CS243410B1 - A method for stabilizing combustion in the second stage of combustion of a hybrid fluidized fire and apparatus for performing the method - Google Patents

Abstract

A method of stabilizing combustion in the second stage of combustion of a hybrid fluidized bed furnace at its partial thermal output, the essence of which is that when the temperature at the outlet of the first stage of combustion drops below the ignition temperature of the flammable gas from the first stage, combustion air is either manually or automatically supplied to the first stage of combustion so that the temperature of the gases at the outlet of the first stage of combustion is below the minimum flammability limit of the gases formed. The method can be used in the operation of hybrid fluidized bed furnaces, both newly built and already implemented by additional installation of the method and equipment.

Description

The present invention relates to a method of stabilizing combustion in a second stage combustion of a hybrid fluidized bed at its partial heat output, wherein the cooling effect of the peripheral tents of the first stage of combustion is intense and compromises the stability of the combustion process in the second stage of combustion.

Fluidized fireplaces of the hybrid type, i.e. with a partially cooled first stage of combustion, have a number of advantages over two-stage fluidized beds with ceramic walls of the first stage of combustion.

The overall two-stage fireplace equipment is substantially lighter and has more favorable properties for the flue gas desulfurization process by the dry additive method. The possibility of using gas-tight chilled walls prevents the discharge of gases and allows operation of the first stage with overpressure.

The disadvantage of this furnace is, however, a threat to the stability of combustion of the combustible gases from the first stage in the second stage, because at the partial heat output of the furnace, the combustible gases produced in the first stage mixing with secondary air does not ignite them, but instead creates an explosive mixture that can cause a serious operational accident in the combustion tract as soon as possible.

This disadvantage is overcome by the method according to the invention, which is based on the fact that when the temperature at the outlet of the first combustion stage drops below the temperature of the combustible gas from the first stage, combustion air is supplied to the first combustion stage. the ignition of the resulting gases.

In order to carry out the method according to the invention, the device consists in the fact that in the calming space of the first stage of combustion there are non-orifices of a secondary air with remotely controlled valves connected to a control member which is connected to the thermometer.

The advantage of the invention is in particular the simple provision of the necessary temperature which, when the combustible gases enter the second focus, burn them without igniting the formation of an explosive mixture. A further advantage of the invention is that it can additionally be carried out in prior art fluidized bed reactors.

An exemplary embodiment of the method according to the invention is shown in the drawing in the axial algae.

The first combustion stage 1 with the fluidized bed 6 with the fuel inlet 6 and the inlet 1 of the fluidizing air is connected to the second combustion stage 6, to which the inlet 6 of the secondary air is not confined.

At the end of the quiescent space 1, there is a thermometer 2, which is connected to a regulator 6 which controls the remotely controlled valves 6 with the transfer of air ducts.

The device operates from the moment when the thermometer 2 detects under partial fire output subcooling of flammable gas from the first combustion stage 1, eg below 700 ° C, which would not spontaneously ignite by the secondary air from the inlet 6.

at this point, the regulator opens the remotely controlled valves 4 with the combustion air nozzles 6 so that part of the combustible gases exiting the fluidized bed 2 burns and the released thermal energy causes the temperature to rise to the desired level, e.g. 700 ° C. When the desired temperature is reached, for example by increasing the heat output of the fluidized bed 6, the device is taken out of operation.

The method according to the invention can also be carried out by manually controlling the fireplace by arranging a temperature indicator in place of the regulator S.

The invention can be used in the operation of hybrid fluidic lenses, both newly built and already realized by retrofitting the method and apparatus of the invention.

Claims (2)

1. A method of stabilizing combustion in a second combustion stage of a hybrid fluidized bed fire at its partial heat output, characterized in that when the temperature m and the outlet of the first stage of combustion falls below the ignition temperature of the combustible gas from the first stage; the temperature of the gases at the outlet of the first combustion stage is kept below the minimum ignition threshold of the gases produced. 2. An apparatus for carrying out the method according to claim 1, comprising a multistage fluidized bed with a calming space, characterized in that secondary air ducts (10) from remotely controlled valves (9) connected to a control member are placed in the calming space of the first atupnS (1). (8), which is connected and thermometer (7) ·