[00 12] The invention adopts the following technical scheme, including the following steps:
[00 13] Step 1, find and adopt a device for efficiently collecting and producing various (petroleum) porphyrins. The prepared porphyrin solution-heavy water containing 5% deuterium as the carrier-is rich in ferrous ions and magnesium ions, so it is necessary to always ensure that porphyrin has normal biochemical functions, mainly the function of combining with oxygen molecules;
[00 14] Step 2: Add auxiliary additives-strontium hydroxide Sr(OH)2 and stable element liquid bromine Br (or hydrogen bromide) in iodine powder I (or hydrogen iodide) into the porphyrin solution of step 1, and the relative ratio of Fe(Mg), Sr, Br and I in the porphyrin solution can be10.
[00 15] In the third step, the oxygen content in the water to be converted must be reduced to less than one-fifth of the normal value at normal temperature and pressure;
[00 16] step 4, putting the porphyrin solution collected in step 2 into a nested open inner glassware; The volume of the outer glassware is 10 times that of the inner glassware, and the water contained in the outer glassware must pass through.
4He is in a supersaturated state, so water can't flood into the glassware inside for the time being. External glass step 3 deoxidation treatment)
The material used above the glassware must be able to effectively prevent porphyrin leakage and have complete permeability to water and oil (diesel oil, etc.). );
[00 17] Step 5, retrieve and adopt a device for efficiently generating 6He containing two halo neutrons, which must be able to generate a certain steady flow of 6He; If you can't get enough 6He, choose 3He instead;
[00 18] The sixth step is to find and adopt a device for efficiently generating muons, especially the method of generating π mesons by bombarding carbon nuclei with protons, which must be able to stably generate a muon beam with a certain flow rate;
[00 19] Step 7, Step 5 and Step 6 are synchronized. The sealed leather tube system matched with the inner glassware in step 4 is adopted to transport 6he and 4He circularly, and the mixed gas of 6He(3He) and 4He is input into the porphyrin solution from the bottom of the inner glassware, and at the same time, the He bubble string of the porphyrin solution is irradiated by the muon beam generated in step 6 from bottom to top. 6He and 4He atoms with two electrons are efficiently converted into atoms with two muons, which are commonly represented by 6Heμ and 4Heμ, and a large number of 6Heμ and 4Heμ atoms are naturally dissolved (condensed into tiny droplets) in porphyrin solution, which is commonly called porphyrin Heμ solution.