DE610747C - Coking furnace for briquette - Google Patents

Description

Coking furnace for briquette The briquette obtained from lean coals give off a gas during the heating in the absence of air, which a lot of dust and a Little usable tar, but apart from that, hardly any more recently Ammonia to be processed does not contain any valuable by-products.

The present invention now proposes a furnace in which the coking of lean coal briquettes on the extraction of the contained in the gases By-products are dispensed with and the gas produced in the chambers as in the old flame furnace is introduced directly into the heating devices of the furnace. With regard to the avoidance of large fall heights is a furnace with continuous for briquette coking or intermittent vertical chambers. According to the invention becomes a coking furnace with vertical chambers suitable for flame furnace operation and horizontal heating flues proposed, in which the arising in the furnace chambers Gases immediately, e.g. B. from the upper gas collecting space, into vertical distribution channels reach, which are located on the front sides of the chambers, and from these distribution channels from the. individual horizontal heating flues can be regulated. To be in the horizontal longitudinal extension no irregularities with regard to the heat dissipation To create the chamber contents, the horizontal heating flues can be used in a well-known manner Way in the vertical direction can be operated in opposite directions.

A furnace with such a heating method has already been proposed who has heating gas supply lines outside the furnace masonry, which, however, only allow the chambers to be heated with purified cold heating gases. The object of the invention is to use the heating gas developed directly from the chambers To use distillation gases, with the advantage that the heating flues a preheated gas is supplied, its heating power 'by the contained in it Tar fumes is still considerably increased.

According to the invention, the furnace has one or both end faces the chambers vertical distribution channels for the distillation gas to which the individual Heating flues are connected in a controllable manner. In the event that the Chambers distribution ducts are provided, half of the heating flues will be sent to one Group and the other half to the other group of the vertical distribution channels connected. The horizontal heating flues can be used as simple or as Be formed twin trains. Manifolds can be used for the burnt gases also be provided on the end faces of the chambers, while the arrangement be made so that only at the end of every second chamber a vertical Distribution channel for the gases developed during coking on the front side the intervening chambers, on the other hand, have a collecting duct for the burnt gases is available. The easiest way to supply air is from the front sides of the Rows of heating flues, the air supply to each individual heating flue must as well as the Gas supply can be regulated. Regulation can be done in a number of ways. When the air is sucked in from the outside, the inlet openings can be adjusted by means of slides be, while during the introduction of the combustion air under pressure control valves are to be installed in the branch lines leading to each individual heating cable. the Regulation of the amount of gas coming out of the vertical, on the front sides of the chambers The ducts located in each individual heating flue occur either from the outside adjustable slides in the connection openings between the distribution duct and the heating flue or by regulating the entire train when the burnt gases enter the heating flue into the chimney duct. The entry of air into the individual heating flues can also take place through nozzles, through which a stronger suction of the gas takes place. When the combustion air is supplied under pressure, it can be prior to distribution over the heating flues by cooling flues on both sides of the lowest Chamber part are arranged.

In the. Illustrations are in exemplary embodiment. a coking oven shown according to the invention, namely Fig. i shows a horizontal section through part of the furnace block according to I-I of Fig. 3.

Fig. A shows a section through the longitudinal direction of the chamber accordingly II-II- from Fig. I.

Fig.3 shows a vertical section in the longitudinal direction of a row of heating flues according to III-III of Fig. i.

Fig.q. shows a vertical section in the longitudinal direction of the furnace battery according to IV-IV of Fig. i.

On both sides of the furnace chambers a, which are so narrow along their entire height that only two briquettes have space next to each other, rows of horizontal heating flues b and similarly designed cooling channels c in the lower part are arranged. The gas resulting from the distillation passes into vertical channels d, which are arranged on the end faces of every second chamber. The distillation gas of that chamber, at the end of which there are no distribution channels, enters a continuous gas equalization channel e and is distributed over the channels assigned to the adjacent chambers. The horizontal heating flues b are connected to the channels d in such a way that, counting in the vertical direction, the first, third and fifth heating flues in the one adjacent heating flue row and the second, fourth and sixth heating flue in the other heating flue row are exposed to a flame . The combustion air is sucked in by fans f and first passed through the cooling ducts c, from which it enters vertical risers g, which run along every second front side of the heating wall and to which the b: efiammten heating flues are connected. In front of the end faces of every second chamber there are lines h which are connected to the fox i and are in communication with the ends of the heating flues; the temperature in the heating flues can be regulated by the waste heat slide s.

When operating briquette coking, it is advisable to keep the furnace in the To subdivide the height limitation regarding the heat supply into three zones, of which the uppermost zone is only used for heating or pre-coking and in which the briquette a temperature of appropriately q.50 °, but in no case more than 600 'should assume. After the briquette has remained in this pre-coking zone for at least an hour are, they should get into the finished coking zone, where they reach a final temperature should reach at least 750 °. The volatile components should be added to the briquettes can only be withdrawn except for a remainder not less than 3 ° / a, in order to reduce the weight Ensure coke combustibility. The third zone is used for cooling that to protect the fuel obtained as indirectly as possible.

Claims (1)

PATENT CLAIMS: i. Coking furnace for briquette with vertical, continuous or intermittently operated chambers and rows arranged between the chambers horizontal heating flues that receive fuel gas directly from the chambers, thereby characterized in that at one or both ends of the chambers vertical, with the interior of the chamber, for example with an upper gas collecting space (e), directly related distribution channels (d) run and the individual horizontal channels to them Heating flues are connected in a controllable manner. a. Coking furnace according to claim i with in the Altitude direction alternately in the opposite sense of flaming heat drafts, thereby marked that, in calculated in the longitudinal direction of the furnace block, only at the end of every second chamber a vertical distribution channel for the gases evolved during coking, on the end faces of those in between On the other hand, a collecting channel for the burned gases is provided to the chambers the horizontal heating flues, if necessary via a waste heat valve, connected are.