SU1746025A1 - Method of internal combustion engine operation - Google Patents

Abstract

Usage: the invention relates to internal combustion engines, in particular to methods of operating engines with a thermochemical conversion of a part of the fuel. SUMMARY OF THE INVENTION: According to the method, the first batch of fuel is injected into the cylinder 1 at the end of expansion before combustion, and the second batch of fuel is injected at the end of the charge compression. The release of gases from the cylinder is carried out in two separate phases. The first one is started after the piston 2 reaches the bottom dead center, through the valve 5 this part of the gases is directed to the receiver 10, which is then fed to the cylinder during the intake stroke. The first phase is completed when the pressure in the receiver is above the pressure in the cylinder. The second phase begins after the completion of the first, through the valve 6, the exhaust gases from cylinder 1 are released into the atmosphere. 1 il. 736 w e aa o nd sp

Description

The invention relates to internal combustion engines, in particular to methods for operating engines with a thermochemical conversion of a part of the fuel.

There is a method of operating an internal combustion engine in which a portion of the fuel into the cylinder is transmitted in steps or two times during compression (or compression and inlet) 1.

The disadvantage of this method is that it does not allow the use of that part of the heat that is carried away with the exhaust gases.

There is also known a method of operating an internal combustion engine by injecting into a cylinder of charge, compressing it, injecting it into a cylinder of fuel by two portions, burning fuel, expanding combustion products by converting their energy into reciprocating movements of the piston between upper and lower dead points and exhausting exhaust gas, the first portion of fuel is supplied at the expansion stroke, and the second at the end of the compression stroke, the first part being fed to the combustion products, which are separated from the piston section of the combustion chamber in the evaporation chamber 2.

However, the implementation of this method does not allow to achieve the use of exhaust heat in order to improve the fuel efficiency of the engine. According to this method, the evaporation chamber is connected to the cylinder for a period of time from the end of the compression stroke to the middle of the expansion stroke, therefore, the most valuable working medium that performs useful work is taken out into the evaporation chamber for heat treatment of the first part of the fuel. The selection of even a small part of the working body together with increased heat losses through the developed surfaces of the two chambers and hydraulic losses when flowing through a narrow channel will lead to a loss of work efficiency and, consequently, to an increase in fuel consumption.

The aim of the invention is to increase the efficiency of the internal combustion engine.

The goal is achieved by the method of operating an internal combustion engine by lowering the charge cylinder, compressing it, injecting fuel into the cylinder in two portions, burning the fuel, expanding the combustion products to convert their energy into reciprocating piston between the upper and lower dead. points and exhaust, with the first portion of the fuel before burning

is injected into the combustion products at the end of their expansion, and the second portion of fuel is injected at the end of the charge compression, gases are released from the cylinder

Two separate phases, the first of which begin after the piston reaches the bottom dead center, are produced in the receiver and terminated when the pressure in the receiver exceeds the pressure in the cylinder. the intake gases into the cylinder, and the second phase begins after the completion of the first.

The drawing shows a diagram of the internal combustion engine that implements the proposed method.

5 The engine includes a cylinder 1 in which a piston 2 is placed, reciprocating between upper dead center and lower dead center. The cylinder is provided with a lid 3,

In which the intake valve 4 is installed, the exhaust valves 5 and 6 and the nozzle 7. The latter is connected to the fuel pump 8, which provides fuel injection in two portions. The exhaust port, closed by valve 5, is connected by a pipe 9 to a receiver 10, which is connected via pipe 11 to an intake system of the engine.

When the piston moves to the bottom dead center, the expansion stroke is not at the end

0 strokes into cylinder 1 by the fuel pump 8 through the nozzle 7 feed the first batch of fuel, which under high temperatures enters endothermic reactions with carbon dioxide and water vapor contained in the combustion products of the fuel. In the course of this reaction, heat is absorbed, which is equal to the thermal effect of the reaction, and a new fuel is formed, the main combustible components of which are CO and Ha.

0 The calorific value of the converted fuel is higher than the calorific value of the original fuel by the magnitude of the thermal effect of the reaction. Since the thermal effect of the reaction is provided by

5 low-grade heat of combustion products, since the fuel is injected at the end of the expansion stroke, when the energy of the expanding gases is converted into the forward movement of the piston (in the traditional way of working at the end of the expansion stroke, the exhaust valve is opened to remove the exhaust gas from the cylinder) by absorbing it during thermo chemical reactions and converting the converted fuel to internal energy.

When the piston 2 reaches the bottom dead center, the first exhaust phase is carried out, for which the exhaust to the ap 5 is opened, the converted fuel from the cylinder 1 begins to flow in the mixture with the exhaust gases through the pipe 9 into the receiver 10 and then at the intake stroke through the pipe 11 engine cylinder. The exhaust valve 5 is closed when the pressure in the receiver is above the pressure in the cylinder. Since the fuel is injected into the volume of combustion products adjacent to the lid 3, this volume of exhaust gases will first be removed from cylinder 1. Therefore, over a period of time during which valve 5 will open, the converted fuel in the mixture will come out of the cylinder. with combustion products.

After the completion of the first release phase, the second phase is carried out, for which the exhaust valve b is opened and the exhaust gases from the cylinder 1 are removed to the atmosphere at the discharge stroke when the piston 2 moves to the upper dead center.

During the intake stroke, fresh air and converted fuel enter the cylinder through the open intake valve 4. In the subsequent stroke, the mixture of fresh air and converted fuel is compressed, and at the end of this stroke the fuel pump 8 is fed through the nozzle 7 to a second batch of fuel. leads to the combustion of the converted fuel.

During combustion, the converted fuel is released and the heat recovered in previous cycles during thermochemical reactions of the conversion of the original hydrocarbon fuel in the combustion products is converted into useful work. Consequently, a thermodynamic improvement of the cycle is carried out by heat recovery, followed by its transformation into useful work. At the next cycle, a working stroke is performed, and then the cycle is repeated again.

When conducting thermochemical 5 fuel reactions with combustion products in the cylinder at the end of the expansion stroke, temperature conditions are provided for the greatest amount of fuel that can react with the spent

Claims (1)

0 gases, which increases the amount of heat returned to the working cycle. In addition, the replacement of a part of the liquid fuel with its conversion products improves the process of burning out of the liquid fuel due to the presence of active gaseous combustible materials in the converted fuel, Na, CO, etc., which also contributes to an increase in fuel efficiency. Claims The method of operation of the engine internal 0 combustion by intake into the cylinder of charge, its compression, injection into the cylinder of fuel by two portions, combustion of fuel, expansion of combustion products with the conversion of their energy into reciprocating 5, the movement of the piston between the upper and lower dead points and the production of exhaust gases, with the first portion of the fuel being injected into the combustion products before combustion at the end of their expansion, and the injection The second portion of the fuel is produced at the end of the charge compression, characterized in that, in order to increase efficiency, the gases are released from the cylinder in two separate phases, the first of which 5 begin when the piston reaches the bottom dead center, is produced in the receiver and is completed when the receiver pressure is above the pressure in the cylinder, gases are injected into the cylinder, and the second phase is started 0 after completing the first.