DE138168C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

- M 138168 CLASS 24 a.

The furnace system forming the subject of the present invention, which is based on the Drawing is built into a flame tube boiler, for example, is characterized by the Association and the interaction of measures already known in detail, consisting of the arrangement of smoldering plates on the front part of the grate as well as in the supply of steam or water dust under the grate and in the supply preheated Air in a heat accumulator.

Usually several grate layers lying one behind the other are installed; of these, the grate layer located at the fire door g is replaced by an iron or other full smoldering plate c in a known manner or covered with the same, so that all the combustion air must pass through the grate sections d ef behind it. The necessary steam or water dust is introduced through the pipe i.

For the decomposition of the heavy hydrocarbons released during the degassing and gasification of the fuel, a very high temperature is required, which must be higher than the temperature prevailing in the furnace. The heavy hydrocarbons must therefore be passed through a space which has a higher temperature than prevails in the combustion chamber α. This space k is designed as a heat store by _v lining part of the flame tube behind the fire bridge with refractory bricks.

In order to achieve the largest possible contact surface for the gases passing through, the heat accumulator is exposed in a grid-like manner or through longitudinal channels with also refractory bricks so that the draft of the system does not suffer. In this space k , the lighter hydrocarbon compounds carried along initially decompose. The gases developed in the process burn here, which raises the temperature so much that the heavy hydrocarbon compounds also decompose. By burning the combustible gases resulting from this decomposition, the temperature in the heat accumulator k is increased further, so that it is considerably higher than the temperature prevailing in the combustion chamber.

The mode of operation of the furnace described is as follows:

After a sufficiently high burning layer has been created on the grates , the required amount of fuel is introduced into the combustion chamber a so that the latter forms the highest possible layer height.

The sharpest combustion naturally occurs on the rear layers of rust. As soon as the fuel lying on the rear grate surface ef has burned down a little, the coals already burnt into coke and stored on the front grate surface d are pushed onto the rear grate surfaces and the fuel stored on plate c , which has already been dried and degassed here, brought to the front grate surface d . The plate c is immediately charged again with fresh fuel. To avoid the harmful excess of air, make sure that the fuel is on the rear grate surface

only up to about 8 to ι ο cm layer height burns down.

The combustion gases created in room α enter the heat storage space k with the heavy hydrocarbon gases that have not yet decomposed, wash around the refractory bricks built there as latticework and walls and bring them to a glowing white state and to a correspondingly high temperature, whereby the heavy hydrocarbons are decomposed.

Well-preheated air passes through the duct ο at right angles to the gases and the combustible gases that have now been created are burned; this further increases the temperature in the heat storage tank.

Claims (1)

Patent claim:
Firing system with heat accumulator behind the fire bridge, characterized by the combination of a smoldering plate c covering the front part of the grate, a device for supplying steam or water dust under the grate and a device for supplying preheated air into the heat accumulator. For this purpose ι sheet of drawings.