CZ285769B6 - Sectional boiler with atmospheric burner - Google Patents

Abstract

The sectional boiler with atmospheric burner for gas fuel consists of the heating space of a combustion chamber (5) with low-emission burner ducts (4) and of a sectional heat exchanger, whose transfer surface forms interphalangeal hearth flues (3). The number of burner ducts (4) is greater than the number of hearth flues (3) between the individual sections (1, 2) of the heat exchanger of the boiler.<IMAGE>

Description

The invention relates to the construction of the heating space of a gaseous fuel boiler, in particular the arrangement and distribution of low-emission burner tubes in the boiler burner itself.

BACKGROUND OF THE INVENTION

Low-emission atmospheric burners are designed to maximize combustion efficiency and to minimize harmful emissions. The prior art burner systems composed of low-emission burner tubes are designed for use in articulated boilers such that the number of such burner tubes is equal to the number of inter-conduit ducts of the heat exchanger forming its transition convection area, the heat exchanger being located above the boiler combustion chamber. This means that there is only one burner tube for each draft channel of the boiler heat exchanger.

The disadvantage of such a design is the low power ceiling of the entire plant, the high flame temperature at the nominal boiler output and the resulting higher NO * concentration in the flue gas and the reduction of the service life of the burner tubes since their utilization is often at the maximum output.

SUMMARY OF THE INVENTION

The above-mentioned shortcomings are eliminated by a cell boiler with an atmospheric gas-fuel burner, which consists of a combustion chamber with low-emission burner tubes in the heating space and a cell heat exchanger, which has a transition area formed by inter-cell draft channels. than the number of draft channels of the boiler exchanger.

The advantage of this boiler design is that the cost per 1 kW of boiler output is significantly reduced by using the same heat exchanger and other boiler equipment, since the total burner area is increased up to 92% of the floor area of the boiler combustion chamber and turbulent flow components are increased. flue gas, thereby intensifying the process of heat transfer between the flue gases through the transition surface of the boiler exchanger. As a result, the flame temperature can be lowered and, in connection with this, a reduction of NO _x in the flue gas can be achieved, thereby reducing the environmental burden. The load of the total perforation area of the burner tubes will also be reduced, which has a beneficial effect on increasing their service life.

Overview of the drawings

The drawing shows the arrangement of the boiler section exchanger with installed low-emission burner tubes.

-1 CZ 285769 B6

DETAILED DESCRIPTION OF THE INVENTION

An exemplary embodiment of the invention, according to the drawing, consists of the outer heat exchanger elements 1, the central heat exchanger elements 2, the draft channels 3, the combustion chamber 5 and the burner tubes 4. The boiler heat exchanger comprises a total of seven sections 1, 2 The entire heat exchanger is located above the combustion chamber 5, in which eight burner tubes 4 are installed.

Industrial applicability

The present invention is applicable to all types of articulated boilers with atmospheric burner for gaseous fuels, in particular for natural gas and propane.

Claims (1)

1. A boiler with an atmospheric gas-fuel burner, comprising, in a heating chamber, a combustion chamber with low-emission burner tubes and a cell heat exchanger, the transition surface of which consists of inter-cell draft channels, characterized in that the number of burner tubes (4) exceeds number of draft channels (3) of the boiler heat exchanger.