WO2011057510A1 - 燃油添加剂 - Google Patents

燃油添加剂 Download PDF

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WO2011057510A1
WO2011057510A1 PCT/CN2010/075650 CN2010075650W WO2011057510A1 WO 2011057510 A1 WO2011057510 A1 WO 2011057510A1 CN 2010075650 W CN2010075650 W CN 2010075650W WO 2011057510 A1 WO2011057510 A1 WO 2011057510A1
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fuel
butanol
fuel additive
additive
ether
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PCT/CN2010/075650
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English (en)
French (fr)
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陈怡瑜
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Chen Yiyu
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    • CCHEMISTRY; METALLURGY
    • C10PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
    • C10LFUELS NOT OTHERWISE PROVIDED FOR; NATURAL GAS; SYNTHETIC NATURAL GAS OBTAINED BY PROCESSES NOT COVERED BY SUBCLASSES C10G, C10K; LIQUEFIED PETROLEUM GAS; ADDING MATERIALS TO FUELS OR FIRES TO REDUCE SMOKE OR UNDESIRABLE DEPOSITS OR TO FACILITATE SOOT REMOVAL; FIRELIGHTERS
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    • C10L10/00Use of additives to fuels or fires for particular purposes
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    • C10L10/00Use of additives to fuels or fires for particular purposes
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    • C10L1/00Liquid carbonaceous fuels
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    • C10L1/231Organic compounds containing nitrogen containing at least one nitrogen-to-oxygen bond, e.g. nitro-compounds, nitrates, nitrites nitro compounds; nitrates; nitrites

Definitions

  • the present invention relates to a liquid fuel additive for improving the combustion performance of a liquid fuel, and more particularly to a fuel additive added to a fuel such as gasoline or diesel.
  • Liquid fuels such as gasoline and diesel oil often produce a large amount of harmful substances due to insufficient combustion during use, which seriously pollutes the living environment and poses a threat to people's health.
  • fuels such as gasoline and diesel are not available.
  • Renewable energy, so energy conservation, environmental protection, and pollution reduction have been valued by many countries. For this reason, it is a hot technology to explore fuel economy and solve the problem of exhaust pollution.
  • Fuel additives are born on this basis.
  • the new fuel-saving products which can promote the full combustion of fuel, improve its utilization rate, reduce the emission of exhaust gas, reduce the impact of noise, and adapt to the requirements of modern fuel oil.
  • the existing fuel is added to the fuel as a catalyst to stimulate the fuel.
  • the active ingredient but the salt substance is an ionic compound, which can separate metal ions and acid ions in the solution.
  • the electrostatic bond between the ions generates relatively strong ionic bonds, the high temperature generated by the fuel combustion is sufficient.
  • the use of the salt substance as a catalyst has a certain energy loss and shortens the service life of the working device;
  • the addition of nano-metal particles to activate the fuel while reducing the toxic components of the fuel volatiles, which only activate the active components of the fuel, does not solve the problem of insufficient fuel combustion and emits a large amount of carbon monoxide toxic gas, which is enhanced by fully burning the fuel.
  • the object of the present invention is to provide a fuel additive which can effectively improve the fuel burning rate, reduce the emission of exhaust gas, remove carbon deposits, and prolong the service life of the working equipment.
  • a fuel additive consisting of the following components by weight: nitrous oxide 76%, hydrogen peroxide 2 ( ⁇ 83%, ethylene; ⁇ 66%, acetone broadly 64°) /., 60% of dichlorodifluoromethane, 60% of benzene, 60% of carbon tetrachloride, 60% of petroleum ether, 60% of butanone, 60% of ethanol, 60% of methanol, and ether 60%, 60% nitro oil, 60% isopropyl alcohol, 60% chloroform, 60% toluene, 89% acetonitrile, 76 °/n-butanol, 2-butanol %, tert-butanol f 89°/., cyclohexane f 76°/., diethyl ether f 90%, nitroguanidine f 76%.
  • Preferred weight percent components of the invention are: nitrous oxide 10%, hydrogen peroxide 50%, ethylene 10%, acetone 2%, dichlorodifluoromethane 2%, benzene, carbon tetrachloride 2%, petroleum Ether, 2% butanone, 2% ethanol, 2 °/methanol.
  • the fuel additive of the present invention is added to the fuel in a liquid state to be mixed.
  • the volume ratio of the fuel additive to the fuel is 1: 70 CT1: 60000.
  • the fuel additive of the invention uses more hydrogen peroxide oxidizing agent, so that the fuel is fully oxidized and burned, the carbon monoxide gas product is reduced, the fuel burning rate is effectively improved, the emission of carbon monoxide toxic gas is reduced, and the erosion of the metal ions on the equipment is avoided.
  • the service life of the working equipment can save energy and reduce pollution, and at the same time, can clean carbon deposits of engines, engine valves, spark plugs, cylinders, etc.;
  • the power per cylinder can be increased by 90%.
  • This fuel additive is used in a wide range of engines that use fuel oil such as diesel or gasoline without any damage or side effects, such as: All vehicles, all small, large ships, all types of aircraft, various Types of military machinery and equipment (eg: tanks, personnel armored transport vehicles, aircraft carriers, military jeep).
  • the above substances are mixed and dissolved according to the formula, and then added to a fuel such as gasoline or diesel at a ratio of 1:700, and the additive is mixed with the fuel. It is allowed to add 4% ⁇ 11% of the fuel of the above formula additive, which can increase the mileage of the car by 8°/ ⁇ 21%, reduce the emission of nitrogen oxide by 3° ⁇ 30%, and remove the carbon deposit by 80°/ ⁇ 99%. , to increase the value of Xin, these mixtures can be mixed in proportion or used alone to achieve a certain effect.
  • the mixed gasoline to which the above formula additive is added is added to the car, and the data measured per 50 L is as follows:
  • the above substances are mixed and dissolved according to the formula, and then added to a fuel such as gasoline or diesel oil at a ratio of 1:60000, and the additive is mixed with the fuel. Allowing fuel oil with the above formula additives to account for 4% to 11%, which can increase the driving mileage by 8° 21%, reduce nitrogen oxide emissions by 3° ⁇ 30%, and remove carbon deposits by 80°/ ⁇ 99%. , to increase the octane number, these mixtures can be mixed in proportion or used alone to achieve a certain effect.
  • the mixed gasoline to which the above formula additive is added is added to the car, and the data measured per 50 L is as follows:

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  • Chemical & Material Sciences (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Engineering & Computer Science (AREA)
  • Organic Chemistry (AREA)
  • Combustion & Propulsion (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • General Chemical & Material Sciences (AREA)
  • Liquid Carbonaceous Fuels (AREA)

Description

燃 油 添 加 剂 技术领域
本发明涉及一种改善液体燃油燃烧性能的液体燃油添加剂, 尤其是一种添加在汽油、 柴 油等燃油中的燃油添加剂。
背景技术
汽油、柴油等机用液体燃料,在使用过程中往往由于燃烧不充分而产生大量的有害物质, 严重污染了生活环境, 对人们的身体健康造成了威胁, 同时由于汽油、 柴油这种燃料是不可 再生能源, 所以节约能源、 保护环境、 减少污染已被许多国家所重视, 为此, 其节约燃油资 源和解决尾气排放污染问题是人们探索的热点技术, 燃油添加剂正是在此基础上应运而生的 新型节油产品, 它能促使燃油充分燃烧, 提高其利用率, 减少尾气的排放, 减轻噪音的影响, 适应人们对现代燃油的要求; 现有通过在燃油里添加盐类物质作为催化剂激发燃油的活性成 份, 但盐类物质是离子型化合物, 在溶液中能分离出金属离子和酸根离子, 虽然离子之间的 静电吸引而产生的离子键相对牢固, 但在燃油燃烧时其产生的高温足以有打开键的能量, 使 其分离出金属离子和酸根离子, 而酸根离子会侵蚀金属部件, 且打开化学键的同时分子总是 要吸收能量, 所以, 使用盐类物质作为催化剂会有一定的能量损耗及缩短工作设备的使用寿 命; 也有通过添加纳米金属颗粒来激活燃油同时降低燃油挥发物中有毒的成分, 这些都只是 激活燃油的活性成分, 并没有解决燃油燃烧不充分而排放出大量的一氧化碳有毒气体, 通过 使燃油充分燃烧而提高其有效利用率的问题。
发明内容
本发明的目的在于提供一种能有效提高燃油燃烧率、 降低尾气污染气体的排放、 清除积 碳、 延长工作设备的使用寿命的燃油添加剂。
本发明的技术方案是这样的: 一种燃油添加剂, 是由下述重量百分比的组分组成: 一氧 化二氮广 76%, 过氧化氢 2(Γ83%, 乙烯; Γ66%, 丙酮广 64°/。, 二氯二氟甲垸广 60%, 苯广 60%, 四氯化碳广 60%, 石油醚广 60%, 丁酮广 60%, 乙醇广 60%, 甲醇广 60%, 乙醚广 60%, 硝基油 广 60%,异丙醇广 60%,二氯甲垸广 60%,甲苯广 60%,乙腈广 89%,正丁醇广 76°/。, 2-丁醇广 60%, 叔丁醇 f 89°/。, 环己烷 f 76°/。, 二乙醚 f 90%, 硝基甲垸 f 76%。
本发明的优选重量百分比组分为: 一氧化二氮 10%, 过氧化氢 50%, 乙烯 10%, 丙酮 2%, 二氯二氟甲垸 2%, 苯 , 四氯化碳 2%, 石油醚 , 丁酮 2%, 乙醇 2%, 甲醇 2°/。, 乙醚 2%, 硝基油 2%, 异丙醇 3%, 二氯甲垸 3%, 甲苯 4%, 乙腈 2%, 正丁醇 3%, 2-丁醇 3%, 叔丁醇 2%, 环己垸 5%, 二乙醚 3%, 硝基甲垸 2%。
本发明的燃油添加剂是以液体状态加入到燃油中混匀, 添加时, 燃油添加剂与燃油的体 积比为 1: 70CT1: 60000。
本发明的燃油添加剂采用较多的过氧化氢氧化剂, 使得燃油充分氧化燃烧, 减少一氧化 碳气体产物, 有效地提高燃油燃烧率, 降低一氧化碳有毒气体的排放, 避免了有金属离子对 设备的侵蚀, 延长了工作设备的使用寿命, 从而达到节约能源、 减少污染, 同时还可以清理 发动机、 引擎的阀门、 火花塞、 汽缸等的积碳;
提升辛垸值, 使燃油能燃烧更多的氢; 去除发动机引擎的水和水汽; 消除发动机引擎的 震爆能使少量的水充分燃烧; 彻底燃烧氧化氮, 减少污染; 在冬天能加快发动, 阻止燃油输 送管路得气阻气封, 实验统计将该添加剂添加到汽油中可提升里数达 8 21%。
本发明相对于现有技术的有益效果是:
1.清理阀门、 火花塞、 汽缸、 飞轮齿圈各种发动机的积碳。
2.使得汽油或柴油能够充分燃烧。
3.提高辛垸值。
4.去除发动机里的水和水蒸气。
5.消除发动机里的震爆现象。
6.去除缸内所有水分。
7.减少二氧化氮在空气中的排放量。
8.减少汽车氮氧化合物的排放, 大大地减少汽车尾气对空气的污染。
9.无论是使用汽油或者柴油的发动机都能行驶得更加顺畅。
10.无论使用汽油或柴油发动机, 每缸功率都可提高 f 90%的里数。
11.在冬天能加速发动。
12.阻止燃油管气封。
13.本发明所列的每项化学成分既可独立使用也可混合其中的一项以上使用。
14.对发动机的任何金属组件无任何损坏或副作用。
15.此燃油添加剂的使用范围针对各种各样使用柴油或汽油等燃油的发动机,并且无任何 损害和副作用, 如: 所有的车辆, 所有的小型, 大型船舰, 所有型号的飞机, 各种类型的军 事机械装备 (如: 坦克, 人员装甲运输车, 航空母舰, 军事吉普)。
具体实施方式
下面通过实施例对本发明做进一步详细说明, 这些实施例仅用来说明本发明, 并不限制 本发明的范围。 Experimentation data:
mpg=miles per gal lon (3. 785L)
汽车型号: 1991Toyota Pickup 4 X 4 V6 3. 0 (highly customized) Truck。
使用前后对比: Before: l lmpg After: with new Snake Oi l 15mpg o
汽车型号: 2008Acura 3. 2TL.
使用前后对比: Before: 27mpg After: with new Snake Oi l 31mpg o
汽车型号: 1999Volvo 570 Normal ly aspirated.
使用前后对比: Before: 17mpg After: with new Snake Oi l 33mpg o
汽车型号: 1990Toyota Camry 4 cylinder.
使用前后对比: Before: 26mpg After: with new Snake Oi l 43mpg0
汽车型号: 1997Toyota T100 V6.
使用前后对比: Before: 21. 6mpg After: with new Snake Oil 28. 8mpg o
实施例 1
按下述重量百分比配比组分:
一氧化二氮 10%, 过氧化氢 50%, 乙烯 10%, 丙酮 2%, 二氯二氟甲垸 2°/。, 苯 2°/。, 四氯化 碳 2%, 石油醚 2%, 丁酮 2%, 乙醇 2%, 甲醇 2%, 乙醚 2%, 硝基油 2%, 异丙醇 3%, 二氯甲垸 3%, 甲苯 4。/。。 乙腈 2%, 正丁醇 3。/。, 2-丁醇 3%, 叔丁醇 2%, 环己垸 5%, 二乙醚 3%, 硝基甲 烷 2%。
将上述物质按配方混匀溶解后按 1: 700的比例添加到汽油、柴油等燃油中, 并将添加剂 与燃油混匀。 允许加有上述配方添加剂燃油水分占 4%〜11%, 其可使汽车行驶里数提升达 8°/Γ21%, 氧化氮排放量减少达 3°Γ30%, 清除积碳达 80°/Γ99%, 提高辛垸值, 这些混合物按照 比例混合或单独使用都可达到一定效果。 将添加了上述配方添加剂的混合汽油加到小汽车使 用, 每使用 50L测得的数据如下:
汽车使用 50L上述配方汽油的效果提升值 (%)
Figure imgf000004_0001
6 28 97
7 27 88
8 15 85
实施例 2
按下述重量百分比配比组分:
一氧化二氮 5%, 过氧化氢 60%, 乙烯 8%, 丙酮 2%, 二氯二氟甲烷 2%, 苯 2%, 四氯化碳 2%, 石油醚 2%, 丁酮 2%, 乙醇 4%, 甲醇 2%, 乙醚 2%, 硝基油 2%, 异丙醇 2%, 二氯甲垸 2°/0, 甲苯 1%。 乙腈 3%, 正丁醇 2%, 2-丁醇 3%, 叔丁醇 2%, 环己垸 4%, 二乙醚 2%, 硝基甲烷 3%。
将上述物质按配方混匀溶解后按 1: 60000的比例添加到汽油、柴油等燃油中, 并将添加 剂与燃油混匀。 允许加有上述配方添加剂的燃油水分占 4%~11%, 其可使汽车行驶里数提升达 8° 21%, 氧化氮排放量减少达 3°Γ30%, 清除积碳达 80°/Γ99%, 提高辛烷值, 这些混合物按照 比例混合或单独使用都可达到一定效果。 将添加了上述配方添加剂的混合汽油加到小汽车使 用, 每使用 50L测得的数据如下:
表 2汽车使用 50L上述配方汽油的效果提升值 (%)
Figure imgf000005_0001

Claims

权利要求
1.一种燃油添加剂, 其特征在于: 由下述重量百分比的组分组成:
一氧化二氮广 76%, 过氧化氢 2(Γ83%, 乙烯; Γ66%, 丙酮广 64%, 二氯二氟甲垸广 60%, 苯广 60%,四氯化碳广 60%,石油醚广 60%,丁酮广 60%,乙醇广 60%, 甲醇广 60%,乙醚广 60%, 硝基油 f 60%, 异丙醇广 60%, 二氯甲垸 f 60%, 甲苯 f60%, 乙腈 f89%, 正丁醇 f 76%, 2- 丁醇广 60%, 叔丁醇广 89%, 环己烷 f 76%, 二乙醚 f 90%, 硝基甲垸广 76%。
2.根据权利要求 1所述的燃油添加剂, 其特征在于: 由下述重量百分比的组分组成: 一氧化二氮 10%, 过氧化氢 30%, 乙烯 10%, 丙酮 2%, 二氯二氟甲垸 2°/。, 苯 , 四氯化 碳 2%, 石油醚 2%, 丁酮 2%, 乙醇 2%, 甲醇 2%, 乙醚 2%, 硝基油 2%, 异丙醇 3%, 二氯甲垸 3%, 甲苯 4。/。, 乙腈 2%, 正丁醇 3。/。, 2-丁醇 3%, 叔丁醇 2%, 环己垸 5%, 二乙醚 3%, 硝基甲 垸 2%。
3.根据权利要求 1所述的燃油添加剂, 其特征在于: 燃油添加剂是以液体状态加入到燃 油中混匀, 添加时, 燃油添加剂与燃油的体积比为 1: 70(Tl: 60000。
PCT/CN2010/075650 2009-11-10 2010-08-03 燃油添加剂 WO2011057510A1 (zh)

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