High-efficiency oil-saving agent, preparation method and application thereof
A fuel-saving agent and high-efficiency technology, which is applied in the field of high-efficiency fuel-saving agent and its preparation, can solve the problems of unsuitable transportation, carrying, complicated preparation process, increased mechanical friction, etc., and achieves obvious fuel-saving effect, simple preparation method and long-lasting The effect of longevity
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Embodiment 1
[0032] (1) Preparation of high-efficiency fuel-saving agent: Dissolve 0.1g of 9-fluorenone and 0.05g of mononitrotoluene in 0.05g of ethylene glycol, then mix 99.5g of synthetic camphor and 0.3g of synthetic borneol, and mix well to obtain high-efficiency Fuel saver. The high-efficiency fuel-saving agent is compressed into tablets, 1g per tablet.
[0033] (2) Residual detection of high-efficiency fuel-saving agent: put the high-efficiency fuel-saving agent in a thermogravimetric analyzer, and in an air atmosphere, the thermogravimetric analyzer heats up at a rate of 20°C / min, and the obtained high-efficiency fuel-saving agent degrades curve. From figure 1 It can be seen that when the temperature reaches 175° C., the fuel-saving agent prepared in this example has been completely decomposed without residue.
[0034] (3) Detection of fuel-saving rate: Use Shanghai Volkswagen Passat 1.8T as the test vehicle, add 50L of gasoline, drive at a speed of 90km / h, and record the fuel c...
Embodiment 2
[0038] (1) Preparation of high-efficiency fuel-saving agent: Dissolve 0.05g of 9-fluorenone and 2g of dinitrotoluene in 2.45g of ethylene glycol, then mix 85g of synthetic camphor and 10.5g of synthetic borneol, and mix well to obtain high-efficiency fuel-saving agent. The high-efficiency fuel-saving agent is compressed into tablets, 1g per tablet.
[0039] (2) Residual detection of high-efficiency fuel-saving agent: the detection procedure is the same as step (2) of Example 1. According to the test results, it can be seen that when the temperature reaches 175° C., the high-efficiency fuel-saving agent prepared in this embodiment has been completely decomposed.
[0040] (3) detection of fuel-saving rate: detection procedure is with embodiment 1 step (3), as shown in table 2:
[0041] Table 2
[0042]
Embodiment 3
[0044] (1) Preparation of high-efficiency fuel-saving agent: 2g 1,8-diazo-9-fluorenone and 2g dinitrotoluene are dissolved in 4g ethanol, then 80g natural camphor and 12g synthetic borneol are mixed, fully mixed to obtain high-efficiency Fuel saver. The high-efficiency fuel-saving agent is compressed into tablets, 1g per tablet.
[0045] (2) Residual detection of high-efficiency fuel-saving agent: the detection procedure is the same as step (2) of Example 1. According to the test results, it can be seen that when the temperature reaches 175° C., the high-efficiency fuel-saving agent prepared in this embodiment has been completely decomposed.
[0046] (3) detection of fuel-saving rate: detection procedure is with embodiment 1 step (3), as shown in table 3:
[0047] table 3
[0048]
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