JPS5847904A - Oil burner - Google Patents

Abstract

PURPOSE:To improve a combustion temperature of liquid fuel, by forming three nozzles coaxially so as to enable to send the liquid fuel in a center nozzle, air having rich O2 in a middle nozzle and air in a circumferential nozzle. CONSTITUTION:Coaxil No.1 duct 4, No.2 duct 5 and No.3 duct 6 are formed on a main body 1 from the inside to the outside of a radiusward direction by a jet nozzle 2 and an air nozzle 3. Liquid fuel is supplied to the No.1 duct 4. Air is supplied to the No.2 duct 6 by a forced draft fan 8. Air enriched with oxygen through an oxygen enriching film 9 is supplied to the No.2 duct 5 through the No.2 duct 5 from a vaccum pump 10 and a blower 11. The air enriched with oxygen is supplied the No.2 duct 5 by absorbing the oxygen enriching film 9 by the vacuum pump 10. With this, an oil burner which is capable of burning at a high temperature is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an oil burner that performs spray combustion of liquid fuel. It is hoped that the oil-permanent system will be realized.

An object of the present invention is to provide a smoke burner capable of high temperature combustion.

FIG. 111 is a cross-sectional view of one embodiment of the present invention. Main body 1
The YcA''1, m-resistant nozzle 2 and the air nozzle 3 form a concentric %1 flow path 4, a second passage 5, and a 963 flow path 6 from the inside to the outside in the radial direction.The front of the main body 1 (Left side of the drawing) An f-[burner tile 7 is provided.The radially inner eleventh escape passage 4 is supplied with liquid fi material.

Radial inner third flow path 6vct-j push 7an 8v
Air is supplied by LL.

The 2nd tt path 5Vcrj rises through the enriched film 9, and the suction with a high oxygen concentration is sent to the vacuum pump lO and the air blower all.
It is then supplied through a second stream 5. By pulling the chlorine enriched film 9 into the true pump 101' (: therefore, the second
For example, if the oxygen concentration in the flow path 5v (rj; f: is about 35°K)
iC+ soil is supplied with air.

tW*#iFor example, even if a polymer membrane such as polydimethylsiloxane is used, and the oxygen permeability is 10
~10 (cm/cm@sec-cmHg), and a ratio of oxygen permeability to nitrogen permeability of 2 or more is suitable. Vacuum pump 1 ori, suction at 1600mmHg, air blowing 11
is supplied with air with a pressure of approximately atmospheric pressure. When air permeation begins to occur, a fraction of gas that is difficult to permeate is immediately generated in the ice recess, making it difficult to separate the ice from the air. To prevent this, k is placed on the membrane surface! You have to bring in new energy. ＾P/P 10 allows air to pass through the cough system into the armpit 9.

By subtracting it like this, the necessary flow rate can be reduced by 4, and the energy is crushed from the soft point. In order to prevent pulsation from occurring in the gas from the vacuum pump 10, a gas tank is installed, and a gas tank 1 and a nitrogen gas are placed in the flow w612.

The flow of air has been replaced by vacuum pump 10.
It can be controlled by the flow control interposed in the 1111 path 17.

A, who has been transformed into a kite d, passes through the second stream 5 and reaches the lth stream *
4 The liquid fuel of v- is ejected at its original rate, l. As a result, the sprayed liquid fuel is mixed with oxygenated air, resulting in low combustion temperature.

As described above, according to the present invention, liquid fuel is purified by oxygen enrichment means. Since the atomization is performed using air that has a temperature of 500°C, the combustion temperature of the liquid fuel is improved.

[Brief explanation of drawings]

The drawings show one curved tooth of four examples of the present invention. l... No rest, 2... Injection nozzle, 3... Air nozzle, '°, 1 4... First flow path, 5... Second flow repair, 6... 3rd ω et al., 7. Burner tile, 8... Push-in fan, 9...
・Boito Masaka gland, 10... Vacuum pump, 11... Ventilation hate agent Masu blocker Naira Kei part

Claims (1)

[Claims] In an oil burner that performs spray combustion of liquid fuel, concentric first, second, and third flow paths are formed from the inside to the outside in the radial direction, and the first flow path /C has a liquid fuel element concentration. An oil burner characterized in that air is supplied at a high temperature, and air is supplied through a flow path Krj. .