In the modern world, gasoline prices are steadily rising, despite the fact that the cost of oil is constantly falling.

In this regard, many are beginning to think about whether it is possible to make gasoline at home and how to do it.

Derivation from coal

There are two effective and proven methods. Both of these methods were developed by German scientists at the beginning of the last century.

During the Great Patriotic War, almost all German equipment was moved using coal fuel.

After all, as you know, there are no oil deposits in Germany, but coal mining is established. The Germans produced diesel and gasoline synthetic fuel from brown coal.

Surprisingly, from a chemical point of view, coal is not as different from oil as many people believe. They have the same basis - hydrogen and flammable carbon compounds. True, there is less hydrogen in coal. A combustible mixture can be obtained by leveling the hydrogen levels.

You can do this in the following ways:

• hydrogenation or otherwise liquefaction;
• gasification.

What is hydrogenation

Approximately 80 kg of gasoline can be obtained from one ton of coal. At the same time, coal must contain 35% volatile substances.

To begin processing, the coal is finely ground to a powder state. Then the coal dust is thoroughly dried. After this, it is mixed with fuel oil or oil to obtain a paste-like mass.

Hydrogenation is the addition of missing hydrogen to the coal mixture. We place the raw material in a specialized autoclave and heat it. The temperature in it should be at around 500 degrees, and the pressure should be 200 Bar.

In order for gasoline to be formed, two phases must go through:

• liquid phase;
• vapor phase.

Several rather complex chemical reactions take place in an autoclave. Coal is saturated with the necessary hydrogen, and the complex particles included in its composition break down into simple ones.

As a result, we get diesel fuel or gasoline. This will depend on the process itself.

Once again the entire hydrogenation process point by point:

1. grinding coal to dust;
2. adding oil to it;
3. heating in an autoclave at high temperature.

It is very important to make the right equipment. It is quite difficult to make it yourself at home, because the pressure in autoclaves is higher than in oxygen cylinders.

It is important: Remember safety precautions. The process itself is quite explosive. Under no circumstances should you smoke near the unit or light a fire.

Gasification

Gasification is the decomposition of solid fuel into gases.

Later, the missing substances are added to the resulting gases and transformed into a liquid state to produce gasoline.

There are several ways to process coal into gasoline using gasification.

The first method can theoretically be used at home. It's called the Fischer-Tropsch method. But this method is quite labor-intensive to implement, requires too complex equipment, and in the end turns out to be unprofitable, since a lot of coal is wasted and the finished gasoline is cheaper.

In addition, a large amount of carbon dioxide is released, the processing process becomes very dangerous at home. Therefore, we will not analyze this method in more detail.

There is also a thermal gasification method. It is carried out by heating raw materials in the complete absence of oxygen. Naturally, this also requires appropriate equipment. After all, the temperature of coal decomposition into gas is 1200 degrees.

The main advantage of this method is that part of the gases is sent for the synthesis of gasoline fuel, and part for heating the raw materials. This helps reduce costs. Thus, the coal heats itself.

Making gasoline from old tires

You can make your own gasoline using old rubber tires.

For this you will need:

• rubber waste;
• bake;
• distiller;
• containers made of fireproof materials.

Expert advice: You shouldn’t make gasoline in a city apartment. The process is accompanied by smoke with a pungent smell of rubber.

Step-by-step instructions for making gasoline from rubber tires are as follows:

1. It is necessary to prepare a metal barrel with a tight-fitting lid. In addition, you will need a heat-resistant tube. It must be connected from above to the lid. This will create a homemade retort. Then you need a container for condensate and another small container with two tubes to create a water seal. One tube is lowered into the water, and the second is held above it.
2. Next, you need to assemble a device for producing carbon in liquid form. To do this, we connect the tube from our retort to the condensate. Then we also connect the condensate and the water seal with a hose. We connect the second tube to the stove, on which we install the retort. The result is a closed-loop system for cracking at high temperatures.
3. Place the rubber in the retort and close the lid tightly, then heat it over high heat. At high temperatures, rubber molecules are destroyed. Sublimation occurs, i.e., a transition from a solid to a gaseous state, bypassing the liquid stage. This gas then enters our condenser, where the temperature is much lower. The vapors condense, and as a result, we get oil in liquid form.
4. The resulting substance must be purified; for this you will need a distiller, which is often used when using moonshine stills. The suspension is brought to a boil at a temperature of 200 degrees, and gasoline is obtained.

Note: Avoid open flames during the distillation process. It is best to use an electric stove.

Alternative methods

Gasoline is made not only from coal and rubber tires.

It can be obtained from garbage, firewood, pellets, leaves, nut shells, seed husks, corn cobs, peat, straw, reeds, weeds, reeds, old sleepers, dry bird and animal manure, plastic bottles, medical waste, etc.

The process of producing gasoline at home, discussed above, is not as complicated as it seems at first glance. Terms such as hydrogenation, gasification, etc. can be misleading. But in fact, setting up production and making gasoline with your own hands is not as difficult as it seems.

We bring to your attention an interesting report on how to make gasoline at home:

A little digression, i.e. about the technology for creating ethanol (ethyl alcohol) and biodiesel fuel at home. INFORMATION ARTICLE. NOT AN ACTION GUIDE!

Question: Can I make fuel for my car at home?

Watching modern reality shows, we, including myself, involuntarily asked ourselves the question: Is it really possible to make fuel for your car yourself at home? I understand that it is impossible to make real gasoline in artisanal conditions, but is it possible to get some derivatives from it or another type of fuel? They travel around the world both on wood and on water. What type of automobile fuel can be made independently at home?

Answer:

Whether you're looking for an alternative fuel or spending your time contemplating various apocalyptic scenarios, there are only two viable options that are compatible with today's engine systems found in cars and trucks. These are ethanol, one of the most suitable replacements for gasoline, and biodiesel, which respectively replaces diesel fuel itself. Both of these options can be used to replace industrial fuels. Moreover, biodiesel can be poured into the tank with virtually no major changes. Ethyl alcohol is mixed in certain proportions with gasoline, i.e. from 10 to 85%. Attention! Not all gasoline internal combustion engines are capable of operating on such a mixture.

But making these two above-mentioned substitutes for standard fuel is not entirely simple. Before you try to produce ethanol and biodiesel at home, you will need to study professional literature, purchase (or build) equipment, and create a functioning system capable of producing the required amount of fuel and the required quality. Of course, you shouldn’t forget about the safety you are in. It is likely that the production of certain quantities of surrogate fuel may be illegal.

And even if you study all the intricacies of this production, it’s hardly worth counting on a cheap product (unless you have a hectare to sow crops from which you can extract alcohol), the ingredients of a high-octane potion will also cost you a pretty penny and will cost more than the smaller wholesale you order for this item.

Despite all the difficulties in studying a new production technology, the purchase of expensive raw materials and the technology for creating fuel itself is quite simple.

Making ethanol at home

The process of making ethanol at home is very similar to moonshine brewing.

From which the very first problem immediately follows is the legality of this act. You will need to find out the maximum volume of goods produced and the regulation of alcoholic beverages in our (your) country.

Regardless of the amount of alcohol you produce, you will also have to go through the process of denaturing it, making it unfit for human consumption, by adding certain substances to it, such as kerosene or naphtha.

Another important difference between distilling moonshine and distilling fuel itself is that ethanol intended for use as fuel must be more thoroughly purified compared to the same ethanol intended for human consumption. It should contain less water. Reducing the water content can only be achieved through several distillation steps. There are also ones that are capable of removing water contained in fuel alcohol.

When using this ethanol, it would be a good idea to install additional cleaning filters on the car itself in order to separate water and other debris specifically from the fuel, since ethanol itself, acting as a solvent, will simply wash away all this dirt from the fuel lines and carry them directly into the cylinders.

The process of making fuel is similar to making alcohol. It starts with the selection of raw materials. The initial product can be anything from corn and wheat to millet or Jerusalem artichoke.

The raw materials are used to prepare the mash;

Then the fermentation process begins, which breaks down starch into sugars;

The alcohol is ready.

Obtaining raw materials for the production of combustible alcohol at home

The biggest problem in creating flammable alcohol at home, either now or in some hypothetical or apocalyptic future, is the raw material itself. To make a mash that can be distilled into fuel alcohol, you need some kind of grain or other plant material, and lots of it. If you have a place where you can grow raw materials, you will have significantly fewer problems in the same monetary equivalent.

Ethanol is mainly made from corn. From every 40 acres possible to produce up to 1500 thousand liters of ethyl alcohol per year. Among other crops, millet showed even greater efficiency, from the same area in 1 year yield exceeded 2200 thousand liters of ethyl alcohol. Under ideal conditions, millet can produce 4,500 thousand liters of ethyl alcohol.

In the absence of acreage for growing, say, corn, millet, sugar beets or other types of cultivated plants, producing alcohol at home will no longer be a viable project.

Making biodiesel at home

First of all, it is important to initially understand the difference between the same oil and biodiesel fuel itself. Vegetable oil (SVO), waste vegetable oil (WVO) and similar animal fats are naturally nutritious, but they are not biodiesel fuels per se.

In the first option, modifications to the engine itself cannot be done. At a minimum, a system of coarse and fine filtration of vegetable oil waste will be required. The option is not very good for the motor.

It is preferable to produce this biodiesel from SVO or WVO oils. The process is more complex and involves "breaking down" the chemical structure of fats or oils using methanol and lye. It is important to take the necessary precautions as both methanol and lye are toxic substances.

The process of making biodiesel from SVO, in its most basic terms.

-Heating the oil;

-Adding a certain amount of mixed ingredients of methanol and alkali, they will facilitate the chemical process known as transesterification;

-The result of this process will be that two products will ultimately be released, namely: biodiesel and glycerin, which will separate and settle to the bottom of this mixture;

-The final stage is drying of methyl esters of fatty acids. Since water itself leads to the development of microorganisms in biodiesel and promotes the formation of free fatty acids, which subsequently cause corrosion of metal parts.

Store for no more than 3 months.

Obtaining raw materials for biodiesel production at home

The great thing about biodiesel is that you can make it from a huge range of vegetable oils or animal fats (you could even theoretically get some free stuff from local restaurants). The process of obtaining raw materials is quite simple, like one, two, three. Contact local restaurants, find out if they have waste vegetable oils, and then find a way to transport this waste home. Ready!

Without a ready source of waste cooking oil, obtaining this raw material to create your own biodiesel becomes more difficult. Buying oil in stores to add to diesel fuel (diesel fuel) is expensive.

Another option is to create your own vegetable oil. The process is lengthy and impractical. Maybe in some distant hypothetical or post-apocalyptic future, when all other resources are exhausted, this will be economically feasible, but not now and not in our time.

Result: With the proper knowledge of technology and technical means, it is somewhat easier to make this ethyl alcohol for cars than the same biodiesel. However, without using the grown material for processing, such creation of home fuel turns into an expensive pleasure. We need to remember this.

If we consider the question of what gasoline is made from, then, of course, many can immediately say that it is from oil. This statement is true, but it is just the tip of the iceberg, and the actual process of producing fuel is much more complex.

Gasoline at oil refineries

So, it’s worth saying right away that the production process is a long process that requires patience and knowledge of chemistry.

Gasoline production in Russia is carried out by 32. This amount of industrial capacity allows the Russian Federation to maintain a high grade of fuel. What is gasoline made from? Of course, the initial raw material for the production of this is crude oil. For example, we can take oil. To make it clearer, 1 barrel is 159 liters. It is also important to note that when crude oil is processed, its volume constantly increases and reaches 168 liters. As a result, the following amount of fuel can be obtained from this volume:

• 102 liters of regular gasoline.
• 30 liters of diesel fuel.
• 25 liters of fuel used by aviation.
• 11 liters of refinery gas, which is obtained by distilling oil.
• 10 liters of secondary product - petroleum coke.

How is gasoline made?

In order to obtain fuel, it is necessary to carry out a number of operations with crude oil. The thing is that the initial product consists of a mixture of various hydrocarbons. It is also important to understand that each molecule of this substance contains a different number of carbon atoms. To put it simply, each of these molecules has its own height and weight.

To obtain gasoline molecules, which are the simplest and lightest, it is necessary to heat crude oil until the more complex and heavier particles are broken down into simpler ones - gasoline. In other words, to answer the question of how gasoline is made, we can say that it is obtained by heat treating crude oil. However, it is worth adding some smaller processes to this process, such as cleaning and processing.

Production process

If we answer the question of what gasoline is made from with a simple answer - from oil, then this is not an entirely correct statement, since this fuel also contains some impurities, but more on that later.

To obtain fuel in its primary form, it is necessary to subject the raw materials to primary processing. This treatment refers to the purification of oil from salts, as well as water impurities. These processes are carried out under the influence of an electric field. The result of this procedure is the separation of water from oil, as well as desalting to the required level. After completing this procedure, they proceed to thermal treatment of the oil. It is after such procedures that such fuels are obtained - gasoline, gas, diesel.

Next comes the catalytic reforming procedure. During this particular procedure, the resulting gasoline, after primary processing, is converted into fuel characterized by a high octane number. However, such as 92 or 95, are obtained by mixing different components that were obtained from different crude oil refining processes.

Octane number

If the question of what gasoline is made from has become more or less clear, then very few people know what the octane number is. Everyone knows that the name of each brand of gasoline contains an alphabetic as well as a digital designation. Letters such as A or AI indicate the method for determining the octane number. A - motor process, AI - research process. But the numbers that come after indicate the quantitative content of octane number in the fuel.

Everyone knows that both oil and gasoline are explosive substances. Since gasoline is obtained from oil by refining it, this property does not go away. The octane number indicates the fuel's resistance to detonation. In other words, the higher it is, the higher the safety of the fuel brand. However, it is worth understanding that this indicator is relative, and any spark will still cause an explosion.

Basic properties of gasoline

The main properties of gasoline include such characteristics as its chemical composition, as well as its ability to evaporate, burn, and ignite. In addition, one can also highlight resistance to detonation and corrosion activity.

It is important to know that all the physical and chemical properties of gasoline fuel will change depending on the amount of hydrocarbons and what kind of hydrocarbons it contains. For a more clear example, we can take the freezing point for gasoline as a basis. During normal processing, the freezing point of this liquid is -60 degrees Celsius. However, when using additional components, this figure can reach -71 degrees Celsius. The evaporation temperature of gasoline is 30 degrees. The higher this indicator rises, the faster evaporation will occur. It is also important to note that the amount of fuel vapor from 74 grams to 123 grams or more per cubic meter will already form an explosive mixture.

Chemical properties

In order to consider the chemical properties and their stability of gasoline, it is necessary to rely on the most important indicator - the time during which these properties remain unchanged. This indicator is the most important, since during long-term storage of fuel, the lightest hydrocarbons begin to evaporate, which greatly reduces the performance characteristics of the liquid as a whole. According to the state standards of the Russian Federation, it follows that the chemical composition of any brand of gasoline from 92 to 98 remained unchanged for five years. This period is prescribed taking into account the storage of explosive fuel in accordance with all rules.

Mini-refinery

Currently, the issue of production and purchase of fuel is quite acute, since resources are being depleted, and because of this, the price of this product is constantly increasing. In light of these events, the question arises: what is more profitable to buy - gasoline and other fuels - or to produce it yourself. It is important to understand that for most businesses and companies, fuel costs are the most extensive. It is in this situation that many come to consider the idea of ​​a mini-refinery. This option doesn't seem so bad, especially considering the cost of fuel and the cost of a mini refinery. Almost every large entrepreneur can purchase such a mini-plant, let alone, say, a region of an entire country.

Types of refineries

Currently, you can purchase a mini-plant for oil refining of almost any type on the market. This is the most important criterion, since these industrial facilities have to be operated in a wide variety of climatic conditions. For this reason, the market is saturated with a variety of types of refineries. There are any specimens available, ranging from heat-tolerant and corrosion-resistant to “arctic” installations. A large selection of mini-refineries allows you to process the raw product under almost any conditions.

It is worth noting that they themselves can also run on different fuels. For their operation, you can use natural or liquefied gas, diesel fuel, fuel oil, and crude oil. This choice of fuel for the operation of the factory itself provides a wide range of possibilities for operating the facility, and also allows you to satisfy any individual preferences for the choice of working fuel product.

The financial crisis shows an unpleasant situation: oil prices are falling, but the cost of gasoline is increasing. Creation does not require your own plant with complex mechanisms and special knowledge - the process of producing gasoline is quite simple.

How gasoline is made in industry

Fuel for cars is produced from oil, which, in turn, consists of two components:

• Carbon - content about 85%;
• Hydrogen - content about 15%.

The two necessary components are closely related. They combine at the molecular level to form a hydrocarbon. The category of liquid depends on the amount of one of the two components, as well as the complexity of the composition.

Gasoline is extracted from oil in two ways - direct distillation or cracking. The second process is more popular, as well as technologically advanced, and therefore is used in industry.

How much fuel can you get from a barrel of crude oil?

One barrel contains 159 liters. When processing this volume, the amount of oil increases to 168 liters, from which you can produce:

• 102 liters of gasoline mixture;
• 30 l diesel;
• 25 liters of aviation fuel;
• 11 liters of refinery gas obtained after distillation;
• 10 liters of petroleum coke - secondary product;
• 5.6 liters of fuel oil, which is used to heat a home or power ships, locomotives and generators;
• 4.5 l of liquefied gas;
• One and a half kilograms of charcoal;
• 12 propane gas cylinders;
• A liter of motor oil.

Direct distillation process to create gasoline

This method is the simplest and was discovered earlier than others. This process is characterized by low efficiency of distillation of oil into fuel, but can be reproduced independently.

The essence of distillation is to heat the oil. At high temperatures, the required elements evaporate in turn, ultimately leaving gasoline. The process takes place in a closed container, which has a special atmospheric pressure. Gases are removed through a special tube. The composition of the resulting mixture depends on the temperature:

• At temperatures of 35–200°C gasoline is produced;
• At 150–305°C - kerosene;
• At 150–360°C - .

Disadvantages of direct oil distillation:

1. Small volume of fuel received. From one barrel of prepared oil, approximately 25 liters of gasoline can be produced - about 15% of the original volume.
2. The resulting fuel has a low octane number (an indicator that indicates the fuel’s ability to resist ignition during compression. The higher the coefficient, the more resistant to detonation the fuel is) - about 50–60 units. To increase it to the usual 92–95, you will need to add many additives and alcohols.

The distillation process has long been outdated - this method is unprofitable for mass production. However, this process can be repeated independently, because it does not require expensive equipment or special skills.

Reforming

A high-tech process used to produce high-quality gasoline and other fuels, as well as aromatic hydrocarbons. It is very complex, but the principle is this: oil is divided into its component parts using chemical reactions, reducing the amount of water in it and getting rid of certain compounds, making the mixture simpler, which forms fuel.

Advantages of reforming:

1. High efficiency - the output of gasoline is up to 40–50% of the original volume of oil. This is on average three times more efficient than distillation. Thus, about 80 liters of fuel are obtained from a barrel, which allows for more rational use of the limited quantity of oil.
2. Higher octane number, reaching 80 units. Of course, such gasoline cannot be used immediately, but it requires fewer additives, which makes it possible to reduce production costs and make the gasoline itself higher quality and “natural.”

Modern specialists in the field of oil processing are striving to completely abandon the use of additives. For this purpose, technologies such as cracking, platforming and others are being developed.

There is only one drawback of this method in terms of producing gasoline yourself. This process is very complex, requiring precise control and serious preparation - equipment and knowledge.

Fuel octane number

The higher the octane rating, the safer the gasoline is for the fuel system. Fuel of very poor quality creates a risk of engine explosion. Additional components are used to increase the octane number:

• Alcohols;
• Esters;
• Alkyls;
• Additives that increase resistance to freezing.

Increases octane number in different ways

Previously, tetraethyl lead was also used. It did an excellent job, but had a negative impact on the health of drivers and nature in general, settling in the lungs and causing cancer. Approved additives allow you to create fuel that is both safe and environmentally friendly, both in the laboratory and independently.

Quality control. Checking the fuel

There is a laboratory on the territory of each production facility. It monitors the quality of oil and products obtained from it. Every stage of fuel creation is subject to control, from the delivery of raw materials to the final mixture.

The final testing of gasoline in the laboratory takes three hours. Experts focus on color, as well as composition - fuel should not contain water and impurities in quantities exceeding the norm. In appearance, gasoline should be clear and without sediment. Diesel fuel may have a yellowish color.

Kerosene undergoes the most serious testing. This type of fuel is used in aviation, so it must have . The production is visited by a military representative who monitors the analysis of kerosene.

After laboratory tests, the fuel is tested in a special engine. The test fuel is compared with a reference one, which has an octane number of 100. Depending on how well the test engine performs relative to the reference one, the OC of the produced batch of fuel is obtained.

Self-production of gasoline

Having studied the process of oil distillation, you can understand that it is not necessary to have a plant and laboratory to create fuel. It can be done at the dacha or in any other place using a simple unit and minimal knowledge. Of course, the initial quality of such fuel will leave much to be desired - it will have to be brought to condition with various additives.

What you will need:

• A sealed container with a gas outlet tube. Any iron barrel with a tight lid and a welded outlet will do;
• An industrial thermometer that will monitor the temperature inside this vessel;
• Condenser - any container into which gas will flow from the first during distillation;
• Distiller (an ordinary moonshine still will do);
• Heating element - even a kitchen electric stove will do;
• The third container, which serves as a water seal;
• Oil or refinery waste (including old tires or used oil).

Installation assembly

Having prepared all three containers, you can begin assembly. The first vessel (retort) is connected to the second (condenser) via a gas exhaust tube. This design is fundamental in the distillation process. The condenser tank must have a hose that connects to the water seal tube (one of two) - both of them are located below the water level. The second water seal tube is connected to the furnace, on which the retort is placed. This design is closed and allows for the distillation of petroleum products. The process must take place outdoors or indoors with a powerful hood - gasoline vapors are explosive!

If regular oil cannot be found, secondary products will do. This could be fuel oil, used motor oil, old tires and other waste. Of course, using such materials, the final amount of fuel will be even less than 15% of the original volume.

How to use the distillation machine

Oil or its secondary products are placed in the retort. The container is placed on heat (if a kitchen stove is used, it must have electric burners - gas burners create a risk of igniting gasoline vapors). The capacitor must be placed in a cool room (about +5°C). If this is not possible, then you need to at least cover the tube connecting the retort and cover the condenser with ice.

You can get quite suitable fuel

The first container must be heated in the temperature range 35–200°C. If you exceed two hundred degrees, you will get not gasoline, but another type of fuel - diesel or kerosene. Gas will flow through the tube into the cooled second container, which, upon condensation, turns into liquid - the basis of gasoline. Its vapors rise above petroleum products as a result of heating, since they are lighter than other substances. High-boiling compounds will remain in the retort: ​​kerosene, petroleum oil, etc.

During the operation of the device, not only gas is formed, which is the basis of gasoline, but also methane (as well as propane and butane in smaller quantities). This is why a tube is needed that either removes the hydrocarbon gases or directs them into the furnace if a combustion system is used.

In order to get more liquid, the remains from the first process should be placed in a thick-walled airtight container and heated to 450 degrees. The heavy components of petroleum products will decompose, and the resulting substance can be distilled again. This process is a simplified version of cracking, which is used in industry.

Increase in octane number

Formally, the liquid obtained in the condenser is gasoline. It has an insufficient octane number, so it is not suitable as a fuel. Thus, straight-run gasoline should be enriched with additives (even tetraethyl lead is suitable - in small quantities required for the operation of one car, it does not pose a danger). The resulting gasoline can be used for its intended purpose, but it is most likely not suitable for cars with a sensitive fuel system - a low octane content, coupled with impurities, will simply ruin an expensive vehicle.

As for use in simple ones and those that have a picky fuel system, homemade gasoline is perfect for them. Increasing the octane number to the desired level occurs by trial and error, so you should not experiment on sensitive machines.

The production of diesel fuel and kerosene independently occurs in exactly the same way, with the exception of the heating temperature in the retort. These types of fuel require 300 and 350 degrees Celsius, respectively.

Conclusion

Modern fuel producing enterprises set huge markups on their products. To save money, you can create gasoline and other fuels yourself using an old but simple system - the process of direct distillation. When distilling from secondary petroleum products, you can expect an efficiency of about 10% by volume.

Work must be carried out in a ventilated area with a powerful exhaust hood or in the fresh air. For safety reasons, the use of open fire sources is highly discouraged - the process of heating containers should take place on a stove with an electric burner or on a stove.

Almost every resident of our country knows what gasoline is. Even school-age children know this, but all this knowledge is too general. Many people only know that the car needs this fluid in order to drive. But what gasoline is made from, what types there are and how it is obtained - few know all this. Let's try to understand these issues.

What is gasoline?

This is a fuel (fuel) used to operate the internal combustion engines that most cars are equipped with (there are also cars with electric motors, where this fuel is not used). In more detail, it is a mixture of certain light hydrocarbons that have a boiling point in the range of 30-200 degrees Celsius. The density of the fuel is 0.7 g/cm3, and its thermal conductivity is 10500 kcal/kg. These are its main characteristics. There are also such parameters as brand and detonation resistance, but more on that a little later.

Gasoline production technology

Oil is the main raw material for the production of this fuel. It is obtained through petroleum distillation, hydrocracking and further aromatization. Special gasolines are additionally purified from unnecessary components in the composition, and are also enriched with various additives, which are popularly called additives.

There are also cases where other hydrocarbon raw materials are used in the production of gasoline. For example, in Estonia during the existence of the USSR, gasoline was made from oil shale, therefore, it can be produced from coking and semi-coking resins with subsequent purification. Synthesis gas can also be a raw material for the production of this fuel (synthesis gas is the conversion of methane and gasification of coal) - there are corresponding technologies using cogazin and syntin.

Classic technology

Most often, when producing gasoline, standard technology is used at oil refineries, which involves mixing certain components:

1. Light naphtha is straight-run gasoline (naphtha is a light fraction of hydrocarbons that is obtained during the distillation of oil).
2. Isomerisate (naphtha isomerization product).
3. Reformate (reformed product of the heavy fraction of hydrocarbons).
4. Gasoline obtained as a result of the decomposition of heavy fractions of primary distillation.
5. Hydrocracking gasoline (a product of the decomposition of heavy fractions that has survived vacuum and atmospheric distillation).
6. Special additives.

The easiest way to obtain motor gasoline is to select light fractions during oil distillation and increase the octane number by adding a large number of additives.

Varieties

Now you understand what gasoline is - this is the lightest liquid fraction of oil obtained by distilling this black raw material. The standard hydrocarbon composition of this fuel includes molecules in length from C 5 to C 10. However, it is important to understand that there are different types of this fuel, so the composition and properties of gasoline can differ significantly. It all depends on how exactly the fuel was obtained. After all, it can be produced not only through crude distillation of oil. It is even obtained from heavy fractions of oil (the so-called cracked gasoline) and from associated gas.

Gas gasoline

It is intuitively clear that this product is obtained by processing petroleum gas. It contains saturated hydrocarbons, the number of carbon atoms in which is more than three. There are stable and unstable gas gasoline. Stable can be light or heavy - it is used in petrochemicals as a raw material. Most often used in organic synthesis plants, but can also be used to make motor gasoline. In this case, it is simply mixed with other types of fuel.

Cracking gasoline

It is obtained by additional distillation of petroleum products. On average, distillation of oil produces only 10-20% of gasoline. To increase this number, heavy fractions of oil are heated, which makes it possible to break the large molecules in their composition into small ones. This is cracking, although the technological process in this case is described primitively. Using this technology, when distilling oil, it is possible to obtain up to 70% of the fuel from the volume of raw materials processed.

Pyrolysis

This technology is very similar to cracking. There is only one difference - a higher heating temperature of the feedstock (700-800 degrees). Pyrolysis allows you to increase the yield of gasoline from raw materials to 85%.

Octane number and knock resistance

One of the most important characteristics of gasoline is its resistance to detonation, which is determined by the octane number. There are different brands of fuel: AI-92, AI-95, AI-98. All these brands of gasoline are produced by mixing components that were obtained as a result of different technological processes. Naturally, there is a GOST that regulates the proportions of mixing components, which ultimately makes it possible to obtain fuel with a certain octane number. Thus, the AI-98 gasoline brand has an octane number of 98, the AI-95 brand has an octane number of 95.

In this case, the octane number of 95 indicates that the gasoline contains 95% isooctane and 5% heptane. For different engine standards (Euro-4, Euro-5) it is recommended to use one or another gasoline. The difference between them lies in the degree of compression at which fuel detonation (micro-explosion) occurs.

After the primary distillation of oil, gasoline with an octane number of 70 is usually obtained. Such fuel is low-grade and unnecessary, so various additives are added to it to increase the octane number (the most common is tetraethyl lead, but other anti-knock agents can also be used).

So, by mixing certain components and adding additives, the desired fuel with a specific detonation number is obtained. Manufacturers of cars based on Euro 5 engines recommend pouring a certain fuel into the gas tank. AI-95 gasoline is indicated specifically for such engines. Euro-4 engines work well with fuel with a lower octane number - 92. If you pour AI-92 gasoline into a Euro-5 engine, so-called premature detonation is possible during its operation. It happens because the gasoline in the cylinders ignites prematurely, causing the engine to run slightly incorrectly. This may result in loss of traction and increased gas consumption. If you add AI-95 fuel to a Euro-4 engine, then gasoline explosions may occur late, which is also bad. Therefore, it is advisable to use only the gasoline recommended by the engine manufacturer.

Determination of octane number

There are different ways to determine octane number. The easiest way is to measure it using a portable device. It is enough to insert it into a container with fuel, and it will show the octane number.

The second method is research. It is carried out using a single-piston engine without simulating strenuous driving. The motor method can also be used. It uses a single-piston engine that simulates hard driving.

Application

Gasoline is primarily used to run internal combustion engines. It can also be used as a solvent. There is aviation and motor gasoline. The first, as the name suggests, is used in aviation, and its main difference is its higher octane number. It contains much more light fractions.

Motor gasoline can be divided into 2 categories: summer and winter. The latter is produced with a higher content of hydrocarbons, and its boiling point is lower. This is necessary so that at subzero temperatures it effectively explodes in the combustion chamber of the engine. This fuel is mainly sold in the northern regions of Russia, and in the southern regions it appears at gas stations in late autumn and does not disappear until early spring.

Conclusion

Now you know what gasoline is made from, and, most importantly, how. Oil has been and remains the main raw material for the production of fuel, so mankind’s need for it is now simply enormous. So far, there are no serious (except for uranium) competitors among energy resources that could compete with oil. As for the gasoline itself, it is being improved every year, which affects the resistance to detonation. Car engines are also being improved, and today there are engines running on gasoline with an octane rating of 100 and 102. However, the bulk of modern engines consume AI-92 fuel (older power plants) or AI-95 (new), but many new cars are equipped with engines that work better with AI-98 gasoline.