Strengthened hydrocarbon to be input into torch and burnt together with oxygen
A technology of oxygen mixing and strengthening of hydrocarbons, applied in the field of strengthening hydrocarbons, can solve the problems of flame heat dispersion, difficulty in ignition, slow flame burning speed, etc., and achieve the effects of reducing use costs, reducing transportation costs, and simple production processes
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Embodiment 1
[0036] When preparing a composite energy-efficiency additive in the strengthened hydrocarbon that is input into the torch and oxygen mixed combustion of the present invention: the weight ratio is 0.02% cyclopentadienyl iron 0.02kg, 6% trinitromethane 6kg, 18% diethyl ether 18kg, 11% triethylamine 11kg, 14% carbon disulfide 14kg, 12% ethyl nitrate 12kg, 14% 1,4-butylene oxide 14kg, 13% ethylene oxide 13kg, 11.98% cyclopentadiene 11.98kg. The above-mentioned compounds are sequentially added into the container, stirred and mixed evenly, and the composite energy-efficiency additive that can be added to the base material hydrocarbon to form a kind of enhanced hydrocarbon that is input to the torch and mixed with oxygen for combustion is obtained.
[0037] When preparing a kind of strengthened hydrocarbon of the present invention which is input into the torch and oxygen mixed combustion: get 4.2 grams of 0.07% composite energy efficiency additive, add the composite energy efficiency ...
Embodiment 2
[0039] When preparing a composite energy-efficiency additive in the enhanced hydrocarbon that is input into the torch and oxygen mixed combustion of the present invention, the difference between this embodiment and Embodiment 1 is that the weight ratio of each component is: 0.3% barium alkylsulfonate 0.3kg, 5% trinitromethane 5kg, 16% diethyl ether 16kg, 10% triethylamine 10kg, 12% carbon disulfide 12kg, 17% ethyl nitrite 17kg, 13% 1,4-butylene oxide 13kg, 16 % ethylene oxide 16kg, 10.7% cyclopentadiene 10.7kg. The above-mentioned compounds are sequentially added into the container, stirred and mixed evenly, and the composite energy-efficiency additive that can be added to the base material hydrocarbon to form a kind of enhanced hydrocarbon that is input to the torch and mixed with oxygen for combustion is obtained.
[0040] When preparing a kind of strengthened hydrocarbon input torch and oxygen mixed combustion of the present invention: get 36 grams of 0.6% composite energy-...
Embodiment 3
[0042] When preparing a composite energy-efficiency additive in the enhanced hydrocarbon that is input to the torch and oxygen mixed combustion of the present invention, the difference between this embodiment and the third embodiment is that the weight ratio of each component is: 0.5% cyclopentadiene Base iron 0.5kg, 4% trinitromethane 4kg, 15% diethyl ether 15kg, 9% triethylamine 9kg, 11% carbon disulfide 11kg, 19% ethyl nitrate 19kg, 12.5% 1,4-butylene oxide 12.5kg , 17% ethylene oxide 17kg, 12% cyclopentadiene 12kg. The above-mentioned compounds are sequentially added into the container, stirred and mixed evenly, and the composite energy-efficiency additive that can be added to the base material hydrocarbon to form a kind of enhanced hydrocarbon that is input to the torch and mixed with oxygen for combustion is obtained.
[0043] When preparing a kind of strengthened hydrocarbon input torch and oxygen mixed combustion of the present invention: get 108 grams of 1.8% compos...
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