SU1116282A1 - Heat generator - Google Patents

Abstract

1. HEAT GENERATOR, comprising a housing with a side air inlet, a perforated flame tube installed in a housing with an annular gap and provided with a register and a burner, characterized in that, in order to improve efficiency when burning gaseous fuels of different composition and obtaining combustion products in a wide range temperatures, in the annular gap between the casing and the flame tube in the area of the side branch pipe there is a fixed diaphragm fitted at the inlet to the side branch pipe with a flow divider, and in the outlet zone Foot end of the flame tube in the same gap is set movable diaphragm.

Description

05 to

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2. A heat generator according to claim 1, characterized in that the flow divider is made in the form of a butterfly valve.

3. Heat generator in paragraphs. 1 and 2, characterized in that the movable diaphragm is made in the form of flat petals.

I

This invention relates to a technique for burning gaseous fuels in order to obtain a heat transfer fluid for primary plants.

Known heat generator, comprising a housing with a side pipe for supplying air, a perforated flame tube installed in a housing with an annular gap and provided with a register and a burner. In such a heat generator, when changing the composition of the gas or the load, optimal air distribution can be established by moving the slide valve 1.

A disadvantage of the known heat generator is that it does not optimally use the useful volume of the flame tube, since it combines both combustion and dilution of the flue gases to obtain a given temperature. In addition, the air distribution in this heat generator is interdependent (the primary air tray is due to the secondary and vice versa), which leads to an increase in the aerodynamic resistance of the chamber when operating at low gas temperatures. Thus, as the temperature decreases from 800 to 300 ° C (excess air increases 3 times) while maintaining the same heat output, the aerodynamic drag increases 9 times. Here, there is an uneven distribution of primary air over the area of the blade register, which significantly affects the quality of the combustion process.

The purpose of the invention is to increase the efficiency when burning gaseous fuels of different composition and to obtain combustion products in a wide temperature range.

The goal is achieved by the fact that in the heat generator, comprising a housing with a side air inlet, a perforated flame tube installed in a housing with an annular gap and equipped with a register and a burner, in the annular gap between the housing and the flame tube in the side inlet zone there is a fixed aperture, at the entrance to the side nozzle divider po4. Heat generator in PP. 1-3, which is distinguished by the fact that the heat pipe at the inlet is equipped with a balancing chamber bounded by a cylindrical shell having slotted holes.

current, and in the area of the output end of the flame tube in the same gap is set movable diaphragm.

In addition, the flow divider of the heat generator can be made in the form of a butterfly valve, the movable diaphragm in the form of flat petals, and the heat pipe at the inlet can be equipped with an equalization chamber bounded by a cylindrical shell with slotted holes.

FIG. 1 shows a diagram of the heat generator; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one.

The heat generator includes a housing 1 with

an air inlet pipe 2, an end flange 3 and a support 4. Inside the housing 1 there is a heat pipe 5 and a gas burner 6. A register 7 is located at the mouth of the burner 6. The surface of the heat pipe 5 has openings 8 for the passage of secondary air. In the area of nozzle 2, a fixed diaphragm 9 and a flow divider 10 are installed with the possibility of rotation around the axis I. The lower end of the flame tube 5 is provided with a shell 12, in which slotted holes 13 are made. At the outlet end of the flame tube 5, a movable diaphragm 14 is installed in the gap from flat segments that can be moved radially with the help of a screw drive 15 in order to change

gap width 16. Inside the cavity of the shell 12 is formed equalization chamber 17.

The heat generator works as follows.

Through pipe 2, air is supplied to the gap between the frame, the catfish 1 and the flame tube 5. The divider 10 establishes the optimum amount of air sent to the flue pipe 5 through the blade register 7. The air supply is evenly distributed by throttling it into the slit holes 13 of the balancing chamber 17. The remaining amount of air passes along the flame tube 5 to the outlet and partially through the holes 8 enters pipe 5 as secondary air. The regulation of this amount is ensured by the flat segments of the diaphragm 14, and the residual air passes through the slit 16 for mixing with the combustion products.

Gas for combustion is supplied to the burner 6. At start-up, the reliability of operation is ensured by closing the divider 10. A change

the position of the divider 10, made in the form of a butterfly valve, and the movable segments of the diaphragm 14 establish the optimum combustion mode. The useful volume of the flame tube 5 is used in the main combustion, dilution of the combustion products occurs outside of it.

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sixteen

five

Claims (4)

1. HEAT GENERATOR, comprising a housing with a lateral air supply pipe, a perforated heat pipe mounted in a housing with an annular gap and equipped with a register and a burner, characterized in that, in order to increase efficiency when burning gaseous fuels of various compositions and to obtain combustion products in a wide range temperature, in the annular gap between the housing and the flame tube in the area of the side pipe there is a fixed diaphragm equipped with a flow divider at the entrance to the side pipe, and in the exit zone end of the flame tube in the same gap mounted movable diaphragm. (L s NA O QO y. 1116282 2. Heat generator according to π. 1, characterized in that the flow divider is made in the form of a rotary damper. 3. The heat generator according to paragraphs. 1 and 2, characterized in that the movable diaphragm is made in the form of flat petals. 4. The heat generator according to paragraphs. 1-3, characterized in that the flame tube at the inlet is equipped with a surge chamber bounded by a cylindrical shell having slotted holes.