Oxidative thinner for heavy oil exploitation via steam injection and preparation thereof
A technology of steam injection and viscosity reducing agent, applied in chemical instruments and methods, drilling composition and other directions, can solve the problems of high reaction temperature, small catalyst action radius, inability to effectively improve the mining effect, etc.
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Embodiment 1
[0023] In the present embodiment, get the cumene hydroperoxide (component A) of 1%, the manganese oleate (component B) of 2%, the sodium dihydrogen phosphate (component C) of 3% , 2% sodium hydroxide (component D) and 92% water. The specific preparation process is: (1) dissolve cumene hydroperoxide with a small amount of water, and stir for 2 hours; (2) add manganese oleate and sodium dihydrogen phosphate at a temperature of 20°C, and mix and stir for 2 hours; (3) Dissolve sodium hydroxide with the remaining water, then mix with the solution obtained in step (2), and stir for 1.5 hours to obtain the oxidative viscosity reducer of the present invention. Place the prepared oxidation viscosity reducer and heavy oil in a high-temperature and high-pressure reactor at a ratio of 3:7, heat up to 100°C after sealing, keep the temperature constant for 24 hours, slowly lower the temperature to room temperature, pour out the crude oil, and measure the viscosity of the crude oil. The vis...
Embodiment 2
[0025] In the present embodiment, the peracetic acid (component A), 5% zinc stearate (component B), 4% potassium dihydrogen phosphate (component C), 3 % sodium hydroxide (component D) and 83% water. The specific preparation process is: (1) dissolve peracetic acid with a small amount of water, and stir for 1.5 hours; (2) add zinc stearate and potassium dihydrogen phosphate at a temperature of 30°C, and mix and stir for 1.5 hours; (3) use the remaining Sodium hydroxide is dissolved in water, then mixed with the solution obtained in step (2), and stirred for 1.5 hours to obtain the oxidation viscosity reducer of the present invention. Place the prepared oxidative viscosity reducer and heavy oil at a ratio of 3:7 in a high-temperature and high-pressure reactor, heat up to 100°C after sealing, keep the temperature constant for 24 hours, slowly lower the temperature to room temperature, pour out the crude oil, and measure the viscosity of the crude oil. The viscosity reduction rate...
Embodiment 3
[0027] In the present embodiment, the tertiary butyl hydroperoxide (component A), 8% zinc linoleate (component B), 5% potassium dihydrogen phosphate (component C) are taken as 7% by weight. ), 5% sodium carbonate (component D) and 75% water. The specific preparation process is as follows: (1) dissolve tert-butyl hydroperoxide with a small amount of water, and stir for 2 hours; (2) add zinc linoleate and potassium dihydrogen phosphate at a temperature of 30°C, and mix and stir for 2 hours; (3) ) Dissolve sodium carbonate with the remaining water, then mix with the solution obtained in step (2), and stir for 2 hours to obtain the oxidation viscosity reducer of the present invention. Place the prepared oxidative viscosity reducer and heavy oil at a ratio of 3:7 in a high-temperature and high-pressure reactor, heat up to 100°C after sealing, keep the temperature constant for 24 hours, slowly lower the temperature to room temperature, pour out the crude oil, and measure the viscosi...
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