsion Monel alloy sieve plate and other key components, and its preparation method is low in cost and contains no alpha and beta⁺、β^-High purity hydrogen H of particles₂(g) And oxygen O₂(g) And purified water. The invention can also supply heat to outside in operation and collect tritium and deuterium in clean water in large quantity³He (g) and⁴he (g) and the like, and greatly modifies the indexes of the national sanitary Standard for Drinking Water (GB5749-2006) on radioactivity limit values: the total alpha radioactivity limit (Bq/L ═ 0.5) is modified into the total alpha radioactivity limit (Bq/L → 0), the total beta radioactivity limit (Bq/L ═ 1) is modified into the total beta radioactivity limit (Bq/L → 0), and the sanitary standard of domestic drinking water in China is improved to the international leading level. The device of the invention creates a brand-new low-cost green infinite circulating energy acquisition mode, and can completely get rid of the problems of environmental pollution and energy shortage in China and even the world.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an embodiment of the present invention.

FIG. 2 is a schematic diagram of the structure of ionizing water vapor to produce primary hydrogen and primary oxygen by the photoelectric effect according to the embodiment of the present invention.

FIG. 3 is a schematic diagram of a primary oxygen purification structure according to an embodiment of the present invention.

FIG. 4 is a schematic structural diagram of the primary hydrogen purification structure of the present invention.

Fig. 5 is a schematic diagram of a structure for synthesizing high purity recycled purified water and supplying hot air according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a ground shield cooling cabinet according to an embodiment of the present invention.

FIG. 7 is a schematic view of an insulating heat-resistant load-bearing ring support according to an embodiment of the present invention.

FIG. 8 is a schematic diagram of the structure of the sieve plate with positive coulomb repulsion and oxygen-hydrogen horizontal molecular sieve in the embodiment of the invention.

FIG. 9 is a schematic structural diagram of a semi-automatic operating system according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and examples.

Referring to fig. 1, the present embodiment includes a clean water tank 1 disposed at the lowest position underground, a water level meter and commercial power C connector 7, and positive and negative potentials V for providing positive and negative dc power supplies for the respective components_±A direct current power supply 8, a Monel alloy fan 41 and a Monel alloy hydrogen and oxygen gas conveying pipe 42 which are matched with the armature voltage speed-regulating direct current motor 9, a Monel alloy hydrogen gas conveying pipe 31 which conveys hydrogen gas for the Monel alloy fan 41 of the armature voltage speed-regulating direct current motor 11, a Monel alloy hydrogen gas and oxygen gas conveying pipe 32 which conveys oxygen gas and hydrogen gas for the armature voltage speed-regulating direct current motor 10, a Monel alloy hydrogen gas and oxygen gas plasma conveying tee joint 77 which supplies gas for the armature voltage speed-regulating direct current motor 9, an HP295 welding cylinder steel heat dissipation and temperature reduction air pipe 91 for continuously conveying oxygen and hydrogen for an Hp-5 hard muscovite fan 43 and an Hp-5 hard muscovite conveying air pipe 44 of the armature voltage speed-regulating DC motor 10, wherein the HP295 welding cylinder steel heat dissipation and temperature reduction air pipe 91 is communicated and fixedly connected with the south side wall of a Monel alloy primary oxygen station 66 of a primary oxygen purification structure 96; the north end of the Monel hydrogen conveying flange pipeline 89 is communicated and fixedly connected with the output port of the Monel gas rotary ball valve 58, and the south end of the hydrogen conveying flange pipeline 89 is communicated and fixedly connected with the Monel primary hydrogen station 80 of the primary hydrogen purification structure 97;

armature voltageA Monel alloy fan 41 of the speed-regulating direct-current motor 11, a Monel alloy hydrogen and oxygen plasma conveying pipe 42, a clean water pump 12, a liquid conveying flange pipeline 62, an HP295 welded bottle steel pipe bridge 60, a Monel alloy pipe bridge 59, a water level automatic regulator 35, a grounding heat-insulating clean water heating water pipe 36, a liquid check valve 37, a liquid gate valve 38 and a clean water external communicating pipe 39; a commercial power A-B phase starting switch 2, a clear water expansion chamber 3 at 100 ℃, a mercury-lead particle radioactive particle photoelectric effect detection and collection chamber 4 and a water vapor H are arranged from south to north on the west side₂O (g) molecular sieves 5, steam H₂O (g) a photoelectric effect ionization chamber 6; from the clean water tank 1 to the steam H on the southeast side₂O (g) photoelectric effect ionization chamber 6, wherein the clean water pool 1, the grounding heat-insulation clean water heating water pipe 36, the commercial power A-B phase starting switch 2 and the clean water expansion chamber 3 at 100 ℃ are regenerated hydrogen H₂(g) Average binding energy released of 434.2kJ/mol and regenerated oxygen O₂(g) The average released binding energy value of 494.6kJ/mol is the clean water heating section of the grounding heat-insulation clean water heating water pipe 36 and the commercial power A-B phase starting switch 2, and clean water 93 is heated to 100 ℃ in the heating section. Mercury-lead micro-particle radioactive micro-particle photoelectric effect detection and collection chamber 4 and water vapor H₂O (g) molecular sieves 5, steam H₂O (g) the photoelectric effect ionization chamber 6 is²⁴¹Am 59.5keV photon-to-water vapor H from sealed source 33₂O (g) gas ionization section in which more than 95% of the hydrogen H of the present invention is produced₂(g) And oxygen plasma O (g)²⁺(ii) a Adjusting the three parts to the wall²⁴¹Am sealed source 33 radiation activity of 59.5keV photons and¹³⁷the activity of the Cs sealed source 34 radiating 662keV photons is increased for water vapor H₂O (g) performing photoelectric effect ionization, so that primary hydrogen 126 and primary oxygen 124 produced by the method can reach the designed scale; and can make the atom in the solid microparticle produce photoelectric effect to release photoelectron e-, and can make the solid microparticle of uranium, thorium, mercury and lead, etc. be charged with positive e +, and finally make the above-mentioned positively-charged e + particle be detected and collected by mercury lead microparticle radioactive microparticle photoelectric effect₂The grounded walls of two parts of the O (g) photoelectric effect ionization chamber 6 are firmly adhered and gradually expanded into mercury-lead particle radioactive particulate impurity blocks 95 to realize the preparationTaking high-purity hydrogen H₂(g)127 and high purity oxygen O₂(g) 125; make H₂(g) And O²⁺And only the high-purity regeneration hydrogen H is supplied to the impurity particle Monel alloy supply gas pipe 76₂(g)127 and oxygen plasma O²⁺(ii) a When adjusting²⁴¹Am Activity of sealed source 33 and¹³⁷the activity of the Cs sealed source 34 ensures that the area of the mercury-lead particle radioactive particle impurity block 95 of the mercury-lead particle radioactive particle oxygen plasma reducer 61 approaches zero, and high-purity hydrogen H can be ensured₂(g)127 and high purity oxygen O₂(g) The purity of 125 reaches 99.9999%.

In 2007, the contents of the book of jin Yin Yang Long, etc. are described on pages 60 to 61 of the release of GB5749-2006 sanitary Standard for Living Drinking Water, published by the Chinese Standard Press: the most common and most toxic nuclides in water are represented by: total alpha radioactivity was measured as Ra-226; the total beta radioactivity is represented by Sr-90, and the possible radiation dose to the human body per year is estimated. According to the book of professor of the papery sacrum of Beijing university, pages 299 to 302 of the higher education publisher in 1979, Ra-226 and beta particles are original ore U-238 radioactive system, U-235 radioactive system, Th-232 radioactive system and A-4 n +1 radioactive system, the half-life period of Ra-226 in unstable radioactive isotope and negatively charged e-charged physical particle after alpha decay occurs is 1626 years, and the accumulation amount in the earth is zero; it is also an intermediate unstable product of thorium-232 with alpha decay, and the accumulation amount on the earth is zero. Ra-226 is not a representative of the maximum nuclides, and among natural radionuclides, the maximum nuclides are Pu-238, U-235, Th-232, and the like. The invention selects U-238, U-235 and Th-232 as radioactive particle representatives, and the half-lives of the three are respectively 4.5 multiplied by 10⁹Year, 7.07 x10⁸1.89X 10 times of year¹⁰Year; the half-life period of the three kinds of original ores is more than 7 hundred million years, the three kinds of original ores simultaneously radiate alpha particles and gamma rays, and the U-234 original ores not only radiate 4.76MeV alpha particles but also radiate 55keV beta rays; therefore, positive and negative electron pairs are generated, and photons of 1.2MeV are generated; thus, the present invention employs alpha particles and beta particles within uranium and thorium ores as total alpha and beta radioactivity. Only in mercury-lead particles with radioactivityParticle photoelectric effect detection collection chamber 4 and water vapor H₂O (g) on the grounding walls of the photoelectric effect ionization chamber 6 and the mercury lead particle radioactive particle oxygen plasma reduction chamber 61, U-238, U-235 and Th-232 are fixed as a mercury lead particle radioactive particle impurity block 95, three kinds of primary mineral particles such as U-238, U-235 and Th-232 are fixed, and Ra-226 and Sr-90 are also fixed; in addition, the alpha particles of U-238 and Th-232 radiation can be reduced to harmless helium by the three components⁴He (g), radiation beta^-The tritium can also be collected for sale as a rare gas; unreduced alpha particles can also be observed and collected by primary oxygen purification structure 96 and primary hydrogen purification structure 97, and can be sold as a noble gas after low temperature purification. Recommended values for the world health organization [ total alpha radioactivity 0.1Bg/L, total beta radioactivity 1Bq]U.S. Standard [ Total alpha radiation 0.5Bq/L, Total beta radiation 1Bq/L]China continues to use up to now according to American standards. The invention makes the total alpha radioactivity limit and the total beta radioactivity limit of drinking water in China approach to zero, and can make people in China drink green water without radioactivity in the generations.

Optoelectronic intelligent waterless coal separator [ J ] from page 65 to page 72 of Zhou Chunsheng et al mining engineering research 34, volume 4 (Total 123) ]]The series of tests of laboratory pilot test, industrial pilot test and demonstration engineering construction prove that: the larger the atomic number Z of the element of the metal solid, the nonmetal solid and the insulator, the probability of the photoelectric effect of the atom accurately follows the probability tau of the atomic photoelectric effect in the professor Brownian of Beijing university_α＝CZ⁴λ³A formula is disclosed. When the clean water source 93 flows through regions such as thorium (Th) lead (Pb) ore mercury (Hg) ore potassium (K) ore and the like of uranium (U) ore, Z with the atomic numbers of the five elements from small to large⁴The ratio of the components is as follows: 1: 314: 347: 503: 550; namely, the radioactive uranium (U) ore particles and radioactive thorium (Th) particles firstly generate photoelectric effect and are pasted on the mercury lead particles, the radioactive particles, the photoelectric effect detection collecting chamber 4 and the water vapor H₂O (g) photoelectric effect ionization chamber 6, mercury lead particle radioactive particle oxygen plasma reducer 61, and mercury (Hg) lead (Pb) ore particle atom K shell electron e-generated photoelectric effectVarious ore particles are pasted on the three types of grounding surfaces with positive charges e +; finally, potassium (K) ore particles which are positively charged e + are adhered to the three types of grounding surfaces. The X-ray photoelectric effect fluorescence analysis according to pages 4 to 7 of radioisotope X-ray fluorescence analysis, which is compiled by Zhangjia Ye Xujun Ye Jujie Qing and published by atomic energy Press, 7 months 1981, proves that: when there is a vacancy in the "inner layer" of an atom, the inner layer electron of the atom will be immediately (10)^-12--10^-14Second) re-coordination, and simultaneously sending characteristic X rays or auger electrons ", wherein the characteristic X rays and auger electrons can ionize atoms K shell layer electrons e-in various mineral particles to fly out the mineral particles to be photoelectrons e-, so that the mineral particles are positively charged e + and are adhered to the three types of grounding surfaces, namely the frequency of the solid photoelectric effect is 10^-12--10^-14Second; the time for taking the electrons in the atomic inner layer to be coordinated again is 10^-13Second, that is, the time for generating the photoelectric effect of the solid is 0.1 picosecond, that is, the high atomic number mineral particles, the medium atomic number mineral particles and the low atomic number mineral particles are sequentially adhered to the three types of grounding surfaces according to the order of the atomic number within 0.1 picosecond. Therefore, the invention refers to that the technical performance of the photoelectric effect generated according to the sequence of the atomic number is as follows: the photoelectric theorem. Thus, the photoelectric determination ensures that the purity of the high-purity hydrogen 127 and high-purity oxygen 125 produced by the present invention is 99.9999%.

When photons with certain larger energy are adopted to irradiate atoms with different atomic numbers in microscopic gas molecules, the probability formula tau of photoelectric effect of atoms is shown according to the professor of the papery bone of Beijing university_α＝CZ⁴λ³The formula can lead various atoms with different atomic numbers in microscopic molecules to generate photoelectric effect with different probabilities. The photoelectron intelligent waterless coal separator is published according to Zhou Chun Sheng published in No. 34 and No. 4 of the research on mining engineering in 2019]Page 67, pilot plant test on the photoelectric effect of the gas proves that: a pilot test on the photoelectric effect of the air by the institute for preventing and treating the labor, health and occupational diseases of Hunan province in 1999 shows that 30 mCuries are separated²⁴¹Am sealing source center windowThe ionizing radiation at 5 cm of the mouth is higher than 21.8 μ sv. The ionizing radiation is 23.14% of oxygen O in air, except for special gases₂(g) 75.54% nitrogen N₂(g) Water vapor H₂O (g) and carbon dioxide CO₂(g) And methane CH₄(g) Macroscopic figure of integrated ionizing radiation of isogas mixture, in which the largest atomic number is oxygen O₂(g) And water vapor H₂Oxygen atom of O (g) has an atomic number of 8, so that one can use it²⁴¹Am sealed source 59.5keV photoelectric effect ionized water vapor H₂O (g) molecule. According to appendix two, page 315, published by experiments in Shu Ye et al, 1981, radioisotope X-ray fluorescence analysis₂The atom with the largest atomic number in O (g) is oxygen O (g), the atomic number Z is 8, and the K absorption energy limit is 0.531 keV; hydrogen atom H (g) does not generate photoelectric effect; according to "radioisotope X-ray fluorescence analysis" page 4, edited by Zhangjia Ye et al, the time interval of the photoelectric effect of X-rays is (10)^-12-10^-14Second), the invention takes value of 10^-13And seconds. The invention adopts class I²⁴¹Am sealed source for preparing hydrogen H with purity of 99.9999%₂(g) And oxygen O₂(g) To prepare hydrogen H with the purity of 99.9999 percent₂(g) The cost is about 6 yuan per kilogram.

Referring to FIGS. 2, 3 and 4, the Monel fan 41 of the armature voltage regulated DC motor 13 and its Monel hydrogen-oxygen plasma delivery tube 42 provide the regenerated hydrogen H in the top Monel primary hydrogen output chamber 46 on the west side of FIG. 2₂(g) The hydrogen is conveyed into a grounding heat-insulation clean water heating water pipe 36, cooled to normal-temperature primary hydrogen 126 and then conveyed to a Monel alloy primary hydrogen station 80; after purification processing by the primary hydrogen purification structure 97 shown in FIG. 4, high purity hydrogen 127 is obtained in the Monel high purity hydrogen station 79 of FIG. 4, and then by the Monel fan 41 of the armature voltage-regulated DC motor 21 of FIG. 4 and the Monel hydrogen oxygen plasma O (g)²⁺The gas supply pipe 42 supplies the gas to the monel high purity hydrogen station 79 of fig. 2.

Hp-5 hardness of armature voltage adjustable DC motor 14A muscovite fan 43 and an Hp-5 hard muscovite mother conveying air pipe 44 for outputting the regenerated oxygen O of a primary oxygen output chamber 45 of the Monel alloy on the west side of the figure 2₂(g) The oxygen is conveyed into a grounding heat insulation clean water heating water pipe 36, cooled to normal temperature primary oxygen 124 and conveyed to a Monel alloy primary oxygen station 66; after the purification process by the primary oxygen purification structure 96 shown in fig. 3, the high purity oxygen 125 is obtained at the HP295 welding cylinder steel high purity oxygen station 68 shown in fig. 3, and then is delivered into the HP295 welding cylinder steel high purity oxygen station 68 shown in fig. 2 by the HP-5 hard muscovite mica fan 43 and the HP-5 hard muscovite delivery pipe 44 of the armature voltage speed-regulating dc motor 18 shown in fig. 3. An Hp-5 hard muscovite fan 43 and an Hp-5 hard muscovite gas delivery pipe 44 of the armature voltage speed-adjustable DC motor 15 are used for detecting the regenerated oxygen O in the collection chamber 4 by the photoelectric effect of mercury-lead particle radioactive particles on the west side of FIG. 2₂(g) The oxygen is conveyed into a ground heat insulation clean water heating water pipe 36, cooled to normal temperature primary oxygen 124 and conveyed to a Monel alloy primary oxygen station 66; after the purification process by the primary oxygen purification structure 96 shown in fig. 3, high purity oxygen 125 is obtained at the HP295 welding cylinder steel high purity oxygen station 68 shown in fig. 3, and then is transported into the HP295 welding cylinder steel high purity oxygen station 68 shown in fig. 2 by the HP-5 hard muscovite mica fan 43 and the HP-5 hard muscovite delivery pipe 44 of the armature voltage adjustable dc motor 18 shown in fig. 3.

Referring to fig. 3, when the Hp-5 hard muscovite fan 43 of the armature voltage regulated dc motor 10 of the primary oxygen purification structure 96, when the primary oxygen 124 is supplied to the monel alloy primary oxygen station 66 through the Hp-5 mica conveyance pipe 44, an Hp-5 hard muscovite fan 43 and an Hp-5 hard muscovite air delivery pipe 44 of the armature voltage speed-adjustable DC motor 16, the primary oxygen 124 is conveyed into a Rutherford atomic nucleus type structural model HP295 welded bottle steel vacuum tester 69 through a Monel hydrogen and oxygen plasma gas conveying tee joint 77, an operator can detect the flash of alpha particle and beta particle through a magnifier (M)71 and a fluorescent screen (S)70, and the alpha particle and beta particle tritium and deuterium H in the primary oxygen 124 is conveyed through a Monel fan 41 of an armature voltage speed-regulating direct current motor 17 on the west side of a graph 3.₂(g) To Monel tritium³He(g)⁴He (g) in collector 67(ii) a On the east side of fig. 3, the high purity oxygen 125 in the primary oxygen 124 is delivered to the Hp295 welding cylinder steel high purity oxygen station 68 by the Hp-5 hard muscovite fan 43 and Hp-5 hard muscovite delivery pipe 44 of the armature voltage adjustable dc motor 18; at the same time, the Hp-5 hard muscovite fan 43 of the armature voltage adjustable dc motor 18 delivers the high purity oxygen 125 to the Hp25 weld-bottle steel high purity oxygen station 68 of fig. 2 through the Hp-5 hard muscovite delivery pipe 44.

On the west side of fig. 3, monel west ground screen 87 reduces the alpha particles to helium⁴He (g) transporting beta particles to the ground, tritium deuterium and⁴he (g) supply to deuterium [ Monel tritium⁴He(g)]Tritium in collector 67 as radiation beta^-Radioactive element with a half-life of 12.5 years decays to stable element helium-3 [ alpha ]³He(g)]The rare and noble gas in the trap 67 of FIG. 3 is supplied by tritium deuterium⁴He(g)]Conversion to [ tritium deuterium³He(g)⁴He(g)H₂(g)]。

The invention is to clean water²³⁵U、²³²Radioactive particles such as Th and tritium, etc. are collected and stuck in the photoelectric effect detection collection chamber 4 of the radioactive particles of mercury and lead particles and water vapor H₂O (g) the photoelectric effect ionization chamber 6, the Monel primary oxygen output chamber 45, the mercury-lead micro-particle radioactive micro-particle oxygen plasma reducer 61 and the like on the surface of the four-component grounding component, so that the limit value of alpha-particle beta-particle in the drinking water tends to zero, namely [ total alpha radioactivity Bq → (0)][ Total beta radioactivity Bq → (0)]. And the present country stipulates the total alpha radioactivity limit (Bq/L is 0.5) and the total beta radioactivity limit (Bq/L is 1) about the sanitary standard for drinking water (GB5749-2006), and the invention greatly modifies the total alpha radioactivity limit and the total beta radioactivity limit in the national regulation about the sanitary standard for drinking water (GB5749-2006) in the implementation process, provides a low-cost, simple and feasible technical scheme and a detection instrument, and improves the sanitary standard for drinking water in China to the international leading level.

Referring to fig. 1 and 4, the primary hydrogen purification structure 97 comprises a monel fan 41 of the armature voltage-regulated dc motor 11 and a monel hydrogen-oxygen plasma delivery pipe 42The south end of the Monel hydrogen and oxygen plasma conveying gas pipe 42 is communicated and fixedly connected with the input port of the Monel gas rotary ball valve 58; the north end of the Monel hydrogen conveying flange pipeline 89 is communicated and fixedly connected with the output port of the Monel gas rotary ball valve 58, the south end of the Monel hydrogen conveying flange pipeline is communicated and fixedly connected with the north end of the Monel hydrogen heat-dissipation cooling air pipe 92, and then the south end of the Monel hydrogen heat-dissipation cooling air pipe 92 is communicated and fixedly connected with the south side wall of the Monel primary hydrogen station 80. When the Monel fan 41 of the armature voltage speed-regulating DC motor 19 is used, the primary hydrogen 126 is delivered to the west wall of the Rutherford atomic nucleus type structure model Monel vacuum tester 81 through the Monel hydrogen oxygen plasma delivery pipe 42. At the upper west end of FIG. 4, the Monel fan 41 of the armature voltage adjustable DC motor 20 passes through the Monel ground screen 87 at the upper end of the Monel gas delivery tee 86 and³he (g) molecular sieves 123, of primary hydrogen 126³He (g) and⁴he (g) transport to Monel³He(g)⁴He (g) collector 78. On the east side of fig. 4, the monel fan 41 of the armature voltage-regulated dc motor 21 delivers high-purity hydrogen 127 to the monel high-purity hydrogen station 79 through the hydrogen molecular sieve 64 at the upper end of the monel gas delivery tee 86; at the same time, the monel fan 41 of the armature voltage-adjustable dc motor 21 delivers the high-purity hydrogen gas 127 to the monel high-purity hydrogen station 79 of fig. 2 through the monel hydrogen gas oxygen plasma delivery pipe 42.

Referring to FIG. 5, a Monel fan 41 of the armature voltage regulated DC motor 23 delivers high purity hydrogen 127 to the steam H₂O (g) the north end of the tower 47, Hp-5 hard muscovite fan 43 of the armature voltage regulated DC motor 22, delivers high purity oxygen 125 to the steam H₂O (g) the south side of the synthesis tower 47 is catalyzed by a platinum powder catalyst 49 to immediately synthesize high-purity regenerated purified water vapor H₂O (g)128, released enthalpy of formation of-241.8 kJ/mol, high purity regenerated water vapor H dragged by Hp-5 hard muscovite fan 43 of armature voltage speed-regulating DC motor 24₂O(g)128The cold air in the HP295 welded bottle steel normal temperature air input air pipe 53 is condensed into high-purity regenerated purified water steam H with the temperature of 100 DEG C₂O (g) 128; condensed into high-purity regenerated pure water 129 at 100 ℃ through a liquid delivery flange pipeline 62, the released vaporization heat is-40.65 kJ/mol, and the high-purity regenerated pure water enters a water vapor condensation tank 50 surrounded by a heat insulation outer sleeve 130; the generated enthalpy-241.8 kJ/mol and the heat of vaporization-40.65 kJ/mol are transmitted to a heating supply station 52 surrounded by a heat insulation shell 133 through an HP295 welding bottle steel heat insulation and insulation hot air transmission flange pipe 131, a heat insulation hot air transmission pipe 132, an HP295 welding bottle steel hot air transmission pipe 54, an HP295 welding bottle steel gas rotary ball valve 57 and an Hp-5 hard muscovite transmission pipe 44, and the heat insulation 56 meets the design requirements.

Referring to fig. 6, the structure of the ground shield heat dissipation cooling cabinet 99 is: a west side grounding shielding wall plate 100, a top plate 101 of a grounding shielding heat dissipation cooling cabinet, a west side grounding shielding wall vent hole 102, a grounding shielding pardon heat cooling cabinet bottom plate 103, a Monel alloy hydrogen oxygen plasma gas delivery tee joint 77 consisting of an HP295 welding bottle steel hot air delivery pipe 54 and a hot air horizontal to west delivery flange pipeline 114, a top hot air delivery flange pipeline 104, an Hp-5 hard muscovite fan 43 and an Hp-5 hard muscovite delivery pipe 44 of a top armature voltage speed regulation direct current motor 25, a hot air horizontal to east delivery flange pipeline 105, an east side grounding shielding vent hole 106, an east side grounding hot air vertical downward delivery flange pipeline 107, a clear water heat absorption cooling water pool 108, a normal temperature air cooling discharger 109, a normal temperature clear water horizontal output water pipe 110, a normal temperature clear water vertical output water pipe 111, a, The device comprises normal-temperature clean water 93, a normal-temperature clean water horizontal input water pipe 112, a ground shield top plate inclination angle adjusting plate 113, an east-side ground shield wall plate 115, a ground shield heat dissipation cooling cabinet panel 116 and a ground shield heat dissipation cooling cabinet rear panel 117. In the above structure, the heat released by each heating component in the grounding shielding heat dissipation and cooling cabinet 99 is transported out by the Hp-5 hard muscovite fan 43 of the armature voltage speed-adjustable DC motor 25, and is transported to the clean water tank 1 by the clean water heat absorption and cooling water tank 108 through the normal temperature clean water vertical output water pipe 111.

Referring to FIG. 7, in 99 east of the ground screen heat dissipation and cooling cabinetAt the two ends of the west, Hp-5 hard muscovite insulating heat-resisting load-bearing ring brackets 118 are arranged, which comprise Hp-5 hard muscovite rings 119, Hp-5 hard muscovite bearing lining columns 120,

And a through hole 121. The insulating heat load ring support 118 is a key component of the insulating heat load of the present invention.

Referring to fig. 1 and 8, the positive coulomb repulsion sieve plate and oxygen-hydrogen horizontal molecular sieve 122, which are arranged in the grounding shielding heat dissipation cooling cabinet 99, include H from west to east₂(g) And O (g)²⁺And positive electric impurity particle Monel metal conveying gas pipe 76, Hp-5 hard muscovite insulating temperature-resistant load-bearing ring bracket 118, Monel metal west end sealing plate 65, west side grounding shielding wall plate 100 and I type²⁴¹Am sealed source 33, Monel west grounded screen 87, class I²⁴¹Am sealed source 33, Monel east-side grounded screen plate 88, class I²⁴¹Am sealing source 33, oxygen molecular sieve 63, hydrogen molecular sieve 64, Hp-5 hard muscovite insulating temperature-resistant load-bearing ring support 118, monel east end sealing plate 75 and east side grounding shielding wall plate 115.

The principles of electromagnetism from pages 142 to 145 of the electromagnetic upper book by professor Zhao Kai Hua, Beijing university, published by higher education publishers, 1985, indicate that: when the outer surface of the conductor shell is connected with the output end V-of the negative power supply, the inner surface of the conductor shell generates positive charges e +, and the positive charges e + in the conductor shell are repelled to the vicinity of the center line of the e-conductor shell with negative charge on the outer surface. At H in FIG. 8₂(g) And O (g)²⁺And the outer surface and positive and negative potentials V of the positive impurity particle Monel alloy gas pipe 76_±The negative power output end V-of the DC power supply 8 is fixedly connected to enable H₂(g) And O (g)²⁺And the inner surface of the positively charged impurity particle Monel metal delivery gas pipe 76 is all positively charged e +, the positive coulomb repulsion forces the oxygen plasma O (g)²⁺Is repelled to the vicinity of the central axis of the Monel metal delivery pipe 76, and oxygen plasma O (g)²⁺And positively charged impurity particles pass smoothly through monel west seal plate 65. The outer surface of the monel hydrogen gas and oxygen gas plasma delivery tube 42 of fig. 1And positive and negative potentials V_±The negative power output end V-of the direct current power supply 8 is fixedly connected; delivery of oxygen plasma O (g)²⁺And the operating principle of (1) is similar to that of west end H of FIG. 8₂(g) And O (g)²⁺And the positive electrical impurity particle monel alloy delivery pipe 76 operate on the same principle.

Referring to FIG. 9, the semi-automatic programmable logic PLC system 134 of the present invention is shown as two sets of FX2N-48MR-ES/UL 135. The two sets of systems both comprise a wave band switch moving sheet (I)136, a wave band switch moving sheet (II)137, control switches KNX (1)138 and KNX (2) 139. Wherein, the wave band switch moving plate (I)136 is used for processing the starting and stopping operation of the direct current motors such as the armature voltage speed regulation direct current motor 9, the armature voltage speed regulation direct current motor 11, the armature voltage speed regulation direct current motor 13, the armature voltage speed regulation direct current motor 17, the armature voltage speed regulation direct current motor 19, the armature voltage speed regulation direct current motor 20, the armature voltage speed regulation direct current motor 21, the armature voltage speed regulation direct current motor 23 and the like of the hydrogen preparation system; the armature voltage speed-regulating DC motor 10, the armature voltage speed-regulating DC motor 14, the armature voltage speed-regulating DC motor 15, the armature voltage speed-regulating DC motor 16, the armature voltage speed-regulating DC motor 18, the armature voltage speed-regulating DC motor 22, the armature voltage speed-regulating DC motor 24, the armature voltage speed-regulating DC motor 25 and the clear water pump 12 of the oxygen preparation system and the cooling circulating water pump are processed by the band switch moving plate (II) 137. The control switches knx (i)138 and knx (ii)139 are used for the maintenance of the invention and are opened before operation.

The operation steps of the heat supply technical equipment for preparing hydrogen, oxygen and purified water by ionizing water vapor by photoelectric effect of the invention are as follows: referring to fig. 1 to 6, before starting up, the three-level combination switch Q is closed and connected to the commercial power, firstly, the clean water pump 12 is started, and when the water level of the clean water 93 exceeds 100 ℃ and the distance between the bottom of the clean water expansion chamber 3 and the lower end of the commercial power C phase metal wire is 30mm, the commercial power a-B phase start switch 2 is immediately connected to heat the clean water 93 to 100 ℃; at this time open¹³⁷The shield gate Jiong of the Cs sealed source 34 and opened simultaneously²⁴¹Am a shield gate sealing source 33; when SB1 of the 1 st set is pressed, the input terminal X1 of the 1 st set PLC is connected with the 24V DC power supply, the input coil X1 is electrified,after the execution of the stage program, the output coil Y0 is electrified, so that the solid state relay SSRO is switched from off to on, and the armature voltage speed-regulating DC motor 10 is started and continuously operated; after the armature voltage speed-regulating direct-current motor 10 continuously operates for 5 seconds, the armature voltage speed-regulating direct-current motor 14 is immediately started and continuously operates; the other eight direct current motors, i.e., the armature voltage adjustable dc motor 15, the armature voltage adjustable dc motor 16, the armature voltage adjustable dc motor 18, the armature voltage adjustable dc motor 22, the armature voltage adjustable dc motor 24, and the armature voltage adjustable dc motor 25, are sequentially and normally operated. The 2 nd PLC is started in the same way, so that the armature voltage speed regulation direct current motor 9, the armature voltage speed regulation direct current motor 11, the armature voltage speed regulation direct current motor 13, the armature voltage speed regulation direct current motor 17, the armature voltage speed regulation direct current motor 19, the armature voltage speed regulation direct current motor 20, the armature voltage speed regulation direct current motor 21 and the armature voltage speed regulation direct current motor 23 all normally and continuously operate.

The heat supply technical equipment for preparing hydrogen, oxygen and purified water by stopping ionizing water vapor by photoelectric effect comprises the following steps: step 1, closing a liquid gate valve 38 in an underground grounding adiabatic clear water heating water pipe 36 in the figure 1; step 2, when the lower end of a C-phase metal wire of a connector of the water level meter and the commercial power C is disconnected with the liquid level of the clear water expansion chamber 3 at 100 ℃, stopping the operation of the clear water pump 12; step 3, closing²⁴¹Am sealed source 33 and¹³⁷cs sealed source 34, stopping production of regeneration hydrogen H₂(g) And regeneration of oxygen O₂(g) (ii) a Step 4, cutting off the power supply of all the motors; step 5, closing all HP295 welding cylinder steel gas rotary ball valves 57 and Monel alloy gas rotary ball valves 58; and 8, disconnecting the three-pole combined switch Q.

The maintenance operation of the invention is as follows: the terminals of FX2N-48MR-ES/UL components are detected and repaired, and then the DC motor is overhauled: will switch KNX₁Closing, connecting the PLC input terminal X10 with 24 DC power supply, pressing SB10, the PLC internal program electrifying the output coil Y0, the solid state relay SSRO conducting, making the armature voltage speed-regulating DC motor 10 continuously running; SB11 is pressed again, the PLC internal program energizes the output coil Y1, the solid state relay SSR1 is turned on, and the armature voltage adjustable dc motor 14 is continuously operated. Other dc motors start and run continuously in a sequential manner. When the inspection is completed, the PLC input terminal 20 is connected to the 24V dc power supply, SB20 is pressed, the PLC internal program disconnects the output coil Y0, and the armature voltage adjustable dc motor 10 stops operating. The remaining motor overhauls are similar to those described above. Switching on or off KNX before operation₁And open and KNX₂Is disconnected.

Claims (6)

1. Photoelectric effect ionization water vapor preparation hydrogen, oxygen and purified water heating equipment for water vapor H₂O (g) of pure water with hydrogen and oxygen, based on the theory proposed in 1902 of Philippine Leiner that electrons must have a certain minimum energy to generate ionization of gas when passing through a gas, photoelectric effect principle, professor boutique Notification of Beijing university on atomic photoelectric effect probability formula tau_α＝CZ⁴λ³The method is characterized in that:

is provided with a clean water pool (1), a commercial power A-B phase starting switch (2), a clean water expansion chamber (3) at 100 ℃, a mercury-lead particle radioactive micro-particle photoelectric effect detection and collection chamber (4) and water vapor H₂O (g) molecular sieves (5), steam H₂O (g) photoelectric effect ionization chamber (6), a water level meter and commercial power C connection joint (7), a positive and negative potential V +/-direct current power supply (8), a Monel alloy fan (41) of an armature voltage speed regulation direct current motor (9), an Hp-5 hard muscovite fan (43) of an armature voltage speed regulation direct current motor (10), a Monel alloy fan (41) of an armature voltage speed regulation direct current motor (11), a clear water pump (12), a Monel alloy fan (41) of an armature voltage speed regulation direct current motor (13), a Hp-5 hard muscovite fan (43) of an armature voltage speed regulation direct current motor (14), a Hp-5 hard muscovite fan (43) of an armature voltage speed regulation direct current motor (15), a Hp-5 hard muscovite fan (43) of an armature voltage speed regulation direct current motor (16), a Monel alloy fan (41) of an armature voltage speed regulation direct current motor (17), Hp-5 hard muscovite fan (43) of armature voltage speed-regulating DC motor (18), Monel alloy fan (41) of armature voltage speed-regulating DC motor (19), and armature voltage regulationA Monel alloy fan (41) of a speed direct current motor (20), a Monel alloy fan (41) of an armature voltage speed-regulating direct current motor (21), an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (22), a Monel alloy fan (41) of an armature voltage speed-regulating direct current motor (23), an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (24), an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (25), a grounding shielding heat dissipation cooling cabinet (99), and structures for preparing primary hydrogen and primary oxygen by ionizing water vapor through photoelectric effect, namely a primary oxygen purification structure (96), a primary hydrogen purification structure (97), a regeneration purified water synthesis and hot air supply structure (98), an Hp-5 muscovite insulation heat-resistant load-carrying ring hard bracket (118), A positive coulomb repulsion sieve plate and oxygen-hydrogen horizontal molecular sieve structure (122);

wherein the commercial power A-B phase starting switch (2), the clear water expansion coefficient chamber (3) at 100 ℃, the mercury-lead particle radioactive microparticle photoelectric effect detection collection chamber (4), and the water vapor H₂O (g) molecular sieves (5), steam H₂O (g) the photoelectric effect ionization chamber (6) forms a hollow upright post device which is arranged on the west side or the east side of the grounding shielding heat dissipation cooling cabinet (99), and H₂(g) And O²⁺Monel fan (41) of positive impurity particle Monel gas supply pipe (76) and armature voltage speed-regulating DC motor (9), and Monel hydrogen-oxygen plasma O (g)²⁺Air delivery pipes (42) which are all arranged between the hollow upright post equipment and the grounding shielding heat dissipation cooling cabinet (99), a positive coulomb repulsion sieve plate, an oxygen and hydrogen horizontal molecular sieve (122), a positive and negative potential V +/-direct current power supply (8), a positive coulomb repulsion Monel alloy sieve plate (87), an Hp-5 hard muscovite fan (43) of an armature voltage speed regulation direct current motor (10) and an Hp-5 hard muscovite air delivery pipe (44) thereof, the mercury lead particle radioactive microparticle oxygen plasma reducer (61), the Monel alloy fan (41) of the armature voltage speed-regulating direct current motor (11), the Monel alloy hydrogen and oxygen plasma conveying gas pipe (42) of the Monel alloy fan, the HP295 welding bottle steel pipe bridge (60) of the input port of the clean water pump (12), the liquid conveying flange pipeline (62) of the output port of the HP295 welding bottle steel pipe bridge and the liquid gate valve (38) are all arranged in an internal frame of the grounding shielding heat dissipation cooling cabinet (99);positive and negative potential V + -DC current (8) negative power supply V-through control switch K1, and H₂(g) And O (g)²⁺After the outer surface of the Monel alloy gas conveying pipe (76) with positive electric impurity particles is fixedly connected, the Monel alloy gas conveying pipe is fixedly connected with the outer surface of a Monel alloy hydrogen and oxygen plasma gas conveying pipe (42) of an armature voltage speed-regulating direct current motor (9); a positive power supply V + of a positive and negative potential V +/-direct current power supply (8) is inserted into a Monel alloy cylinder ionization chamber on a cylinder between a Monel alloy west-end honey seal plate (65) and a Monel alloy parallel plate capacitor input port (29) through a control switch K2, so that the Monel alloy west-end seal plate (65) is tightly connected with a positive power supply output end V + of the direct current power supply (8);

a mercury lead microparticle radioactive microparticle photoelectric effect detection and collection chamber (4) communicated with a Monel alloy fan (41) of an armature voltage speed-regulating DC motor (11), and water vapor H arranged at the north side₂O (g) molecular sieves (5), steam H₂O (g) photoelectric effect ionization chamber (6), Monel hydrogen and oxygen plasma O (g)²⁺A gas conveying pipe (42), a Monel alloy fan (41) of an armature voltage speed-regulating DC motor (9), a Monel alloy hydrogen and oxygen plasma gas conveying tee joint (77), an oxygen molecular sieve 63 and a hydrogen molecular sieve 64; arranged at the south side with H₂(g) And O (g)²⁺A Monel alloy fan (41) of a Monel alloy hydrogen gas supply pipe (31) and an armature voltage speed-regulating DC motor (11), wherein the Monel alloy fan comprises a positive electric impurity particle Monel alloy gas supply pipe (76), a Monel alloy west-end sealing plate (65), a west-side positive coulomb repulsion Monel alloy sieve plate (87), an east-side positive Monel alloy sieve plate (88), an oxygen molecular sieve (63), a hydrogen molecular sieve (64), a Monel alloy hydrogen gas supply pipe (31);

a primary oxygen purification structure (96) and a primary hydrogen purification structure (97) are arranged under the grounding shielding heat dissipation cooling cabinet (99); the key components of the primary oxygen purification structure (96) are: a grounding Monel primary oxygen station (66), an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (16), an Hp-5 hard muscovite gas conveying pipe (44), and a Rutherford nuclear structure model HP295 welding bottle steel vacuum tester (69); the central part right above the Rutherford nucleus type structure model vacuum tester (69) is provided with Hp-5 hard muscovite primary oxygenThe gas conveying gas tee joint (74), the Hp-5 hard muscovite primary oxygen conveying gas tee joint (74) operates in a negative pressure environment; an HP295 welding cylinder steel high-purity oxygen station (68) is arranged on the east side of the gas conveying tee joint (74), the HP295 welding cylinder steel high-purity oxygen station (68) operates under the positive pressure condition, and the maximum pressure is greater than 10 MPa; tritium deuterium is arranged on the west side of the Hp-5 hard muscovite primary oxygen conveying gas tee joint (74)³He(g)⁴He (g) a model III steel cylinder (67) of 35MPa grounded; the key components of the primary hydrogen purification structure (97) are: monel fan (41) of grounded Monel primary hydrogen station (80), armature voltage regulated DC motor (19) and Monel hydrogen oxygen plasma O (g)²⁺The device comprises a gas conveying pipe (42), a Rutherford nuclear structure model Monel alloy vacuum tester (81), and a Monel alloy hydrogen conveying tee joint (86) arranged at the center part right above the Rutherford nuclear structure model Monel alloy vacuum tester (81), wherein the Monel alloy hydrogen conveying gas tee joint (86) operates in a negative pressure strong environment; a high-purity hydrogen station (79) is arranged on the east side of the hydrogen conveying tee joint (86), and the high-purity hydrogen station (79) operates under the positive gas pressure state; the west side of the Monel metal hydrogen conveying gas tee joint (86) is provided with³He(g)⁴He (g) grounding a 35MPa type III steel cylinder (78);

a photoelectric effect ionized water vapor primary hydrogen and primary oxygen preparing structure is arranged on the top layer of the sealed west-side vertical hollow upright post composite ionization chamber²⁴¹Am sealing sources (33) are different, a hydrogen molecular sieve (64) is arranged at the lower bottom of a top screen of the sealed west-side vertical hollow upright post composite ionization chamber, and a Monel alloy primary hydrogen output chamber (46) and a Monel alloy primary oxygen output chamber (45) are established; the connection relationship of the components between the Monel alloy primary hydrogen output chamber (46) and the Monel alloy primary hydrogen station (80) and the connection relationship of the components between the Monel alloy primary oxygen output chamber (45) and the HP295 welding cylinder steel primary oxygen station (66) are respectively as follows: the structure of the Monel primary hydrogen output chamber (46) is as follows: comprises a clear water expansion chamber (3) with the temperature of 100 ℃, a mercury lead particle radioactive particle photoelectric effect detection collection chamber (4) and the Monel primary fully-programmed oxygen transfusion chamber from south to north on the west sideA discharge chamber (45) and a Monel primary hydrogen output chamber (46); the Monel hydrogen conveying pipe (31) is led out from a rear wall plate at the upper part of the hydrogen molecular sieve (64), is communicated and fixedly connected with an input port of a Monel gas rotary ball valve (58), enters an underground grounding heat-insulation clean water heating water pipe (36), is cooled to normal temperature by clean water (93), is continuously pushed by a Monel fan (41) of an armature voltage speed-regulating direct current motor (13), and is driven by Monel hydrogen oxygen plasma O (g)²⁺A grounded Monel primary hydrogen station (80) with a gas delivery conduit (42) continuously entering the primary hydrogen purification structure (97); then the high-purity hydrogen (127) is processed by a primary hydrogen purification structure (97), and then a Monel alloy fan (41) of an armature voltage speed-regulating DC motor (21) passes through Monel alloy hydrogen and oxygen plasma O (g)²⁺A gas conveying pipe (42) and a Monel metal gas rotary ball valve (58) which are conveyed to a Monel metal high-purity hydrogen station (79);

the lower bottom of the Monel primary oxygen output chamber (45) is a positive coulomb repulsion Monel sieve plate (87), the upper and lower four peripheries of the Monel sieve plate (87) are insulated from the upper and lower Monel wall by the Lesper Hp-5 hard muscovite panel (27); the Monel alloy sieve plate (87) with the positive coulomb repulsion can be grounded or connected with a negative power supply output end V-of a direct current power supply (8); the west end of the Monel alloy oxygen and hydrogen gas conveying pipe (32) is communicated and fixedly connected with the east side wall of the Monel alloy primary oxygen output chamber (45), the east end of the conveying pipe (32) is communicated and fixedly connected with the input port of the Monel alloy gas rotary ball valve (58) and then is communicated and fixedly connected with an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (14) and an Hp-5 hard muscovite conveying pipe (44), and the Hp-5 hard muscovite conveying pipe (44) is communicated and fixedly connected with an HP295 welding bottle steel primary oxygen station (66) of a primary oxygen purification structure (96); the primary oxygen purification structure (96) processes -grade oxygen output by the Monel alloy primary oxygen output chamber (45) into high-purity oxygen (125), and then the high-purity oxygen is conveyed to an HP295 welding bottle steel high-purity oxygen station (68) through an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (18) through an Hp-5 hard muscovite conveying pipe (44) and an HP295 welding bottle steel gas rotary ball valve (57);

an input port of a Monel alloy gas ball-transfer valve (58) is communicated and fixedly connected with the east side wall of the mercury-lead particle radioactive particle photoelectric effect detection collection chamber (4), an output port of the gas ball-transfer valve (58) is further communicated and fixedly connected with an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (15), the east end of the Hp-5 hard muscovite air supply pipe (43) of the armature voltage speed-regulating direct current motor (15) is communicated and fixedly connected with the west end of an Hp-5 hard muscovite air output pipe (44), primary oxygen (125) in the east section of the HP-5 hard muscovite air supply pipe (44) is cooled to normal temperature by normal temperature clear water (93) buried in an underground heat-insulation clear water heating water pipe (36) under the pushing of the Hp-5 hard muscovite fan (43) of the armature voltage speed-regulating direct current motor (15), the gas enters a Monel alloy primary oxygen station (66) of a primary oxygen purification structure (96), is processed into high-purity oxygen (125) through the primary oxygen purification structure (96), and then is continuously conveyed to the high-purity oxygen station (68) through an Hp-5 hard muscovite fan (43) of an armature voltage speed regulation direct current motor (18) and an Hp-5 hard muscovite gas conveying pipe (44) and an HP295 welding cylinder steel gas ball transfer valve (57);

the negative power supply output end V-of the positive and negative potential V +/-direct current power supply (8) is fixedly connected with the outer surface of an oxygen-hydrogen Monel alloy air pipe (32) at the east side of the mercury-lead particle radioactive particle detection collection chamber (4), and then is fixedly connected with the outer surface of an output air pipe (32) at the east side wall of a Monel alloy primary oxygen output chamber (45); the output port of the clear water pump (12) is communicated and fixedly connected with the east end of the liquid conveying flange pipeline (62), and the east end of the liquid conveying flange pipeline (62) penetrates into the interior of the underground heat-insulating clear water heating water pipe (36).

2. The photoelectric effect ionized water vapor hydrogen, oxygen and purified water heating equipment as claimed in claim 1, wherein:

the fresh water pool (1), the commercial power A-B phase starting switch (2), the 100 ℃ fresh water expansion chamber (3), the water level meter and commercial power C connecting joint (7), the water level meter and liquid flow automatic regulator (35), the liquid conveying flange pipeline (62), the liquid gate valve (38) and the grounding heat insulation fresh water heating pipe (36) form a 100 ℃ fresh water starting temporary heating system; for saving earth surfaceThe ground-connected heat-insulation clear water heating water pipe (36) is usually buried in the ground for 1.8-2.2 m; wherein, the commercial power A-B phase starting switch (2), the clear water expansion chamber (3) at 100 ℃, the lead-mercury particle radioactive particle photoelectric effect detection collection chamber (4) and the water vapor H₂O (g) molecular sieves (5), steam H₂O (g) the photoelectric effect ionization chamber (6) forms a sealed west-side vertical hollow upright post composite ionization chamber which is a negative pressure operation production line, and each vertical metal wall of the negative pressure operation production line consists of Monel alloy; the clean water pool (1) at the east side and the water vapor H at the west side₂O (g) photoelectric effect ionization chambers (6) are communicated, and a grounding heat-insulation HP295 welding flask steel clean water heating water pipe (36), a commercial power A-B phase starting switch (2), a 100 ℃ clean water expansion chamber (3), a lead-mercury particle radioactive micro-particle photoelectric effect detection collection chamber (4), water vapor H and a power supply system are arranged between the O (g) photoelectric effect ionization chambers₂O (g) a molecular sieve (5), wherein the clear water pool (1) and the grounding heat-insulation clear water pipe heating water pipe (36) are both made of HP295 welded-bottle steel, and the clear water pool (1), the grounding heat-insulation HP295 welded-bottle steel clear water heating water pipe (36) and the mains supply A-B phase starting switch (2) are communicated and fixedly connected with each other and simultaneously run continuously for a long time under the condition of negative pressure;

an HP295 welded-bottle steel clean water pool (1), a commercial power A-B phase starting switch (2), a 100 ℃ clean water expansion chamber (3), a water level meter and commercial power C connection joint (7), a liquid flow automatic regulator (35), a liquid gate valve (38) and a grounding heat insulation Hp295 welded-bottle steel clean water heating water pipe (36) are all arranged on the bottommost layer and are tightly connected with the ground, and the grounding resistance of the water pipe is less than 4 omega; the HP295 welding bottle steel clean water pool (1) is arranged on the east side of the bottommost layer, the clean water pool external communicating pipe (39) is arranged on the east side of the middle part of the HP295 welding bottle steel clean water pool (1) and is connected with the ground, and the ground resistance of the clean water pool is less than 4 omega; a liquid check valve (37) is arranged in the HP295 welding flask steel clean water pool (1), an output port on the north side of the liquid check valve (37) is communicated with the east side of the lead-mercury particle radioactive particle detection oxygen plasma reducer (61), and an HP295 welding flask steel pipe bridge (60), a clean water pump (12), an HP295 welding flask steel liquid conveying flange pipeline (62) and a liquid gate valve (38) are arranged between the liquid check valve and the liquid check valve;

an output port of the clean water pump (12) is communicated and fixedly connected with an east end of an HP295 welding bottle steel liquid conveying flange pipeline (62), a west end of the HP295 welding bottle steel liquid conveying flange pipeline (62) is communicated and fixedly connected with an east end of a mercury lead particle radioactive particle oxygen plasma reducer (61), a west side of the mercury lead particle radioactive particle oxygen plasma reducer (61) is communicated and fixedly connected with an input port of a liquid gate valve (38), an output port of the liquid gate valve (38) is communicated and fixedly connected with a north end of an HP295 welding bottle steel liquid conveying pipeline (94), the HP295 welding bottle steel clean water heating water pipe (36) penetrates through the grounding heat insulation HP295 welding bottle steel clean water, and an input port and an output port of the clean water pump (12) form a normal-temperature clean water closed-loop circulation system; the water level meter and commercial power C connection joint device (7) comprises a water level meter, a liquid flow automatic regulator (35) and a liquid gate valve (38); when the south end of the C phase of the 100 ℃ clear water high water level power-off switch is disconnected with the 100 ℃ clear water level, a power circuit of the clear water pump (12) immediately forms a power electrical appliance access, so that the clear water pump (12) is immediately started at a low water level and is timely supplied with the normal temperature clear water (93), and the normal temperature clear water (93) is timely stopped being supplied at a high water level, so that the mercury-lead particle radioactive microparticle oxygen plasma reducer (61) keeps running at normal temperature;

the oxygen plasma preparation and reduction system comprises a mercury-lead microparticle radioactive microparticle photoelectric effect detection and collection chamber (4) and a water vapor H₂O (g) molecular sieves (5), steam H₂O (g) photoelectric effect ionization chamber (6), H₂(g) And O (g)²⁺And impurity particle Monel alloy-containing gas conveying pipe (76), Monel alloy west end sealing plate (65), parallel plate capacitor input port (29), Hp-5 hard white mica vertical sealing wall plate (30), parallel plate capacitor (28), mercury lead particle radioactive particle oxygen plasma reducer (61), Monel alloy oxygen plasma hydrogen conveying tee joint (77); wherein H₂(g) And O (g)²⁺And the west end of the positive electric impurity particle Monel metal delivery gas pipe (76) and the water vapor H₂O (g) the photoelectric effect ionization chamber (6) is communicated and fixedly connected; h₂(g) And O (g)²⁺The east end of the positive electric impurity particle Monel alloy gas conveying pipe (76) is communicated and fixedly connected with a Monel alloy west end sealing plate (65); h₂(g) And O (g)²⁺And a Monel metal delivery gas pipe (76) for positively charged impurity particles communicating with the mercury-lead particle radioactive particle oxygen plasma reducer (61) and therebetweenThe device is provided with a Monel alloy west-end sealing plate (65), a parallel plate capacitor input port (29), an Hp-5 hard white mica vertical sealing wallboard (30) and a parallel plate capacitor (28); the north end of the Monel alloy oxygen plasma hydrogen output tee joint (77) is communicated and fixedly connected with the south end wall of the mercury-lead particle radioactive particle oxygen plasma reducer (61); the south end of the gas output tee joint (77) is also communicated and fixedly connected with an Hp-5 hard muscovite fan (43) of the armature voltage speed-regulating direct current motor (10); an Hp-5 hard muscovite conveying gas pipe (44) of an armature voltage speed-regulating direct current motor (10) is communicated with a mercury lead particle radioactive particle photoelectric effect detection collecting chamber (4), and a Monel alloy hydrogen and oxygen plasma conveying tee joint (77), a mercury lead particle radioactive particle oxygen plasma reducer (61), a Monel alloy parallel plate capacitor (28), a Monel alloy parallel plate capacitor input port (29), a Monel alloy west end sealing plate (65), an H-shaped lead particle radioactive particle oxygen plasma reducer, a Monel alloy hydrogen and oxygen plasma reducer, a Monel alloy parallel plate capacitor input port (29), a Monel alloy west end sealing plate (65) and an H-shaped lead particle radioactive particle photoelectric effect detection collecting chamber are arranged between the two chambers₂(g) And O (g)2+ and a positive impurity particle Monel metal supply gas pipe (76), water vapor H₂O (g) photoelectric effect ionization chamber (6), water vapor H₂O (g) molecular sieve (5);

a small amount of hydrogen, referred to as primary oxygen, is contained in the oxygen of the oxygen production system, and a primary oxygen purification structure (96) and a primary oxygen station (66) containing primary oxygen (124) are provided; the primary oxygen purification structure (96) is structurally arranged below the south and southeast sides of the grounding shielding heat dissipation cooling cabinet (99), and the primary oxygen purification structure (96) comprises an armature voltage speed regulation direct current motor (16), an Hp-5 hard muscovite fan (43) of the armature voltage speed regulation direct current motor (16) and an Hp-5 hard muscovite conveying and feeding pipe (44) thereof, an HP295 welding cylinder steel oxygen heat dissipation cooling flange pipeline (91) and an HP295 welding cylinder steel primary oxygen station (66); wherein the north end of the HP295 welding bottle steel oxygen heat dissipation cooling flange pipeline (91) is communicated and fixedly connected with the south end of the Hp-5 hard muscovite gas conveying pipe (44); the south end of an HP295 welding cylinder steel oxygen heat dissipation cooling air flange pipeline (91) is communicated and fixedly connected with the south side device wall of an HP295 welding cylinder steel primary oxygen station (66); the components of the primary oxygen purification structure (96) include, from southeast to southwest: the west end of the Monel metal oxygen plasma hydrogen gas conveying three-way pipe (77) is communicated and fixedly connected with an Hp-5 hard muscovite fan 43 of the armature voltage speed-regulating direct current motor 16; the east end of the Hp-5 hard muscovite air conveying pipe 44 is communicated and fixedly connected with the Hp-5 hard muscovite fan 43; the south end of the Hp-5 hard muscovite gas conveying pipe 44 is communicated and fixedly connected with the north end of an HP295 welding bottle steel gas conveying flange pipeline (91); the west end of an HP295 welding cylinder steel oxygen heat dissipation and cooling air pipe (91) is communicated and fixedly connected with the south side wall of a Monel workshop primary oxygen station (66); the Monel metal hydrogen and oxygen plasma gas conveying tee joint (77) on the east side of the Monel metal primary oxygen station (66) is communicated and fixedly connected with an input port of a Monel metal gas rotary ball valve (58), and the east end of the Monel metal gas rotary ball valve (58) is communicated and fixedly connected with an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (16) and an Hp-5 gas conveying pipe (44) of the armature voltage speed-regulating direct current motor; an Hp-5 hard muscovite gas conveying pipe (44) of the armature voltage speed regulating direct current motor (16) is communicated and fixedly connected with a west side wall of a Rutherford atomic nucleus type structural model HP295 welded bottle steel vacuum tester (69); the zinc sulfide fluorescent screen S (70) is arranged at the west end of the HP295 welding flask steel pipe (73), and the magnifier M (71) is arranged at the east end of the HP295 welding flask steel pipe (73); the central axis of the HP295 welding bottle steel pipe (73) is superposed with the central axis of the Hp-5 hard muscovite air conveying pipe (44) of the armature voltage speed-regulating direct current motor (16); in the middle of the primary oxygen purification structure (96), an Hp-5 hard muscovite gas delivery tee joint (74) is located right above an HP295 welding bottle steel vacuum cabinet (72) of a Rutherford nuclear structure model HP295 welding bottle steel vacuum tester (69) and is locked by a plurality of sets of fasteners, so that the two parts, namely the Rutherford nuclear structure model HP295 welding bottle steel vacuum tester (69) and the Hp-5 hard muscovite oxygen and hydrogen delivery tee joint (74), are ensured to be in a high vacuum state for a long time;

an oxygen molecular sieve (63), a Monel alloy east end sealing plate (75), a Monel alloy oxygen and hydrogen gas conveying pipe (32), an HP295 welding bottle steel gas ball-transfer valve (57), an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (18), an Hp-5 hard muscovite gas conveying pipe (44), an HP295 welding bottle steel gas ball-transfer valve (57) and an O containing high-purity oxygen gas are arranged on the east side of the Hp-5 hard muscovite oxygen and hydrogen gas conveying tee joint (74)₂(g) An HP295 of (126) is used for welding high-purity oxygen gas in the cylinder steel (68); dong end seal plate (75) of Monel alloy and Hp-5 hard muscovite oxygen and hydrogen transportationThe east end of the tee joint (74) is communicated and fixedly connected, and the west end of the Monel alloy oxygen and hydrogen gas conveying and feeding pipe (32) is communicated and fixedly connected with a Monel alloy east end sealing plate (75); the input end of the HP295 welding bottle steel gas rotary ball valve (57) is communicated and fixedly connected with the east end of the Monel alloy oxygen and hydrogen gas conveying and feeding pipe (32); the output port of the gas rotary ball valve (57) is communicated and fixedly connected with an Hp-5 hard muscovite fan (43) of the armature voltage speed-regulating direct current motor (18) and an Hp-5 hard muscovite air conveying pipe (44) thereof; an input port of the HP295 welding cylinder steel gas rotary ball valve (57) is communicated and fixedly connected with an output port of the HP-5 hard muscovite gas conveying pipe (44), and an output port of the HP295 welding cylinder steel gas rotary ball valve (57) is communicated and fixedly connected with an HP295 welding cylinder steel high-purity oxygen station (68); the south end of a Monel alloy hydrogen and oxygen plasma gas delivery tee joint (77) and a Monel alloy oxygen and hydrogen gas delivery pipe (32) are communicated with an HP295 welding cylinder steel gas rotary ball valve (57) on the south side of an HP295 welding cylinder steel high-purity hydrogen station (68), and an Hp-5 hard muscovite fan (43) of an armature voltage speed-regulating direct current motor (16) and an Hp-5 hard muscovite gas delivery pipe (44) thereof, an HP295 welding cylinder steel primary oxygen station (66), a Monel alloy hydrogen and oxygen plasma gas delivery tee joint (77), a Monel alloy gas rotary ball valve (58), an Hp-5 hard muscovite fan (43) and an Hp-5 muscovite gas delivery pipe (44) of the armature voltage speed-regulating direct current motor (16), a Rutherford nuclear structure model HP295 welding cylinder steel vacuum tester (69), an Hp-5 hard muscovite gas delivery tee joint (74), and a Monel alloy oxygen gas delivery pipe (44), A Monel alloy sealing plate (75), a Monel alloy oxygen and hydrogen gas conveying pipe (32), an HP295 welding cylinder steel gas rotary ball valve (57), an Hp-5 hard muscovite fan (43) and an Hp-5 hard muscovite gas conveying pipe (44) of an armature voltage speed-regulating direct current motor (18), an HP295 welding cylinder steel gas rotary ball valve (57) and an HP295 welding cylinder steel high-purity oxygen station (68);

on the west side of the HP-5 hard muscovite oxygen-hydrogen conveying tee joint (74); the device is provided with a Monel alloy grounding sieve plate (87) and a Monel alloy sealing plate (75), wherein a hydrogen molecular sieve (64) and a Monel alloy gas transfer ball valve (58) are arranged on the west side of the Monel alloy sealing plate (75), and an east gas pipe of the hydrogen molecular sieve (64) is communicated and fixedly connected with the Monel alloy sealing plate (75); the west end of the hydrogen molecular sieve (64) and the input end of the Monel alloy gas rotary ball valve (58)The outlet of the Monel alloy gas rotary ball valve (58) is communicated and fixedly connected with the Monel alloy fan (41) of the armature voltage speed-regulating DC motor (17) and the Monel alloy hydrogen and oxygen plasma conveying gas pipe (42), the inlet of the Monel alloy gas rotary ball valve (58) is communicated and fixedly connected with the outlet of the Monel alloy hydrogen and oxygen plasma outputting gas pipe (42), the outlet of the Monel alloy gas rotary ball valve (58) is communicated and fixedly connected with the tritium deuterium³He(g)⁴He (g)35MPa III type steel cylinder (67) is communicated and fixedly connected; deuterium tritium³He(g)⁴He (g)35MPa III steel cylinder (67) south Monel alloy gas transfer ball valve (58) communicated with Monel alloy grounding sieve plate (87), wherein a Monel alloy east end sealing plate (75), a hydrogen molecular sieve (64), a Monel alloy gas transfer ball valve (58) and tritium deuterium are arranged between the Monel alloy east end sealing plate and the Monel alloy east end sealing plate³He(g)⁴He (g)35MPa type III steel cylinder (67);

the hydrogen preparation system comprises a mercury-lead microparticle radioactive microparticle photoelectric effect detection collector (4) and a water vapor H₂O (g) molecular sieves (5), steam H₂O (g) photoelectric effect ionization chamber (6), H₂(g) And O (g)²⁺And a Monel alloy gas conveying pipe (76) containing positive impurity particles, a Monel alloy west end sealing plate (65), a Monel alloy sieve plate (87) with positive coulombic repulsion on the west side, a Monel alloy sieve plate (88) with positive coulombic repulsion on the east side, an oxygen molecular sieve (63), a hydrogen molecular sieve (64), a Monel alloy hydrogen gas conveying pipe (31), a Monel alloy fan (41) of an armature voltage speed-regulating DC motor (11), a Monel alloy hydrogen gas and oxygen plasma gas conveying pipe (42), a Monel alloy gas rotary ball valve (58), a Monel alloy hydrogen gas conveying flange pipeline (89), a Monel alloy hydrogen heat-dissipation cooling gas pipe (92), a Monel alloy H-containing primary hydrogen gas and hydrogen gas₂(g) A grounded monel primary hydrogen station (80) of (126);

the Monel alloy gas rotary ball valve (58) on the east side of the grounding Monel alloy primary hydrogen station (80) is communicated and fixedly connected with the east end of the Monel alloy hydrogen conveying and feeding pipe (31); the east end of the Monel hydrogen gas conveying pipe (31) is communicated with a mercury lead particle radioactive particle photoelectric effect detection collecting chamber (4), and water vapor H is arranged between the east end and the mercury lead particle radioactive particle photoelectric effect detection collecting chamber₂O (g) molecular sieves (5), steam H₂O (g) photoelectric effect ionization chamber (6), H₂(g) And O (g)²⁺And a positive electric impurity particle Monel alloy gas conveying pipe (76), a Monel alloy west end sealing plate (65), a west side positive electric coulomb repulsion Monel alloy sieve plate (87), an east side positive electric coulomb repulsion Monel alloy sieve plate (88), an oxygen molecular sieve (63), a hydrogen molecular sieve (64), a Monel alloy hydrogen conveying pipe (31), a Monel alloy hydrogen fan (41) of an armature voltage speed regulating DC motor (11), a Monel alloy hydrogen and oxygen plasma gas conveying pipe (42), a Monel alloy hydrogen rotary ball valve (58), a Monel alloy hydrogen conveying flange pipeline (89), a Monel alloy hydrogen heat-dissipation cooling gas pipe (92), a grounding Monel alloy primary hydrogen station (80) and a Monel alloy hydrogen conveying pipe (31); the south end of a Monel alloy hydrogen gas conveying pipe (31) on the east side of the hydrogen molecular sieve (64) is fixedly connected with a Monel alloy fan (41) of the armature voltage speed-regulating direct current motor (11), and the Monel alloy fan (41) is fixedly connected with a Monel alloy hydrogen gas and oxygen plasma conveying pipe (42) and then is fixedly connected with an input port of a Monel alloy gas rotary ball valve (58); the output port of the Monel metal gas rotary ball valve (58) is communicated and fixedly connected with the north end of the Monel metal hydrogen conveying flange pipeline (89); the north end of the Monel hydrogen heat-dissipation cooling air pipe (92) is communicated and fixedly connected with the south end of the Monel hydrogen conveying flange pipeline (89); the south end of the Monel hydrogen heat-dissipation cooling pipe (92) and the pipe containing the primary hydrogen H₂(g) The south end wall of the grounded Monel alloy primary hydrogen station (80) of the (126) is communicated and fixedly connected;

steam H₂O (g) photoelectric effect ionization chamber (6), Monel fan (41) of armature voltage speed-regulating DC motor (9) and Monel hydrogen-oxygen plasma output air pipe (42) thereof, from west to east and H₂(g) And O (g)²⁺And a positive electric impurity particle Monel alloy gas conveying pipe (76), a Monel alloy west end sealing plate (65) and a west side space of a west side positive electric coulomb repulsion Monel alloy sieve plate (87) are communicated, and then communicated with east side positive electric coulomb repulsion Monel alloy sieve plate (88) space on east and west sides, and a Monel alloy oxygen plasma hydrogen conveying tee joint (77) is arranged between the west side space and the west side space;

the primary hydrogen gases (126) each contain a small amount of tritium deuterium³He(g)⁴He (g) rare noble gas, the tritium must be continuously supplied to the Monel alloy primary hydrogen station (80) of the primary hydrogen purification structure (97)³He(g)⁴He (g) extracting the rare and noble gases; elementary hydrogen purification structure (97), set up in the west of ground connection shielding heat dissipation cooling cabinet (99) and under ground connection shielding heat dissipation cooling cabinet (99) southwest, its essential elements includes: an armature voltage speed-regulating DC motor (19), a Monel alloy fan (41) of the armature voltage speed-regulating DC motor (19) and a Monel alloy hydrogen and oxygen plasma conveying gas pipe (42) thereof, a Rutherford nuclear structural model Monel alloy tester (81), a Monel alloy gas conveying tee joint (86), a Monel alloy east end sealing plate (75), an armature voltage speed-regulating DC motor (21), a Monel alloy fan (41) of the armature voltage speed-regulating DC motor (21) and a Monel alloy hydrogen and oxygen plasma conveying gas pipe (42) thereof, a Monel alloy gas rotary ball valve (58), a Monel alloy high-purity hydrogen (127) station (79), a Monel alloy fan (41) of the armature voltage speed-regulating DC motor (20) and a Monel alloy hydrogen and oxygen plasma conveying gas pipe (42) thereof, a Monel alloy gas rotary ball valve (58), Monel alloy³He(g)⁴He (g) collector (78);

the east wall of the Monel alloy primary hydrogen station (80) is communicated and fixedly connected with the west end of the Monel alloy hydrogen conveying and feeding pipe (31), the east end of the gas conveying pipe (31) is communicated and fixedly connected with an input port of the Monel alloy gas rotary ball valve (58), an output port of the Monel alloy gas rotary ball valve (58), the device is fixedly connected with a Monel alloy fan (41) of an armature voltage speed-regulating direct current motor (19) in a communicating manner, the east end of the Monel alloy fan (41) is fixedly connected with an input port of a Monel alloy hydrogen and oxygen plasma conveying and air feeding pipe (42) in a communicating manner, the north end of a Monel alloy hydrogen conveying flange pipeline (89) is fixedly connected with an output port of a Monel alloy gas rotary ball valve (58) in a communicating manner, and the south end of the Monel alloy hydrogen conveying flange pipeline (89) is fixedly connected with the north end of a Monel alloy hydrogen heat-dissipation and temperature-reduction air pipe (92) in a communicating manner; the south end of the Monel hydrogen heat dissipation and cooling air pipe (92) is communicated and fixedly connected with the south side of the primary hydrogen station (80); the primary hydrogen purification structure (97) has a frame structure from southeast to southwest: the west ends of the two Monel alloy hydrogen gas conveying pipes (31) are fixedly connected with a Monel gold fan (41) of the armature voltage speed-regulating direct-current motor (11) in a communicating way, the west side wall of the Monel alloy fan (41) is fixedly connected with the east end of a Monel alloy hydrogen gas oxygen plasma output gas pipe (42) in a communicating way, and the west end of the Monel alloy hydrogen gas oxygen plasma conveying pipe (42) of the armature voltage speed-regulating direct-current motor (11) is fixedly connected with an input port of a Monel alloy gas rotary ball valve (58) in a communicating way; the output port of the Monel alloy gas rotary ball valve (58) is communicated and fixedly connected with the south side wall of the Monel alloy primary hydrogen station (80); the west end of the Monel hydrogen conveying pipe (31) is communicated and fixedly connected with the east side wall of the Monel primary hydrogen station (80); the east end of the Monel metal hydrogen gas conveying pipe (31) is communicated and fixedly connected with the input port of the Monel metal gas rotary ball valve (58), and the output port of the Monel metal gas rotary ball valve (58) is communicated and fixedly connected with the Monel metal fan (41) of the armature electric pressure speed-regulating DC motor (19) and the Monel metal hydrogen gas oxygen gas plasma conveying pipe (42); the east end of the Monel hydrogen and oxygen plasma conveying pipe (42) is fixedly connected with a west-side wall of the Rutherford nuclear structure model Monel vacuum tester (81), a Monel tube (83) is arranged in the Rutherford nuclear structure model Monel vacuum tester (81), a zinc sulfide screen S (82) is arranged at the west end of the Monel tube (83), and a magnifier M (84) is arranged at the east end of the Monel tube (83); the central axis of the Monel alloy pipe (83) is coincident with the central axis of the Monel alloy hydrogen and oxygen plasma conveying pipe (42), the Monel alloy vacuum cabinet (85) is tightly connected with the ground, and the grounding resistance of the Monel alloy vacuum cabinet (85) is required to be less than 4 omega; a Monel alloy gas conveying tee joint (86) is arranged at the center of the upper top of the Monel alloy vacuum cabinet (85) and is locked by a plurality of fasteners, so that the Monel alloy vacuum cabinet (85) and the Monel alloy gas conveying tee joint (86) have higher vacuum degrees;

the east side of the upper end of the Monel alloy hydrogen conveying tee joint (86) is provided with a hydrogen molecular sieve (64), a Monel alloy east end sealing plate (75) and a Monel alloy hydrogen conveying pipe (31), and the west end of the Monel alloy hydrogen conveying pipe (31) is communicated and fixedly connected with the Monel alloy sealing plate (75); the east end of the Monel hydrogen conveying pipe (31) is communicated and fixedly connected with the input port of the Monel hydrogen rotary ball valve (58); the output port of the Monel metal gas rotary ball valve (58) is communicated and fixedly connected with a Monel metal fan (41) of the armature voltage speed-regulating direct current motor (21), and the output port of the Monel metal hydrogen and oxygen plasma gas conveying pipe (42) is communicated and fixedly connected with the input port of the Monel metal hydrogen rotary ball valve (58); the output port of the Monel alloy gas rotary ball valve (58) is communicated and fixedly connected with the north side wall of a Monel alloy high-purity hydrogen station (79) containing high-purity hydrogen (127); the south side wall of the Mongolian alloy high-purity hydrogen station (79) is communicated and fixedly connected with the input port of the Mongolian alloy gas rotary ball valve (58); a Monel alloy grounding vacuum cabinet (85) communicated with a Monel alloy gas rotary ball valve (58) at the south side of a Monel alloy high-purity hydrogen station (79), wherein a Monel alloy gas conveying tee joint (86), a hydrogen molecular sieve (64), a Monel alloy east end sealing plate (75), a Monel alloy hydrogen conveying pipe (31), a Monel alloy gas rotary ball valve (58), a Monel alloy fan (41) of an armature voltage speed-regulating DC motor (21), a Monel alloy hydrogen and oxygen plasma conveying pipe (42), a Monel alloy gas rotary ball valve (58) and the Monel alloy high-purity hydrogen station (79) containing high-purity hydrogen (127) are arranged between the Monel alloy grounding vacuum cabinet and the Monel alloy gas rotary ball valve;

a grounding Monel alloy sieve plate (87), a Monel alloy east end sealing plate (75) and a grounding Monel alloy sieve plate (87) are arranged on the west side of the upper end of the Monel alloy gas conveying tee joint (86),³He (g) a molecular sieve (123), a Monel hydrogen gas conveying pipe (31), a Monel gas rotary ball valve (58) and a Monel fan (41) of an armature voltage speed-regulating direct current motor (20), wherein a grounding Monel sieve plate (87) can be connected with a negative power supply V-or a positive power supply V +;³he (g) the east end of the molecular sieve (123) is communicated and fixedly connected with a Monel east end sealing plate (75); an input port of the Monel gas rotary ball valve (58), and³he (g) the west end of the molecular sieve (123) is communicated and fixedly connected; output port of Monel gas rotary ball valve (58) and armatureThe Monel alloy fan (41) of the voltage speed-regulating direct current motor (20) is communicated and fixedly connected; the east end of the Monel hydrogen and oxygen plasma output gas pipe (42) is communicated and fixedly connected with the west side wall of the Monel fan (41), and the west end of the Monel hydrogen and oxygen plasma output gas pipe (42) is communicated and fixedly connected with the input port of the Monel (58); output port of Monel gas rotary ball valve (58) and storage of tritium deuterium³He(g)⁴He(g)]The Monel alloy collector (78) is communicated and fixedly connected; monel alloy gas delivery tee (86) and storage of tritium deuterium³He(g)⁴He(g)]A Monel alloy collector (78) communicated with the container, a Monel earth screen plate (87), a Monel alloy east end sealing plate (75),³He (g) molecular sieve (123), Monel hydrogen gas supply pipe (31), Monel gas transfer ball valve (58), Monel fan (41) of armature voltage speed-regulating DC motor (20), Monel hydrogen gas and oxygen gas plasma supply pipe (42), Monel gas transfer ball valve (58), storage [ tritium deuterium³He(g)⁴He(g)]A Monel collector (78);

high-purity oxygen (125) of a high-purity oxygen station (68) and high-purity hydrogen H of a high-purity hydrogen station (79)₂(g) (127) delivery to steam H₂O (g) Monel alloy synthetic tower (47), under the catalysis of platinum powder catalyst (49), the two high purity gases immediately generate high purity regeneration water vapor H with total alpha radioactivity limit approaching zero (Bq/L) → 0 and total beta radioactivity limit approaching zero (Bq/L) → 0₂O (g) (128); simultaneously release water vapor H₂O (g) enthalpy of formation Δ_fH is-241.8 kJ/mol; high purity regenerated water vapor H at 100 DEG C₂O (g) (128) condensed into high-purity regenerated pure water H at 100 DEG C₂At O (l), (129), the heat of vaporization released is-40.65 kJ/mol; the sum of the two heats is 282.45 kJ/mol; the sum of the enthalpy of steam generation and the heat of vaporization is insulated and preserved by an insulating sheath (130), and a hot air pipe (131) is conveyed by HP295 welding flask steel, an HP295 welding flask steel insulating hot air conveying flange pipeline (132) is conveyed by an Hp-5 hard muscovite fan (43) and an Hp-5 hard muscovite conveying gas pipe (44) of an armature voltage speed-regulating DC motor (24), and the Hp-5 muscovite fan (43) and the H of the armature voltage speed-regulating DC motor (24)A P295 welded steel gas rotary ball valve (57) and an HP-5 hard muscovite gas delivery pipe 44, wherein the hot air is delivered to a heating supply station (52) surrounded by a heat insulation shell (133), and then the heating supply station (52) supplies heating (56) to the periphery;

the grounding sealed container (26) comprises a north Hp-5 hard white mica horizontal sealing plate (27), a south mercury lead particle radioactive particle detection and oxygen plasma reducer (61), a Monel alloy parallel plate capacitor (28), a west Hp-5 hard white mica vertical wall (30) and a Monel alloy parallel plate capacitor input port (29); the grounding sealed container (26) is a large container which bears strong negative pressure in the operation process.

3. The photoelectric effect ionized water vapor hydrogen, oxygen and purified water heating equipment as claimed in claim 1, wherein: the ground shielding heat dissipation cooling cabinet (99) comprises a west-side ground shielding wall panel (100), a top plate (101) of the ground shielding heat dissipation cooling cabinet, a west-side ground shielding wall panel vent hole (102), a bottom plate (103) of the ground shielding heat dissipation cooling cabinet, a Monel alloy hydrogen and oxygen plasma conveying tee joint (77), a hot air conveying flange pipeline (104), an Hp-5 hard muscovite fan 43 of an armature voltage speed regulation direct current motor (25) and an Hp-5 hard muscovite conveying gas pipe (44), a hot air horizontal east-conveying flange pipeline (105), an east-side ground shielding vent hole (106), an east-side ground hot air vertical downward conveying flange pipeline (107), a clear water heat absorption cooling water pool (108), a normal-temperature air tee joint discharger (109), a normal-temperature clear water horizontal output water pipe (110), a normal-temperature clear water vertical output water pipe (111), A normal temperature clean water horizontal input water pipe (112), a grounding shielding top plate inclination angle adjusting plate (113), a hot air horizontal westward conveying flange pipeline (114), an HP295 welding bottle steel hot air conveying pipe (54), an east side grounding shielding wall plate (115), a grounding shielding heat dissipation cooling cabinet panel (116) and a grounding shielding heat cooling cabinet rear panel (117);

in the ventilation holes of the wall boards at the two sides of the grounding shielding heat dissipation cooling cabinet (99), an Hp-5 hard muscovite insulating temperature-resistant load-bearing ring support (118) is arranged, and the insulating temperature-resistant load-bearing ring support (118) comprises an HP-5 hard muscovite ring (119), an HP-5 hard muscovite load-bearing lining column (120) and a through hole (121) with the diameter of 6-phi 16;

a positive coulomb repulsion sieve plate and an oxygen-hydrogen horizontal molecular sieve structure (122) are also arranged on the north side of the grounding shielding heat dissipation cooling cabinet (99), and the west end of the structure (122) is provided with an H₂(g) And O (g)²⁺And a positive electric impurity particle monel alloy transport gas pipe (76) which respectively comprises, from west to east: monel alloy west end sealing plate (65), west side grounding shielding wall plate (100), Hp-5 hard muscovite insulating temperature-resistant load-bearing ring support (118), class I²⁴¹Am sealing source (33), west side positive coulombic repulsion Monel alloy sieve plate (87), class I²⁴¹Am sealing source (33), east side positive electric coulomb repulsion Monel alloy sieve plate (88), class I²⁴¹Am sealing source (33), oxygen molecular sieve (63), hydrogen molecular sieve (64), Monel east end sealing plate (75), east side grounding shielding wall plate (115), Monel east end sealing plate (75) and Hp-5 hard muscovite insulating temperature-resistant bearing ring support (118);

the programmable logic controller (134) is a semi-automatic operating system, and the programmable logic controller (134) comprises: FX2N-48MR-ES/UL (135), band switch moving plate I (136), band switch moving plate II (137) and control switch KNX₁(138) Control switch KNX₂(139)。

4. The photoelectric effect ionized water vapor hydrogen, oxygen and purified water heating equipment as claimed in claim 1, wherein: the type of the Monel alloy is M400; the high-purity hydrogen station (79) uses 35MPa III type steel.

5. The photoelectric effect ionized water vapor hydrogen, oxygen and pure water heating equipment as claimed in claim 2, wherein: the power circuit of the clean water pump (12) comprises an HP295 welding bottle steel liquid flange pipeline (62), a liquid gate valve (38), a lead-mercury particle radioactive particle oxygen plasma reducer (61), the liquid gate valve (38), a grounding heat insulation HP295 welding bottle steel clean water heating water pipe (36), a commercial power A-B phase starting switch (2) on the west side and a 100 ℃ dirty water expansion chamber (3) on the west side.

6. The photoelectric effect ionized water vapor hydrogen, oxygen and pure water heating equipment as claimed in claim 2, wherein: the maximum pressure of the HP295 welding cylinder steel high-purity oxygen station (68) is 35 MPa.

Images