1. A mechanism for the self-oxidation of tetrahydrofurans to produce peroxides the principles of ethanol, ethanol energy and calcium chloride and magnesium chloride, which are repurified by murmur crystall deodorant operation 2. 4. 1 crystall deodorant, form crystall compounds known as crystallized alcohol (combinol). 6choh+mgcl i mgcl6cchhoh3234 chchhoh+caclcl4chho2232 is insoluble in organic solvents and can be sequestered. Calcium and magnesium chloride without water should be used in production to react to methanol and ethanol in the mix and to control salinity and reaction time according to the quantity of the alcohol. Experimental step sampling takes a small amount of a dry test tube from the primary pure sample. An appropriate block-free cac, plugged into the test tube and placed 8-10 hours into the waterless cac top-step sample. 2 filters for filtering funnels, filters, glass
2. Sticks, filtering the solution that is reflected in the upper test tube. 2. 5 the detection of peroxides in repurified products and the antioxidation technology 2. 5. 1 for the self-oxidation of tetrahydrofurans to produce peroxides are separated from the molecules by the least integrated hydrogen in the tetrahydrofurans molecules, which are activated by light and cut off to create free radicals. 匸-cll2h; cch, h2cch; - free radical re-activation and oxygen generation of new active cells for transmission and growth and free radical automatic oxidation for oxidizing free radicals and hydrogen peroxides. The free-base shift to another molecule, which is often repeated in a certain cycle, creates a complete free-base chain peroxide test method that shakes together the same volume of tetrahydrofurans, which are added to the same volume, with a concentration of 1 mol/l sulphate, 0. 5 ml sulphate, and 0. 1 ml/l sulphate (which is then coloured with trace zinc powder), with a concentration of 0. 1 ml/l. Antioxidation techniques include antioxidants in tetrahydrofurans such as 2,612 tbts that effectively inhibit the generation of peroxides. The mechanism of action is that such antioxygens can be combined with active cells to produce more stable compounds, thus ending chain reaction. The generation of stability has prevented the transmission and growth of the oxidation reaction chain, i. E. The end of the chain reaction. In style, r's for the tidbit. Antioxidants can prevent the formation of peroxides, but they cannot eliminate previously produced peroxides. Where oxides exist in tetrahydrofurans, they may be removed by appropriate reductive agents。
