JPS6176747A - Method of supplying emulsion fuel added with oxygen into internal combustion engine - Google Patents

Abstract

PURPOSE:To aim at enhancing the thermal efficiency of an engine and at preventing air-pollution, by providing such a method that condensate is continuously emulsified together with fuel oil in a line mixer while fuel is added with condensate together with oxygen. CONSTITUTION:A fuel in a fuel tank 1 which is pressurized by a booster pump 3 is mixed with water added with oxygen, is emulsified in an emulsion mixer 4, and is thereafter fed into an engine 6 from a fuel injection pump 5. Water vapor in exhaust gas is cooled down and liquefied in a condenser 9, and the thus obtained condensate is reserved in a watertank 13. A water pump 14 which receives a signal from a transmitting type flowmeter 2 and charges water in a necessary amount into the emulsion mixer 4. Meanwhile a control valve 24 which receives a signal from the transmitting type flowmeter 2 charges oxygen in an amount proportional to the amount of fuel into the emulsion mixer 4. With this arrangement emulsion combustion may be effected to aim at enhancing the thermal efficiency and at preventing air-pollution.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method for supplying oxygenated emulsion fuel to an internal combustion engine.

(Prior Art) Emulsion fuel is generally a fuel oil (light oil, heavy oil, etc.) in which a predetermined ratio of water is evenly dispersed as minute water droplets, but there are no particular methods for supplying such emulsion fuel to internal combustion engines. This can be seen in JP-A No. 58-126457, JP-A-51-158923, and JP-A-54-54739.

(Problem to be solved by the invention) Normally, since air is used for combustion in internal combustion engines, 79% of the nitrogen in the air is converted into nitrogen oxides (NO) in the exhaust gas.
x), and many other carbon oxides (CO), hydrocarbons (HC), etc. are the cause of automobile pollution.

In this respect, combustion using the emulsion fuel described above produces a small amount of nitrogen oxides, and can be expected to improve engine output due to complete combustion.

However, during engine operation, the amount of fuel injected is greater than the amount of air, and the generation of soot, carbon oxide, and nitrogen oxides is unavoidable.

Also, when burning an emulsion, water is added to the fuel to
Although it is only 25%, water replenishment is often interrupted during operation, making water replenishment one of the bottlenecks.

(Means for Solving the Problems) Therefore, the technical aspect 3Q of the present invention is 1. To provide a method for supplying emulsion fuel to an internal combustion engine, which generates less pollutants and is easy to replenish water. The technical means of the present invention to solve this technical problem is to cool the water vapor in the exhaust gas of an internal combustion engine and liquefy the condensed water, which is then added to fuel oil along with oxygen while proportionally controlling the amount of fuel oil consumed. It is characterized in that it is continuously emulsified together with fuel oil in a line mixer and supplied to the internal combustion engine.

(Results of the Invention) According to the present invention, since oxygen is added in addition to water to fuel oil, there is no shortage of oxygen for emulsion combustion, and therefore C+1/20. ,==
CO+29400 No carbon monoxide is generated due to Kcal/Kmol reaction, C+ O2= C○2+978
Carbon dioxide is produced by the reaction of 00 Kca17 Kmor, the calorific value is large, and the combustion efficiency is improved.

Also, since the amount of air can be reduced by adding 0.1 to 20% by volume of oxygen, N + O = 2 NO + 21600Kcal /K due to nitrogen in the air
The reaction of mo1NO+ 1/2 0□=N O2 can suppress the generation of nitrogen oxides.

Furthermore, it is preferable that the amount of condensed water added to the fuel oil is 5 to 25% by volume based on the fuel oil volume. It is rapidly overheated by ultrasonic vibrations and instantly explodes and vaporizes into water vapor.

At this time, the fuel also receives radiant heat and ultrasonic vibration at the same time.
．． It foams quickly and is easily atomized, allowing it to mix and react with oxygen sufficiently, resulting in good combustion.

Water vapor under high temperature and pressure generates hydrogen and oxygen through the reaction HO''H+1/20 2 ← 2 , but carbon in the fuel is converted to water vapor by the reaction C÷HO= CO+ H-28800Kcal /K.
mo1CO+ O20= C,02+ H2-1010
It is possible to cause a reaction of 0 Kcal/Kmol and suppress the generation of -carbon oxide.

Therefore, it is possible to perform emulsion combustion in all types of internal combustion engines such as ships and vehicles, which significantly reduce pollutants.

In addition, since it uses condensed water that is liquefied by cooling the water vapor in the exhaust gas of an internal combustion engine, there is no need to constantly replenish water (this eliminates the drawbacks of conventional replenishment systems). .

In addition, as a method of utilizing condensed water from exhaust gas,
728 and Utility Model Application No. 48-45009, etc., but in both cases, emulsion combustion is not the problem, and condensed water is obtained from a part of the exhaust gas and mist is generated in the intake section of the engine. However, unlike the present invention, all of the exhaust gas is not effectively utilized.

(Example) Fuel oil is piped from the fuel tank (1) to the pipes (17) (18)
(19), strainer (16), outgoing flow M needle (2)
It is sent via a booster pump (3) to an emulsion mixer (4) where it is emulsified and passed through a tube (20
) to the fuel injection pump (5), and excess emulsion fuel is returned to the pipe (18) via the relief valve (7) in the pipes (21) and (22). There is.

Therefore booster pump (3), emulsion mixer (4), fuel injection pump (5), relief valve (7)
constitutes one circulation circuit.

Exhaust gas from the engine (6) passes through the exhaust gas pipe (8) and is guided to the condenser (9), where water vapor in the exhaust gas is converted into drain, and the drain is passed through the water conduit pipe (12) to the water tank (13).
) and is used again as engine additive water by the water injection pump (14), forming a circulation circuit.

Furthermore, the oxygen generated by the oxygen generator (15) is transferred to the pipe (2).
5), it is sent to the emulsion mixer (4) via the oxygen control valve (24).

Now, the fuel reading in the fuel tank (1) is from the transmitting flowmeter (2).
After being pressurized via the booster pump (3) and emulsified by mixing with oxygenated water in the emulsion mixer (4), the excess water is supplied to the engine (6) from the injection pump (5). returns to the booster pump (3) via the relief valve (7).

The gas discharged from the engine through combustion is led to the condenser (9) through the exhaust gas pipe (8), and further into the exhaust pipe (8).
10) released into the atmosphere.

? When the water vapor in the exhaust gas is cooled and liquefied by passing air, seawater, water, or a refrigerant through the refrigerant passage (11) provided in the exhaust gas generator (9), the drain water passes through the water conduit pipe (12) and flows into the water tank (13). It is stored.

The water pump (14) receives the signal from the transmitting flow meter (2) and injects the required amount of water into the emulsion mixer (4).

On the other hand, oxygen is injected into the emulsion mixer (4) by a control valve (24) in proportion to the amount of fuel oil in response to the signal from the transmitter ei and the meter (2).

According to the present invention, emulsion combustion can be carried out in mobile engines such as vehicles and ships, which greatly improves thermal efficiency and prevents pollution.

[Brief explanation of drawings]

The drawing is a schematic perspective view of an apparatus for carrying out the method of the invention. (1)... Fuel tank (2)... Transmission flow meter (3)... Booster pump (4)... Mixer (5)... Injection pump (6)... ... Engine (7) ... Relief valve (8) ... Exhaust gas pipe (9) ... Condenser (10) ... Exhaust pipe (II) ... Refrigerant passage ( 12) Water pipe (13) Water tank (14) Water pump (15) Oxygen generator

Claims (1)

[Claims] Condensed water, which is obtained by cooling water vapor in the exhaust gas of an internal combustion engine and liquefied, is added to fuel oil along with oxygen under proportional control according to its consumption, and is continuously emulsified with fuel oil in a line mixer. A method for supplying oxygen-added emulsion fuel to an internal combustion engine, the method comprising supplying oxygen-added emulsion fuel to an internal combustion engine.