SU61898A1 - Burner device for burning fuel in pulverulent state - Google Patents

Description

This invention relates to in-line devices for burning fuel in a pulverized state.

Known combustion devices for - burning fuel in a pulverized state, contain a combustion chamber divided by width by longitudinal partitions.

The combustion of pulverized fuel in such devices cannot be considered satisfactory, since The thermal stresses of volume achieved in them are very low, as a result of which such dust-burning furnaces are cumbersome, expensive and insufficiently economical. In addition, they need protection of the bricking surfaces of the screens, which complicates the device and leads to frequent accidents.

The study of combustion processes has shown that fuel ignition, i.e. This preparatory stage during which heating, gasification and mixing of the fuel with

with oxygen. This stage is most difficult to organize in order to get complete and intense burning.

The aim of the invention is to create such a combustion device in which economical and trouble-free operation would be ensured with high thermal load and intense burning.

The essence of the invention is that in the combustion device in its internal cavity nozzles are installed in the transverse direction to the flare, filling the combustion chamber and blocking it from above

It is advisable to make these nozzles in the form of ceramic pipes located in at least one row.

Fig, I shows the proposed furnace device, a front view in section; in fig. 2 - something not, side view in section.

In the furnace device, the dusty air stream after exiting the nozzle I gets into separate chambers, closed on three sides; with lateral dividing longitudinal partitions 2 or one of dividing longitudinal partitions 2 and wall 3 of lining, and from the bottom - a bottom i-. On top of the chamber are closed rows of hollow refractory tubes 5, made of ceramic. This contributes to the reduction of the radiation coefficient of the combustion chamber on the radar surface of the boiler, and, consequently, increases the average temperature in the combustion chamber.

The use of refractories having a high catalytic capacity, for example, alumina concrete filled with chromite, both for plastering wall 3 of brickings and partitions 2, and for making ceramic pipes 5, and using the impact of a gas-air flow on a hot ceramic surface will make it possible to reduce excess air burning chamber. This will significantly increase the temperature in the combustion space.

The molten ash is caught by the lining walls 3, as well as by the ceramic pipes 5 and flows down into the trays 6 that have a slope for the slag flow.

In the description, an embodiment of the dust firebox under

steam boiler. A V-shaped torch is received, which enters the space bounded by partitions 2 and wall 3 of the brickwork, and on top is ceramic pipes 5 along which the upper contour of the torch slides.

On the torch trajectory, in its upper part, a nozzle is installed in the form of a ceramic pipe 7, about which the flow is struck, the following similar pipes 7 and 7 are located lower, crossing the flow. All the pipes mentioned are installed between the partitions 2 or between the partitions and the wall 3 of the brickwork.

At the meeting of the flow with the pipes 7, 7 and 7, its ignition occurs. The resulting combustion process contributes to the expansion of the preparatory stage in the arid part of the torch.

When lifting, the torch again encounters a group of hollow ceramic tubes 8, which contribute to the burning of the fuel and trapping the ash deposited on their surface. It is assumed that by the time the torch rises, the solid particles of fuel burn out completely and the torch trajectory is chosen accordingly.

Before admitting dust, the firebox heats up on gas or liquid fuel.

The upper rows of tubes 5 protect the flame from radiation to the radiation surface of the boiler.

Optimum conditions for the heating of ceramic tubes 5, 7, 7, 7, 8 are removed empirically, while the wafers ensure minimal separation of fuel particles.

The proposed combustion device contributes to the intensification of the combustion process, which causes a decrease in operating costs, and also contributes to a decrease in excess air and, consequently, losses with flue gases, to build a boiler surface and increase heat transfer.

SUBJECT OF INVENTION

Claims (2)

1. A heating device for burning a fuel in a pulverized state, in which the furnace chamber is divided in width by longitudinal partitions, characterized in that nozzles are installed in the internal cavity of the furnace in the transverse direction to the torch, filling the top of the mount chamber above it to increase the intensity burning process 2. A heating device according to claim I, characterized in that the nozzles are ceramic tubes arranged in at least one row.