SU17185A1 - Horizontal Chamber Furnace for Gas and Coke - Google Patents

Description

The method of maintaining heating in horizontal chamber furnaces for the production of gas and coke in gas, its time, first of all, is determined by the desire for the greatest possible extraction of by-products, and since the gases constantly move up along the hot walls, It is very important that the temperature decreases from the bottom to the top. The method of heating with a decrease in the amount of heat, in spite of the favorable device for the extraction of by-products, does not correspond to the need of heat for the charge contained in the chamber, which again depends on its quantity. Since, until now, the vertical section of ar represents a rectangle, f its upper parts receive less heat per unit of time than the lower parts, and this incorrect ratio increases with the increasing height of the chamber. Since the coking in the furnace is determined worst of all by the heating of the loading places, the lower parts

coked masses experience overheating, under the action of which coke acquires unpleasant properties (difficult burning), and also increases, in general, the coking time.

In the chamber chamber proposed for eliminating this drawback, the chambers are given a correspondingly reducing (musche, pxu amount of tapering cross section; coking

The drawing shows a vertical section of the furnace chamber and heating passages ..

The furnace chamber a normally consists of heating walls J, which are subdivided into separate heating passages, each of which is supplied with gas and air in the required quantity; the air in this case comes from the regenerator with through the channels d, while the gas is supplied through pipeline e and the nozzle /. Burnt gauze flows through hole g into the upper horizontal channel A, c. by which they accumulate and retract; Holes g are used to observe the heating paths and to make repairs.

The kiln chambers in cross section are tapered upwards in such a way that the bricks forming the chamber walls are laid in steps that hang down into the chamber. As a result, the tupe section and the amount of loading in the chamber are reduced, so that at least an approximate correspondence with the increasing amount of heat of the gases Hbix heating up the heating passages is achieved. At the same time, the expansion of the heating passages in the upward direction is achieved, whereby the speed of movement of the ascending, burning gases decreases and, accordingly, a large vortex formation is achieved, which improves the return of excess heat. The walls of the furnace have a conical shape in plan, and the surfaces of the heating walls, therefore, are not parallel in horizontal section. The arrangement of the horizontal channel h in the larger wall of the chamber next to the gas Ach space allows the entire wall to be erected from rectangular bricks without the need for a complex passage from the conical in horizontal section of the wall to having a parallel lateral surface to the horizontal channel; At the same time, this makes it possible to obtain seams k running parallel to the plane of the chamber walls, giving good insulation preventing heat transfer.

The subject of the patent.

- 1. Horizontal chamber furnace for producing gas and coke with chambers heated by upward flow

fiery gases in the heating passages of the furnace, characterized in that, in order to shorten the time; saping and adding: more uniform heating of the upper and lower parts of the load, the coking chambers are gradually tapering from the top, due to the simultaneous expansion of the sides located chambers of the heating courses.

2. The form of the furnace mentioned in p. 1, which is characterized by the fact that the bricks forming the walls of the chamber are laid in the form of a step hanging in the chamber in order to obtain a corresponding widening upward of the heating passages between the chambers.

3. In the case of a chamber furnace, referred to in paragraph 1, the use of rectangular bricks for masonry of the side walls of the upper horizontal shell, in order to obtain seams parallel to the walls of the chamber, preventing heat transfer.