RU2671639C1 - Alternative motor fuel - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention describes an alternative motor fuel with an octane number based on the research method of at least 90.0 units, saturated vapor pressure of at least 35.0 kPa and not more than 100.0 kPa, including a hydrocarbon fraction and aliphatic alcohols, while the hydrocarbon fraction boils up to 225 °C and has a saturated vapor pressure of 30.0 to 105.0 kPa, and the aliphatic alcohols are alcohols C₃ – n-propyl and/or isopropyl, with the following component ratio, % by weight: aliphatic alcohols C3 20–50; hydrocarbon fraction up to 100.

EFFECT: technical result consists in obtaining an alternative motor fuel that meets the basic requirements for the characteristics of automobile gasoline in accordance with GOST 32513 and TP TC 013/2011, and also has high chemical and phase stability.

3 cl, 2 tbl

Description

The invention relates to an alternative automotive fuel intended for use in vehicles equipped with internal combustion engines with spark ignition (gasoline).

Oxygenates have been used around the world for a long time as high-octane fuel additives, and recently, alcohols have become the most widespread. In general, alcohol fuels by alcohol concentration can be divided into three groups: standard gasoline, where the permissible concentration of ethanol in various countries is limited from 3 to 15% alcohol (M3, M5, E5-E15), medium alcohol fuels - from 15 to 40% (M15 , M30, E20, E30, E40), as well as fuels for special gasoline and diesel cars - from 50 to 95% alcohol (M85, E85, E100, ED95).

Medium alcohol fuels are mainly used in special vehicles with universal fuel consumption (flexible-fuel vehicle (FFV) - cars that run on both standard gasoline and any type of alcohol-containing fuel), but in some countries they are used in standard cars with gasoline engines.

Ethyl alcohol has long been used as a component of various types of motor fuels. Its use helps to reduce dependence on fossil hydrocarbons and the development of agriculture or petrochemicals, and to reduce greenhouse gas emissions in the fuel life cycle.

The most widely used medium-ethanol fuel is used in Brazil, where since 2015 the minimum content of absolute alcohol in standard gasoline should be 25-27% vol. Since 2015, in the United States in standard gasoline, the maximum allowable share of ethanol has been increased to 15% vol. In addition, there is a practice of using medium ethanol fuels (E20, E30, E40) recommended for use in FFV cars. There is a special standard ASTM D7794, which describes the method for producing medium ethanol fuels (E20, E30, E40). According to this standard, their production is carried out by mixing commercial gasoline according to ASTM D4814 with ethanol according to ASTM D4806 or fuel E85 according to ASTM D5798.

In the EU countries, as well as in India, the possibility of involving ethanol in gasoline up to 20-25% is being considered. In Thailand, E20 fuel consumption is increasing rapidly.

Methyl alcohol is also well known as a component of motor fuels. China has the richest experience in using methanol for the production of medium alcohol fuels. The high availability of coal and the relative shortage of domestic oil prompted China to develop alternative fuels for internal combustion engines. Methanol obtained from coal is sent for mixing with gasoline in order to obtain finished fuels. For the development of this direction, the entire infrastructure has been created, from cars capable of consuming high methanol fuels to the regulatory framework governing the production and turnover of alcohol fuels in the country. Currently, the nationwide standard for M85 fuel is GB / T 23799. There are also regional standards for other fuels, for example, DB 14 / T92 standards for M15 fuel and DB 14 / T 614 for M30 fuel in Shanxi Province.

The main advantages of using alcohols in the composition of fuels for engines with forced ignition of the air-fuel mixture are: high octane mixing ratios of alcohols, which reduce the requirements for the detonation resistance of the base fuel, increase the oxygen fraction in gasoline, which leads to more complete combustion of the fuel - thereby reducing the concentration unburned hydrocarbons and carbon monoxide in the exhaust gas. In addition, alcohols are cheap relative to a number of other oxygenates.

From the above review it can be seen that in different countries of the world work is underway to introduce alcohol alternative fuels and gradually increase their share in the total gas pool, which confirms the relevance of this area and the practical applicability of the invention.

Of great interest are alternative automobile fuels containing C ₃ aliphatic alcohols as the main alcohol component: n-propyl, isopropyl alcohols or a mixture thereof.

Known fuel composition for internal combustion engines based on gasoline containing antiknock component in an amount of 2.0-15.5% wt. The composition of the antiknock component includes,% wt .: isopropyl alcohol 59.5-89.5; diisopropyl ether up to 10.0; aromatic amine antiknock additive, including N-methylaniline 10.0-30.0 as a main component; color stabilizer 0.01-0.3; multifunctional additive with detergent and anticorrosion properties up to 3.0.

(RF patent No. 2564444, 2015).

Also known is a fuel composition for internal combustion engines based on gasoline containing a high-octane component in an amount of 7.5-14.5% by weight. The high-octane component contains,% wt .: dimethyl carbonate (DMC) 10.3-33.3; isopropyl alcohol (IPA) and / or diisopropyl ether (DIPE) 58.8-82.8; aromatic amine-based antiknock additive, including N-methylaniline (N-MA) as the main component, up to 11.8.

(RF patent No. 2574407, 2016).

A disadvantage of the known fuel compositions is the complexity of their composition due to the use of a large number of components. It should also be noted that isopropyl alcohol in the known fuel compositions is not the main component of alternative fuel, but is a part of high-octane fuel components, due to which its concentration in terms of fuel is significantly reduced.

The closest in composition to the claimed is the alternative fuel composition, consisting of ethanol in a concentration of 20-40% wt., Which is mixed with the base hydrocarbon component, which is a gasoline fraction of the hydrocracking process, boiling in the temperature range 28-225 ° C as a separate , and in a mixture with one or more fractions selected from the group: gasoline fraction of the catalytic reforming process, toluene, straight-run gasoline.

(RF patent 2605952, 2017)

The disadvantages of this invention is the low heat of combustion of alternative fuel relative to gasoline, which in operating conditions will lead to an increase in fuel consumption of standard cars.

The objective of the invention is to develop an alternative motor fuel with an octane rating of at least 90.0 units by research method, close to gasoline by heating value, saturated vapor pressure of not less than 35.0 kPa, low sulfur content (not more than 10 mg / kg), non-washed and washed resins (not more than 5 mg / 100 cm ³ ), high chemical stability (induction period - more than 360 minutes), and high phase stability, in which C ₃ aliphatic alcohols are used as the main alcohol component. In addition, alternative motor fuel must meet the basic requirements for the performance of gasoline in accordance with GOST 32513 and TP TS 013/2011.

To solve this problem, an alternative motor fuel with an octane rating of at least 90.0 units, a saturated vapor pressure of at least 35.0 kPa and no more than 100.0 kPa, including a hydrocarbon fraction and aliphatic alcohols, is proposed, which differs in that the hydrocarbon fraction boils up to 225 ° C and has a saturated vapor pressure of 30.0 to 105.0 kPa, and aliphatic alcohols are alcohols C ₃ - n-propyl and / or isopropyl, in the following ratio, wt.%:

aliphatic alcohols C ₃ 20-50 hydrocarbon fraction up to 100

An alternative motor fuel is characterized in that it additionally contains C ₁ and / or C ₂ alcohols in a concentration of up to 15 wt%, as well as an additive with anti-corrosion properties in an amount of 12-350 mg / l.

A distinctive feature of the proposed alternative fuel is the use of C ₃ alcohols (which are n-propyl and / or isopropyl alcohols) as the main alcohol component, which allows to expand the range of alternative fuels.

An advantage of the invention is that the calorific value of the proposed alternative fuel is higher than that of the prototype, and approaches the calorific value of motor gasoline. Another advantage is the simplicity of the fuel composition and the ability to use several refining fractions (for example, straight-run gasoline fraction, alkylate, gasoline hydrocracking fractions).

Also, the use of aliphatic alcohols C ₃ allows you to control the most important property of automotive fuel - its saturated vapor pressure (DNP) and, thus, use hydrocarbon fractions as an alternative fuel, the DNP of which goes beyond the norms laid down in the standard for automobile gasoline.

All components of the fuel composition used in the present invention, industrial production.

Petrol fractions of oil refining processes are offered as the hydrocarbon fraction, which boil up to 225 ° C and have a saturated vapor pressure of 30.0 to 105.0 kPa. Also, hydrocarbon fractions can be characterized by a low octane number according to the research method, must have a low sulfur content (not more than 12.5 mg / kg), unwashed and washed resins - not more than 6 mg / 100 cm ³ ), high chemical stability (induction period - more than 360 min).

Aliphatic alcohols C ₃ are alcohols: n-propyl and isopropyl, which can be obtained by hydrogenolysis of glycerol, which in turn is a by-product of the production of biodiesel by transesterification of fatty acid triglycerides [Daolai Sun, Yasuhiro Yamada, Satoshi Sato et al. Glycerol hydrogenolysis into useful C ₃ chemicals // Applied Catalysis B, Environmental. 2016. Vol. 193. pp. 75-92, DOI: http://dx.doi.org/10.1016/j.apcatb.2016.04.01.].

Isopropyl alcohol can also be obtained by direct or sulfuric acid hydration of propylene and / or propane-propylene fraction (produced according to GOST 9805), and / or in the process of catalytic hydrogenation of acetone - according to TU 2421-556-05763441.

N-propyl alcohol can be obtained by hydroformylation of ethylene and / or ethylene fraction [Brunstein / Production of alcohols from oil and gas raw materials B.A. Brunstein, V.L. Klimenko, E.B. Tsyrkin. - Leningrad: "Nedra", 1964. - 198 p.].

C ₃ aliphatic alcohols, in turn, are good stabilizers of alcohol fuels, which positively affects their phase stability, especially this can be critical at low ambient temperatures. Also, by involving C ₃ aliphatic alcohols in hydrocarbon fractions in the optimum declared concentrations, saturated vapor pressure can be adjusted to meet regulatory requirements.

Alcohols C ₁ -C ₂ are alcohols: methyl and ethyl.

Methyl alcohol can be obtained from synthesis gas by gasification of various raw materials: natural gas, gas condensate, coal, biomass. Available in Russia in accordance with GOST 2222.

Ethyl alcohol can be obtained from crops and wood and agricultural processing wastes (bioethanol) or by hydration of ethylene (synthetic ethanol). At present, the following ethanol standards apply in Russia: GOST 33872 “Fuel denatured bioethanol. Specifications ", GOST R 53200" Denatured fuel bioethanol. Specifications ", GOST R 56146" Denatured ethanol used as a fuel component for spark ignition engines. Technical requirements ”, GOST EN 15376“ Automotive fuels. Ethanol as a component of motor fuel ”and GOST R 51999“ Rectified and denatured synthetic ethyl alcohol. Technical conditions. "

Table 1 presents the main characteristics of the considered hydrocarbon fractions used for the preparation of alternative motor fuel. Five gasoline fractions of oil refining processes that boil up to 225 ° C were used as base hydrocarbon fractions.

As examples of the invention, five samples of the composition of alternative motor fuel were prepared, the test results of which are presented in table 2, which also shows the standards for the quality of gasoline according to GOST 32513 and TP TS 013/2011.

The test results show that fuel samples meet the basic requirements of GOST 32513 and TP TS 013/2011.

The octane number of samples by the research method is above 90.0 units. It should be noted that the octane numbers of mixing of oxygenates in the compositions under consideration are significantly higher than the values from the literature, especially in low-octane bases, which confirms the high antiknock potential of C ₃ aliphatic alcohols (n-propyl, isopropyl alcohols and mixtures thereof).

The saturated vapor pressure for all compositions is in the range of 35.0-100.0 kPa, which is achieved using a mixture of aliphatic alcohols C ₃ in optimal concentrations and a non-additive change in this indicator. DNP of isopropyl and n-propyl alcohols in pure form is 14.2 and 14.0 kPa, respectively. When using a hydrocarbon fraction with high DNP (above the requirements of the gasoline standard), the involvement of C ₃ aliphatic alcohols reduces the DNP of the final fuel (example No. 1) and brings it to the standard, however, when using a hydrocarbon fraction with insufficient DNP, the involvement of C ₃ aliphatic alcohols increases DNP of fuel to the norms of standards (examples No. 2 and No. 4), despite the low DNP of C ₃ alcohols in its pure form. Thus, the use of aliphatic alcohols C ₃ allows you to control the most important properties of automotive fuel - its DNP and, thus, use hydrocarbon fractions as an alternative fuel, the DNP of which goes beyond the norms laid down in the standard for automobile gasoline.

The content of unwashed resins in the samples is not more than 3 mg / 100 cm ³ , washed - not more than 1 mg / 100 cm ³ , which will ensure the cleanliness of the fuel system of the car.

The sulfur content in the samples is not more than 10 mg / kg, the induction period of the samples is more than 360 min, value.

The specific lower calorific value of the samples is higher than that of the samples shown in the examples of the prototype invention at the same alcohol concentration. So, for example, with a content of 20% wt. of isopropyl alcohol in sample No. 1, the heat of combustion is 29.8 MJ / l, which is 1.3 MJ / l more than in sample No. 1 of the prototype invention.

The cloud point of all samples is below minus 60 ° C, which indicates a high phase stability of fuels.

In the presence of C ₁ -C ₃ alcohols in the composition, the addition of special additives makes it possible to obtain fuels with high anticorrosive properties. This confirms the presence of severe corrosion of steel rods in the sample without additives (3 points) and the absence of corrosion in samples with additives (0 points). The test was conducted according to the method based on ASTM D665. Polished steel rods are immersed in a mixture of a test fuel sample with water in a ratio of 10: 1 and held for 4 hours at a temperature of 38 ± 1 ° C. The degree of corrosion is assessed visually on a scale of 0 to 3 points.

Thus, the use of C ₃ alcohols (which are n-propyl and / or isopropyl alcohols) as the main alcohol component allows us to expand the range of alternative fuels. Also, the advantage is the simplicity of the fuel composition, the ability to use several refining fractions (for example, straight-run gasoline fraction, alkylate, gasoline hydrocracking fraction) and the ability to increase the heat of combustion in comparison with the prototype. Also, the use of aliphatic alcohols C ₃ allows you to control the most important property of automotive fuel - its saturated vapor pressure (DNP) and, thus, use hydrocarbon fractions as an alternative fuel, the DNP of which goes beyond the norms laid down in the standard for automobile gasoline.

The developed alternative motor fuel has an octane rating of at least 90.0 units. according to the research method, the required saturated vapor pressure is not less than 35.0 kPa, low sulfur content (not more than 10 mg / kg), washed and unwashed resins (not more than 3 mg / 100 cm ³ ), high chemical stability (induction period - more than 360 min), as well as additionally improved anticorrosion properties, which meets the basic requirements for the characteristics of gasoline in accordance with GOST 32513 and TP ТС 013/2011, and also have a calorific value close to gasoline.

Claims (4)

1. Alternative motor fuel with an octane rating of at least 90.0 units by research method, a saturated vapor pressure of at least 35.0 kPa and not more than 100.0 kPa, including a hydrocarbon fraction and aliphatic alcohols, characterized in that the hydrocarbon fraction boils to 225 ° C and has a saturated vapor pressure of 30.0 to 105.0 kPa, and aliphatic alcohols are C ₃ - n-propyl and / or isopropyl alcohols, in the following ratio, wt.%: aliphatic alcohols C ₃ 20-50 hydrocarbon fraction up to 100 2. An alternative motor fuel according to claim 1, characterized in that it contains alcohols C ₁ and / or C ₂ in a concentration of up to 15% wt. 3. An alternative motor fuel according to claim 1, characterized in that it further comprises an additive with anticorrosive properties in an amount of 12-350 mg / l.