SU1006876A1 - Air preheater - Google Patents

Abstract

1. AIR HEATER containing a radiation heat exchanger connected to a low-pressure fan, located around the combustion chamber and a tubular convective-radiation heat exchanger, characterized in that, in order to enhance heat exchange, the radiation heat exchanger is made in the form of truncated sectors uniformly placed around the body in the area of the heat exchange, and in a heat exchange, heat exchanger is arranged in the form of uniformly circumferentially truncated sectors in the region of the heat exchanger. The pipes of the convection heat exchanger are located. 2. Air heater according to claim 1, characterized in that the tubes of the convective-radiation heat exchanger are provided with band swirlers. 3. Air heater on PP. I and 2, characterized in that the pipes of the convection-heat exchanger are made with a total passage section of 10-15 / o of the passage section of the combustion chamber. l O5 00 O)

Description

The invention relates to devices for heating air intended for technological drying, heating of construction objects during interior finishing works, heating agricultural and production premises and other non-residential premises.

A known air heater comprising a radiation heat exchanger connected to a low-pressure fan, located around the combustion chamber and a tubular convective-radiation heat exchanger 1.

The disadvantage of such an air preheater is that in it the process of convective heat exchange in the blowing area of the furnace chamber is not sufficiently effective due to the relatively weak component of turbulent transfer in convective heat exchange during the blowing along the cylindrical furnace chamber.

The purpose of the invention is to intensify

heat exchange.

This goal is achieved by the fact that in an air heater containing a radiation heat exchanger connected to a low-pressure fan, located around the combustion chamber and a tubular convective-radiation heat exchanger, the radiation heat exchanger is made in the form of truncated sectors uniformly placed around the circumference, between which are located the convection-radiation pipes heat exchanger.

Moreover, the convective-radiation heat exchanger pipes can be equipped with ribbon swirlers.

In addition, the optimal total bore of the convection-radiation heat exchanger tubes should be 10-15% of the bore of the combustion chamber.

FIG. 1 depicts the described air heater, general view; in fig. 2 shows section A-A in FIG. I.

The air heater contains a radiation heat exchanger connected to a low-pressure fan located around the combustion chamber 2 and a tubular convective-radiation heat exchanger 3.

Radiation heat exchanger 4 is made in the form of truncated sectors evenly placed around the circumference, in the intervals between which pipes 5 of the convective-radiation heat exchanger 3 are located.

The convection-radiation heat exchanger tubes 3 are equipped with belt swirlers 5 and are made with a total flow cross-section of 10-15 ° / o flow cross-section of the combustion chamber 2.

In addition, the air heater contains a fan 6 and a burner device 7 located in the combustion chamber 2.

The air heater works as follows.

Air from the fan 6 is supplied for combustion to the burner 7 of the combustion chamber 2. The hot gases from the combustion chamber 2 enter the annular space of the convective-radiation heat exchanger 3, and then into the gas flue.

The air flow is fed from the low-pressure fan 1 to the radiation heat exchanger 4, where it is heated in it to 45-65 ° C, and to the tubes of the convective-radiation heat exchanger 3, where the air is heated to 250-350 ° C. At the exit of the heat exchanger 4 and 3, the heated air is mixed, equalize the temperature and served to the consumer.

When placed in the heat exchanger tubes 3 belt swirlers 5 achieve effective heat exchange by twisting the air flow and increasing the speed of blowing heated surfaces. Swirlers are active airflow turbulizers.

To ensure an optimal heat transfer coefficient from the flue gases to the pipe walls and to organize a rational mode of fuel combustion, the speed of the flue gases between the pipes is maintained at 25-30 m / s, and the convective-radiation heat exchanger pipes are made with a total passage section of 10-15% section of the combustion chamber.

Claims (3)

D. AIR HEATER containing a radiation heat exchanger connected to a low-pressure fan, located around the combustion chamber and a tubular convective-radiation heat exchanger, characterized in that, in order to intensify heat transfer, the radiation heat exchanger is made in the form of truncated sectors evenly spaced around the circumference, between which Convection-radiation heat exchanger pipes are located. 2. Air heater according to π. 1, characterized in that the convection-radiation heat exchanger tubes are equipped with tape swirlers. 3. The air heater according to paragraphs. 1 and 2, characterized in that the pipes are convective ·. the radiation heat exchanger is made with a total flow area of 10-15% of the flow area of the combustion chamber. e