CN109517635A - A kind of gasoline vehicle tail gas cleaning additive and tail gas detergent - Google Patents

Abstract

The invention mainly relates to a kind of gasoline vehicle tail gas cleaning additives comprising basic auxiliary agent；The basis auxiliary agent, by weight percentage, including anti-aging agent 8~12%, dispersing agent 8~12%, modified machine oil 48~52% polymerize alcohol ether 18~22%, high-carbon fatty alcohol 8~12%.It further, further include the polyalcohol as additive and the C as replenishers₅~₁₀Compound.Above-mentioned tail gas cleaning additive uniformly mixes made tail gas detergent with methanol, can improve existing methanol class tail gas detergent and cause engine power decaying serious in use and to corroding more serious problem between engine interior rubber parts and metal；Vehicle exhaust discharge quantity is greatly reduced simultaneously, so that motor vehicle emission, especially old automobile meets state VI and Europe VI standard, to realize energy-saving and emission-reduction from fuel source；Also have the characteristics that it is at low cost, with gasoline intersolubility is good and decarbonizing and the function of improving engine cold-start fluency.

Description

A kind of gasoline vehicle tail gas cleaning additive and tail gas detergent

Technical field

The present invention relates to vehicle maintenance service technical fields, and in particular to a kind of gasoline vehicle tail gas cleaning additive and tail gas Detergent.

Background technique

With the development of economy, automobile has been increasingly becoming the necessary walking-replacing tool of each family.Automobile facilitates people's The vehicle exhaust also resulted in becomes an important environmental problem to the pollution of atmosphere gradually.The tail gas of current majority automobiles is all It is not to be directly discharged in air by any processing, due to containing a large amount of harmful substance, vehicle exhaust in vehicle exhaust Ingredient contain CO2, CO, NOx, oil gas, the substances such as ashes, these substances can bring seriously to the direct emission of environment to environment Pollution, and this is also to cause the major reason that present haze weather is serious, haze number of days whole year accounting constantly increases.

Based on this, many countries have all formulated increasingly strict motor vehicle exhaust emission regulation in the world, and require in automobile Triple effect clarifier and EFI closed loop controller are installed, to cope with automobile exhaust pollution problem in the exhaust system of tail gas.But this Class equipment can only purify graininess medium mostly, then smaller to the catharsis of carbon monoxide, hydrocarbon class gas, cannot reach good The effect purified well；Meanwhile there is no from fuel, this basic source gets on to solve the problems, such as, treated tail gas either carbon Discharge amount, nitrogen discharged amount, do not significantly reduce still；In addition, there is also failure and problem of aging for such equipment, once occur Failure starts aging, and catharsis, which will weaken, even to fail, and the degree of reliability is not high.More seriously, by In not being to carry out tail gas emission from source, vehicle enterprise in part is evaded by technological means, is manufactured a large amount of false emissions datas and was deceived people It closes, great adverse effect more is caused to the implementation of car emission reduction.It would therefore be highly desirable to which vapour is thought deeply and researched and developed from source Vehicle emission-reduction technology.

In view of the above-mentioned problems, occurring the tail gas cleaning for being directly appended to be used in mixed way in gasoline on sale on the market at present Agent is a kind of technical solution for going out big solution motor vehicle emission excessive problem from source.But since its main component is first Alcohol, after being mixed into fuel oil, methanol has great corrosiveness during burning, to engine and seal rubber；Meanwhile first The combustion heat value of alcohol is lower, therefore such tail gas detergent is used to be short of power as the engine of gasoline additive is generally existing Problem.

Summary of the invention

The present invention provides a kind of gasoline vehicle tail gas cleaning additive and tail gas detergents, to solve the automobile-used tail of existing gasoline Weaker and more obvious to the engine corrosion phenomenon problem of power present in gas detergent.

The technical solution adopted by the invention is as follows:

A kind of gasoline vehicle tail gas cleaning additive, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, packet Including anti-aging agent 8~12%, dispersing agent 8~12%, modified machine oil 48~52% polymerize alcohol ether 18~22%, high-carbon fatty alcohol 8~ 12%.

Further, the basic auxiliary agent, by weight percentage, including following components: anti-aging agent 9~11%, dispersion Agent 9~11%, modified machine oil 49~51%, polymerize alcohol ether 19~21%, high-carbon fatty alcohol 9~11%.

Further, the basic auxiliary agent, by weight percentage, including following components: anti-aging agent 10%, dispersing agent 10%, modified machine oil 50% polymerize alcohol ether 20%, high-carbon fatty alcohol 10%.

It further, further include additive；The additive is polyalcohol；The weight of the basis auxiliary agent and additive is mixed Composition and division in a proportion is 4: 1；The polyalcohol is by one of propylene glycol, glycerine, ethylene glycol, erythrol, pentitol or a variety of forms.Its Main function is improves the reflected apparent fuel value of tail gas cleaning additive.

It further, further include replenishers；The replenishers are C_5~10Compound；The basis auxiliary agent, the addition Mixing ratio by weight between agent and the replenishers is 40: 7: (1~3).

Wherein, the C_5~10Compound mainly contains naphtha and its derivative, and the latter can be for by crude distillation or stone Oily secondary operation cuts raw gasoline obtained by corresponding fraction, or the middle scheelite that can only blame from coal chemical industry institute producing coal tar Cerebrol.It, cannot be directly and a large amount of although its main component price of cutting close with gasoline containing carbon number is low compared to gasoline product Substitute of the ground as gasoline.And in this tail gas cleaning additive, by the allotment of each component, so that this kind of C_5~10Compound energy It accesses and makes full use of, while further decreasing with oily cost, additionally it is possible to enable using this cleaning additive using upper Compound is stated to enhance the apparent fuel value of the tail gas detergent after addition auxiliary agent, stronger move so that engine is seted out out Power.

Further, the anti-aging agent is made of one of antioxidant A W, anti-aging agent ODA, antioxidant 2246 or a variety of, Its main function is the swelling, corrosion and aging for preventing engine rubber components；Meanwhile anti-aging agent played it is anti-oxidant etc. Effect also plays good anti-corrosion protection to engine interior part.

Further, the dispersing agent is replaced by polyalkenyl monocarboxylic acid, polyetheramine, benzoyl polyisobutene diformazan ammonia One of yl pyridines or a variety of compositions.Wherein, when the dispersing agent is the monocarboxylic acid or dicarboxylic acids, acid anhydrides that polyalkenyl replaces Or when ester, preferred molecular weight is 1600 or so；When the dispersing agent is polyetheramine, preferred molecular weight is 2200 left It is right；When the dispersing agent is benzoyl polyisobutene dimethylamino naphthyridine, preferred molecular weight is 860~950.Dispersing agent master It acts on and is, make uniformly to mix between auxiliary agent each component, and methanol is added to as additive to auxiliary agent and then is added to gasoline In be used in compounding play it is good altogether molten facilitation, while by its molecule bipolarity absorption dissolution effect to hair Dynamic agent carbon distribution and deposition also have the function of having certain rush to be detached from and clean.

Further, the modified machine oil is two class hydrogenated base oil 500SN, three classes hydrogenated base oil 500SN, low viscosity One of polyalphaolefin or a variety of compositions.Its main function is to improve engine using single addition methanol and on the market often Difficult problem is cold-started after gasoline after seeing tail gas detergent under low-temperature condition, while also having certain work for promoting fuel efficiency With.

Further, the polymerization alcohol ether is by laureth -9, polyethylene glycol to isooctyl phenyl ether, polyglycol ether One of or a variety of compositions.Its main function is that can stablize tail gas cleaning additive, addition by polymeric flexible backbone The viscosity of tail gas detergent after cleaning additive and the gasoline using tail gas detergent, then sweeps along work by its strand With in conjunction with the effect of dispersing agent, can be realized the cleaning of carbon distribution and deposition in engine, so that it is existing to reduce engine interior carbon distribution As.

Above-mentioned polyalcohol, anti-aging agent, dispersing agent, modified machine oil, polymerization alcohol ether, in it is cited it is each in specific preferred object Matter, and high carbon number fatty alcohol are to disclose compound, and are commercial compound, therefore at this to the property of above-mentioned substance It is not repeated them here with source.

Based on above-mentioned tail gas cleaning additive, the present invention also provides a kind of tail gas detergent added with the auxiliary agent, specifically such as Under:

The tail gas detergent includes the tail gas cleaning additive and methanol；The quality of the tail gas cleaning additive and methanol Than being 1: 500.

It should be added that in said components, such as the component for mixture, in each substance can be by any Ratio, which is taken, is mixed to get respective components.

In addition, above-mentioned tail gas cleaning additive and tail gas detergent the preparation method is as follows:

For being free of the tail gas cleaning additive of additive, each component is uniformly mixed by tail gas cleaning additive formula rate To obtain the final product.The power that such cleaning additive can play enhancing methanol class tail gas plot agent shows, raising addition methanol class tail gas is clear The cold start-up fluency of gasoline after clean dose, cleaning engine interior carbon distribution, the effect for reducing engine interior corrosion.

For the tail gas cleaning additive containing additive, first pressing tail gas cleaning additive formula rate will be in addition to replenishers Each component after mixing, then by polyalcohol be added be uniformly mixed to obtain the final product.A kind of relatively upper tail gas cleaning additive, it is apparent to burn Calorific value is higher, can further enhance the power performance when gasoline combustion after adding methanol class tail gas detergent.

For the tail gas cleaning additive simultaneously containing additive and replenishers, first pressing tail gas cleaning additive formula rate will Each component in addition to replenishers and additive after mixing, adds polyalcohol and is uniformly mixed, finally add C_5~10Change Object is closed to be uniformly mixed to obtain the final product.Compared with first two tail gas cleaning additive, due to C_5~10Compound is mixed into, so that addition methanol class tail gas The power performance of gasoline after detergent significantly increases, while can also further decrease fuel cost.

For tail gas detergent, as needed, by tail gas detergent formula rate, by above-mentioned three kinds of tail gas cleaning additives One of be uniformly mixed with methanol to obtain the final product.Due to the effect of tail gas cleaning additive, so that adding the vapour of such tail gas detergent The power and regular gasoline of oil are almost the same, and power relaxation phenomenon is unobvious；Meanwhile also making the tail gas row of the gasoline after addition It is high-volume further reduced, has haved the function that the energy-saving and emission-reduction from source；Furthermore the advantages of being also equipped with cold start-up fluency, with And reduce engine interior carbon distribution, reduce engine interior corrosion, oil consumption is reduced, the function that fuel oil use cost reduces is reduced.

It should be added that for each formula kind of each component, such as the component for mixture, in each object Matter should first give after mixing, then carry out the mixing of each group bulk-breaking.

In conclusion compared with the prior art, the invention has the advantages that:

(1) the vehicle exhaust cleaning additive provided in the present invention, can be obviously improved existing methanol class tail gas detergent Cause engine power decaying serious in use and more tight to corroding between engine interior rubber parts and metal The problem of weight；

(2) vehicle exhaust can be greatly reduced in the vehicle exhaust cleaning additive provided in the present invention and its tail gas detergent Discharge amount, so that motor vehicle emission, especially old automobile meets state VI and Europe VI standard, to realize section from fuel source It can emission reduction；

(3) the vehicle exhaust cleaning additive provided in the present invention and its tail gas detergent being capable of miscible different labels vapour Oil, and it is minimum on the influence of the power output of gasoline, it can be widely used in the improved application of all kinds of gasoline；

(4) the vehicle exhaust cleaning additive provided in the present invention and its tail gas detergent, which additionally aid, removes in engine Portion's carbon distribution improves power output situation of the engine under long-time service, while passing through modifying machine to extend engine life Oil component, additionally it is possible to further promote the cold start-up fluency of engine；

(5) automobile exhaust detergent provided in the present invention can be as the part substitute of gasoline, to reduce vapour Vehicle practical oil consumption, meanwhile, the cost of the tail gas detergent it is minimum can to 2.6 yuan/liter, therefore can also substantially Energy Saving at This；

(6) the vehicle exhaust cleaning additive and its tail gas detergent provided in the present invention is not necessarily to special processing process, stirs Mixing to be uniformly mixed can be used, and it is convenient to prepare, and saves the time, saves equipment, be not only suitable for finished product sale, and facilitate extemporaneous preparation It uses, there is splendid practical performance.

Specific embodiment

All features disclosed in this specification can be with any other than mutually exclusive feature and/or step Mode combines.

In order to make those skilled in the art more fully understand technical solution of the present invention, below with reference to specific embodiment The present invention is described in further detail.

Embodiment 1

The present embodiment provides a kind of gasoline vehicle tail gas cleaning additives, can be used as gasoline after mixing in proportion with methanol and add Add agent, to realize energy-saving and emission-reduction, promote power performance, protection engine interior part, the function for assisting carbon distribution in cleaning engine Energy.

Specifically, the cleaning additive of gasoline vehicle tail gas described in the present embodiment, including basic auxiliary agent；The basis auxiliary agent, By weight percentage, including following components: anti-aging agent 10%, dispersing agent 8%, modified machine oil 48% polymerize alcohol ether 22%, high Carbon fatty alcohol 12%.Each component is stirred at room temperature by above-mentioned formula rate and is uniformly mixed up to tail gas cleaning additive.

Wherein, the anti-aging agent is made of one of antioxidant A W, anti-aging agent ODA, antioxidant 2246 or a variety of；

Monocarboxylic acid that the dispersing agent is replaced by polyalkenyl, polyetheramine, in benzoyl polyisobutene dimethylamino naphthyridine One or more compositions；

The modified machine oil is two class hydrogenated base oil 500SN, in three classes hydrogenated base oil 500SN, low viscosity polyalphaolefin One or more compositions；

The polymerization alcohol ether is by laureth -9, polyethylene glycol to one of isooctyl phenyl ether, polyglycol ether Or a variety of compositions；

It is emphasized that anti-aging agent, dispersing agent, modified machine oil, polymerization alcohol ether, respective component can in said components With the realization freely selected and any proportion is mixed without influencing tail gas cleaning additive function.

Embodiment 2

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 8%, modified machine oil 52% polymerize alcohol ether 22%, high-carbon fatty alcohol 8%.

Embodiment 3

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 12%, modified machine oil 52% polymerize alcohol ether 18%, high-carbon fatty alcohol 8%.

Embodiment 4

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 12%, modified machine oil 48% polymerize alcohol ether 18%, high-carbon fatty alcohol 12%.

Embodiment 5

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 12%, modified machine oil 48% polymerize alcohol ether 22%, high-carbon fatty alcohol 8%.

Embodiment 6

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 8%, modified machine oil 52% polymerize alcohol ether 18%, high-carbon fatty alcohol 12%.

Embodiment 7

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: dispersing agent 10%, anti-aging agent 8%, modified machine oil 48% polymerize alcohol ether 22%, high-carbon fatty alcohol 12%.

Embodiment 8

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 8%, modified machine oil 52% polymerize alcohol ether 22%, high-carbon fatty alcohol 8%.

Embodiment 9

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 12%, modified machine oil 52% polymerize alcohol ether 18%, high-carbon fatty alcohol 8%.

Embodiment 10

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 12%, modified machine oil 48% polymerize alcohol ether 18%, high-carbon fatty alcohol 12%.

Embodiment 11

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 12%, modified machine oil 48% polymerize alcohol ether 22%, high-carbon fatty alcohol 8%.

Embodiment 12

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 8%, modified machine oil 52% polymerize alcohol ether 18%, high-carbon fatty alcohol 12%.

Embodiment 13

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: modified machine oil 10%, dispersing agent 8%, anti-aging agent 48% polymerize alcohol ether 22%, high-carbon fatty alcohol 12%.

Embodiment 14

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 8%, anti-aging agent 52% polymerize alcohol ether 22%, high-carbon fatty alcohol 8%.

Embodiment 15

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 12%, anti-aging agent 52% polymerize alcohol ether 18%, high-carbon fatty alcohol 8%.

Embodiment 16

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 12%, anti-aging agent 48% polymerize alcohol ether 18%, high-carbon fatty alcohol 12%.

Embodiment 17

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 12%, anti-aging agent 48% polymerize alcohol ether 22%, high-carbon fatty alcohol 8%.

Embodiment 18

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 8%, anti-aging agent 52% polymerize alcohol ether 18%, high-carbon fatty alcohol 12%.

Embodiment 19

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: polymerization alcohol ether 10%, dispersing agent 8%, modified machine oil 48%, anti-aging agent 22%, high-carbon fatty alcohol 12%.

Embodiment 20

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 8%, modified machine oil 52%, anti-aging agent 22%, high-carbon fatty alcohol 8%.

Embodiment 21

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 12%, modified machine oil 52%, anti-aging agent 18%, high-carbon fatty alcohol 8%.

Embodiment 22

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 12%, modified machine oil 48%, anti-aging agent 18%, high-carbon fatty alcohol 12%.

Embodiment 23

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 12%, modified machine oil 48%, anti-aging agent 22%, high-carbon fatty alcohol 8%.

Embodiment 24

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 8%, modified machine oil 52%, anti-aging agent 18%, high-carbon fatty alcohol 12%.

Embodiment 25

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: high-carbon fatty alcohol 10%, dispersing agent 8%, modified machine oil 48% polymerize alcohol ether 22%, anti-aging agent 12%.

Embodiment 26

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 8%, modified machine oil 52% polymerize alcohol ether 22%, anti-aging agent 8%.

Embodiment 27

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 12%, modified machine oil 52% polymerize alcohol ether 18%, anti-aging agent 8%.

Embodiment 28

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 12%, modified machine oil 48% polymerize alcohol ether 18%, anti-aging agent 12%.

Embodiment 29

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 12%, modified machine oil 48% polymerize alcohol ether 22%, anti-aging agent 8%.

Embodiment 20

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 8%, modified machine oil 52% polymerize alcohol ether 18%, anti-aging agent 12%.

Embodiment 31

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 9%, modified machine oil 49% polymerize alcohol ether 21%, high-carbon fatty alcohol 11%.

Embodiment 32

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 9%, modified machine oil 51% polymerize alcohol ether 21%, high-carbon fatty alcohol 9%.

Embodiment 33

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 11%, modified machine oil 51% polymerize alcohol ether 19%, high-carbon fatty alcohol 9%.

Embodiment 34

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 11%, modified machine oil 49% polymerize alcohol ether 19%, high-carbon fatty alcohol 11%.

Embodiment 35

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 11%, modified machine oil 49% polymerize alcohol ether 21%, high-carbon fatty alcohol 9%.

Embodiment 36

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 9%, modified machine oil 51% polymerize alcohol ether 19%, high-carbon fatty alcohol 11%.

Embodiment 37

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: dispersing agent 10%, anti-aging agent 9%, modified machine oil 49% polymerize alcohol ether 21%, high-carbon fatty alcohol 11%.

Embodiment 38

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 9%, modified machine oil 51% polymerize alcohol ether 21%, high-carbon fatty alcohol 9%.

Embodiment 39

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 11%, modified machine oil 51% polymerize alcohol ether 19%, high-carbon fatty alcohol 9%.

Embodiment 40

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 11%, modified machine oil 49% polymerize alcohol ether 19%, high-carbon fatty alcohol 11%.

Embodiment 41

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 11%, modified machine oil 49% polymerize alcohol ether 21%, high-carbon fatty alcohol 9%.

Embodiment 42

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Dispersing agent 10%, anti-aging agent 9%, modified machine oil 51% polymerize alcohol ether 19%, high-carbon fatty alcohol 11%.

Embodiment 43

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: modified machine oil 10%, dispersing agent 9%, anti-aging agent 49% polymerize alcohol ether 21%, high-carbon fatty alcohol 11%.

Embodiment 44

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 9%, anti-aging agent 51% polymerize alcohol ether 21%, high-carbon fatty alcohol 9%.

Embodiment 45

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 11%, anti-aging agent 51% polymerize alcohol ether 19%, high-carbon fatty alcohol 9%.

Embodiment 46

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 11%, anti-aging agent 49% polymerize alcohol ether 19%, high-carbon fatty alcohol 11%.

Embodiment 47

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 11%, anti-aging agent 49% polymerize alcohol ether 21%, high-carbon fatty alcohol 9%.

Embodiment 48

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Modified machine oil 10%, dispersing agent 9%, anti-aging agent 51% polymerize alcohol ether 19%, high-carbon fatty alcohol 11%.

Embodiment 49

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: polymerization alcohol ether 10%, dispersing agent 9%, modified machine oil 49%, anti-aging agent 21%, high-carbon fatty alcohol 11%.

Embodiment 50

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 9%, modified machine oil 51%, anti-aging agent 21%, high-carbon fatty alcohol 9%.

Embodiment 51

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 11%, modified machine oil 51%, anti-aging agent 19%, high-carbon fatty alcohol 9%.

Embodiment 52

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 11%, modified machine oil 49%, anti-aging agent 19%, high-carbon fatty alcohol 11%.

Embodiment 53

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 11%, modified machine oil 49%, anti-aging agent 21%, high-carbon fatty alcohol 9%.

Embodiment 54

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: It polymerize alcohol ether 10%, dispersing agent 9%, modified machine oil 51%, anti-aging agent 19%, high-carbon fatty alcohol 11%.

Embodiment 55

The present embodiment the difference from embodiment 1 is that, including basic auxiliary agent；The basis auxiliary agent, by weight percentage, Including following components: high-carbon fatty alcohol 10%, dispersing agent 9%, modified machine oil 49% polymerize alcohol ether 21%, anti-aging agent 11%.

Embodiment 56

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 9%, modified machine oil 51% polymerize alcohol ether 21%, anti-aging agent 9%.

Embodiment 57

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 11%, modified machine oil 51% polymerize alcohol ether 19%, anti-aging agent 9%.

Embodiment 58

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 11%, modified machine oil 49% polymerize alcohol ether 19%, anti-aging agent 11%.

Embodiment 59

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 11%, modified machine oil 49% polymerize alcohol ether 21%, anti-aging agent 9%.

Embodiment 60

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: High-carbon fatty alcohol 10%, dispersing agent 9%, modified machine oil 51% polymerize alcohol ether 19%, anti-aging agent 11%.

Embodiment 61

The present embodiment the difference from embodiment 1 is that, the basis auxiliary agent, by weight percentage, including following components: Anti-aging agent 10%, dispersing agent 10%, modified machine oil 50% polymerize alcohol ether 20%, high-carbon fatty alcohol 10%.

Embodiment 62

The present embodiment the difference from embodiment 1 is that, mixed again in the basic auxiliary agent being uniformly mixed in embodiment 1 Enter to stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive is 4 : 1, and the polyalcohol is made of propylene glycol, glycerine etc. than mixing.

Embodiment 63

The present embodiment and the difference of embodiment 8 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 Enter to stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive is 4 : 1, and the polyalcohol is made of propylene glycol, glycerine, ethylene glycol etc. than mixing.

Embodiment 64

The present embodiment and the difference of embodiment 15 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of erythrol.

Embodiment 65

The present embodiment and the difference of embodiment 20 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of pentitol.

Embodiment 66

The present embodiment and the difference of embodiment 27 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of propylene glycol, erythrol, pentitol etc. than mixing.

Embodiment 67

The present embodiment and the difference of embodiment 31 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of propylene glycol, ethylene glycol etc. than mixing.

Embodiment 68

The present embodiment and the difference of embodiment 37 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of glycerine, erythrol, pentitol etc. than mixing.

Embodiment 69

The present embodiment and the difference of embodiment 44 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of propylene glycol, glycerine, ethylene glycol, erythrol, pentitol etc. than mixing

Embodiment 70

The present embodiment and the difference of embodiment 51 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of propylene glycol, pentitol etc. than mixing.

Embodiment 71

The present embodiment and the difference of embodiment 56 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of ethylene glycol.

Embodiment 72

The present embodiment and the difference of embodiment 61 are, mix again in the basic auxiliary agent being uniformly mixed in embodiment 1 It is incorporated into stir evenly as the polyalcohol of additive and remembers tail gas cleaning additive.Wherein, the mass ratio of basic auxiliary agent and additive It is 4: 1, and the polyalcohol is made of erythrol, pentitol etc. than mixing.

Embodiment 73

The present embodiment and the difference of embodiment 62 be, the mixing being made of in embodiment 1 basic auxiliary agent and additive On the basis of solution, it is mixed into the C as replenishers again_5~10Compound, which stirs evenly, remembers tail gas cleaning additive.Wherein, base Plinth auxiliary agent, additive, the mixing mass ratio between replenishers are 40: 7: 1.

Embodiment 74

The present embodiment and the difference of embodiment 66 be, the mixing being made of in embodiment 1 basic auxiliary agent and additive On the basis of solution, it is mixed into the C as replenishers again_5~10Compound, which stirs evenly, remembers tail gas cleaning additive.Wherein, base Plinth auxiliary agent, additive, the mixing mass ratio between replenishers are 40: 7: 2.

Embodiment 75

The present embodiment and the difference of embodiment 68 be, the mixing being made of in embodiment 1 basic auxiliary agent and additive On the basis of solution, it is mixed into the C as replenishers again_5~10Compound, which stirs evenly, remembers tail gas cleaning additive.Wherein, base Plinth auxiliary agent, additive, the mixing mass ratio between replenishers are 40: 7: 3.

Embodiment 76

The present embodiment and the difference of embodiment 72 be, the mixing being made of in embodiment 1 basic auxiliary agent and additive On the basis of solution, it is mixed into the C as replenishers again_5~10Compound, which stirs evenly, remembers tail gas cleaning additive.Wherein, base Plinth auxiliary agent, additive, the mixing mass ratio between replenishers are 40: 7: 3.

Embodiment 77

It is 1: 500 after mixing to get the present embodiment that 1 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, In tail gas detergent.

Embodiment 78

It is 1: 500 after mixing to get this implementation that 30 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Embodiment 79

It is 1: 500 after mixing to get this implementation that 61 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Embodiment 80

It is 1: 500 after mixing to get this implementation that 62 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Embodiment 81

It is 1: 500 after mixing to get this implementation that 65 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Embodiment 82

It is 1: 500 after mixing to get this implementation that 72 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Embodiment 83

It is 1: 500 after mixing to get this implementation that 73 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Embodiment 84

It is 1: 500 after mixing to get this implementation that 76 gained tail gas detergent of embodiment, which is pressed with the mass ratio of methanol, Tail gas detergent in example.

Test example

Tail gas detergent obtained in embodiment 77~84 is mixed to form blend gasoline by different quality ratio and gasoline, so After be used for testing tail gas detergent for different money gasoline vehicles and the mixing situation and gasoline car pollutant of gasoline are arranged Put the case where meeting GB18285-2018.

Wherein, the public Santana of 2006 annual outputs is denoted as " vehicle A ", and 2010 annual output Volkswagon Jettas are denoted as " vehicle B ", and 2009 The general Chevrolet Lova of vapour is denoted as " vehicle C " in production；Tail gas detergent is uniformly mixed with gasoline is denoted as " uniformly mixed ", meets dirt Dye object discharge meets G818285-2018 and is denoted as " closing mark ".

Specific test is arranged and test result is as follows:

By above-mentioned test result it can be concluded that, it is provided by the invention for its detergent with gasoline is good dissolves each other, remove above-mentioned It has embodied outside the ratio of dissolving each other, has proved to realize that arbitrary proportion dissolves each other with gasoline through mixed performance test, therefore, the present invention mentions The automobile exhaust detergent of confession has excellent intersolubility in the oil.

Secondly, it can also be seen that the old money vehicle in or so 10 years targeted vehicle ages is tested, using provided by the present invention The gasoline added with tail gas detergent after, meet state's VI standard for exhaust emissions；In addition, repeat above-mentioned setting, also according to It is tested according to the detection method of Europe VI standard, test result display all meets Europe VI standard requirements.Therefore, the present invention mentions The tail gas detergent of confession can effectively realize the effect of automotive energy-saving emission-reducing.

Test example 2

By the tail gas detergent in mass ratio 20%, 40%, 60%, 80% and No. 92, No. 95,98 in embodiment 77~84 Number gasoline carries out bulk testing respectively, observes mixing uniformity, as the result is shown the tail gas detergent and each label in the present invention Gasoline can be realized uniformly mixing under different proportion and dissolve each other.

Test example 2

Project A

After mixing by the ratio of the tail gas detergent in mass ratio 7: 3 in embodiment 61,72,76, in for travelling Journey is the 2017 of the 8000KM burning driving for producing Jetta automobile per year, then invites 10 vehicles driven with money vehicle 6 months or more It is main to be driven, and all car owners is allowed to be scored according to the power output situation of automobile during driving, ten point system, wherein 1 point Indicate purer gasoline driven power deep fades, 5 points indicate that purer gasoline driven power is suitable, and 10 points indicate purer gasoline driven Power is remarkably reinforced.Grade average is taken, as a result as follows:

Group	Embodiment 61	Embodiment 72	Embodiment 76
				Power average	4.17	4.98	5.21

Project B

After mixing by the ratio of the tail gas detergent in mass ratio 7: 3 in embodiment 61,72,76 and No. 92 gasoline, It is approximately driven with the burning of money automobile for mileage travelled and Level Of Maintenance, while pure gasoline driven control group is set, continuously Using and observation engine interior carbon distribution situation after 10000 kilometers of traveling.Test result discovery, is cleaned using added with tail gas The each group automobile of agent, after 10000 kilometers of traveling, carbon distribution situation is significantly reduced compared with control group；At 30000 kilometers of traveling Afterwards, using each group automobile added with tail gas detergent compared with control group, the corrosion of rubber parts and casing wall is substantially reduced.

Project C

After mixing by the ratio of the tail gas detergent in mass ratio 7: 3 in embodiment 61,72,76 and No. 92 gasoline, It approximately drives, while being set using added with commercial methanol class tail with the burning of money automobile for mileage travelled and Level Of Maintenance The control group of the gasoline driven of gas detergent, and observation engine rubber member and the corrosion feelings of casing wall after 30000 kilometers of traveling Condition.After 30000 kilometers of traveling, using each group automobile added with tail gas detergent compared with control group, the corruption of rubber parts and casing wall Erosion is substantially reduced, and does not occur corrosion phenomenon substantially.

The specific embodiment of the application above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously The limitation to the application protection scope therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art For, under the premise of not departing from technical scheme design, various modifications and improvements can be made, these belong to this The protection scope of application.

Claims (10)

1. a kind of gasoline vehicle tail gas cleaning additive, which is characterized in that including basic auxiliary agent；The basis auxiliary agent, by weight hundred Divide than meter, including following components: anti-aging agent 8~12%, dispersing agent 8~12%, modified machine oil 48~52%, polymerization alcohol ether 18~ 22%, high-carbon fatty alcohol 8~12%.

2. a kind of gasoline vehicle tail gas cleaning additive according to claim 1, which is characterized in that the basis auxiliary agent is pressed Weight percent meter, including following components: anti-aging agent 9~11%, dispersing agent 9~11%, modified machine oil 49~51%, polymeric alcohol Ether 19~21%, high-carbon fatty alcohol 9~11%.

3. a kind of gasoline vehicle tail gas cleaning additive according to claim 2, which is characterized in that the basis auxiliary agent is pressed Weight percent meter, including following components: anti-aging agent 10%, dispersing agent 10%, modified machine oil 50% polymerize alcohol ether 20%, high Carbon fatty alcohol 10%.

4. a kind of gasoline vehicle tail gas detergent according to claim 1, it is characterised in that: further include additive；It is described Additive is polyalcohol；The Mixing ratio by weight of the basis auxiliary agent and additive is 4: 1.

5. a kind of gasoline vehicle tail gas cleaning additive according to claim 4, it is characterised in that: further include replenishers；Institute Stating replenishers is C₅~₁₀Compound；Mixing ratio by weight between the basis auxiliary agent, the additive and the replenishers is 40 : 7: (1~3).

6. described in any item a kind of gasoline vehicle tail gas cleaning additives according to claim 1~5, it is characterised in that: described anti- Old agent is made of one of antioxidant A W, anti-aging agent ODA, antioxidant 2246 or a variety of.

7. described in any item a kind of gasoline vehicle tail gas cleaning additives according to claim 1~5, it is characterised in that: described point One of monocarboxylic acid that powder is replaced by polyalkenyl, polyetheramine, benzoyl polyisobutene dimethylamino naphthyridine or a variety of groups At.

8. described in any item a kind of gasoline vehicle tail gas cleaning additives according to claim 1~5, it is characterised in that: described to change Property machine oil be one of two class hydrogenated base oil 500SN, three classes hydrogenated base oil 500SN, low viscosity polyalphaolefin or a variety of groups At.

9. described in any item a kind of gasoline vehicle tail gas cleaning additives according to claim 1~5, it is characterised in that: described poly- It closes alcohol ether and to one of isooctyl phenyl ether, polyglycol ether or a variety of is made of laureth -9, polyethylene glycol.

10. a kind of tail gas detergent containing any one of the claim 1~9 tail gas cleaning additive, it is characterised in that: described Tail gas detergent includes the tail gas cleaning additive and methanol；The mass ratio of the tail gas cleaning additive and methanol is 1: 500.