DE319052C - Waste heat recovery plant - Google Patents

Description

It is known to discharge flue gases through sheet metal pipes (furnace pipes); that `s how it is known, boiler systems with masonry, sometimes with sheet metal cladding if possible to close tightly, but it is also known that all these designs are therefore major shortcomings exhibit because it is actually due to the mostly given forms and proportions is impossible to have a really good,. poetry

ίο to get a deal. The many corners and The angles of the given constructions repeatedly give rise to bad, i.e. leaky Corner connections and, as a result, to the entry of false air. Because of this, a number of otherwise quite appropriate facilities just for the recovery of waste heat failure occurred, which even led to the removal of the systems. It is not at all surprising-

ao borrowed, considering that it was anyway very large heating surfaces are required in order to proportionately what is available in the charges to still be able to take advantage of small temperature gradients. The influence of the cold entering Air is extremely harmful to utilization, but the more harmful the lower it is from the start the temperature and the higher the negative pressure in the system. Such conditions but are mostly present in waste heat recovery plants. It is therefore clear that Facilities with claddings that are screwed together must fail in their service the moment when higher demands (e.g. due to higher negative pressure inside) like so far. The present invention seeks to remedy the difficulties by the closure of the boiler system as part of the entire pipeline to be kept tight can be executed.

It is clear that a tubular body with crimped or riveted walls made of thin sheet metal can be made just as tight as z. B. Steam boiler, and that as a result the way is paved for the use of increased induced draft.

The pipeline from the smoke duct to the vacuum cleaner and the casing of the heating system are therefore as a single pipeline, albeit of varying diameter and view changing cross-sectional shape, which is easier to manufacture due to the selected shape and is easier to hold tight. In addition, it allows several kettles to be enveloped and the placement of the channels in the communal envelope reduces the Covering parts, a reduction in the otherwise unpleasant and leaky connection points. Such a carefully executed shell made of thin sheet metal is by no means with that the dense iron casing of a furnace and the furnace tubes connected by plugging into one another To be compared, not even with the usual boiler cladding, but only with the shell of an externally stressed, very thin-walled boiler or a gas container.

The careful tight construction of the pipeline and the boiler system as a whole, as well as the internal support through the internal masonry also allows the use of very thin sheets, cheap production, so · significant economic benefits.

Fig. Ι shows the arrangement of a boiler system with 'vertical boiler i, flue gas supply duct 2, flue gas exhaust duct 3, fan or induced draft system 4, chimney 5; the all enclosing jacket 6 is provided with heat protection 20 on the inside. The connection to Boiler upper part 21 is carried out by angled ring 7, so that the jacket 6 is made completely tight can be.

Fig. 2 shows one of the arrangements, wherein the boiler wall 10 is part of the pipeline 11 forms. The arrangement could 2. B. also be reversed.

Fig. 3 shows the arrangement of two kettles in a round or any other shape Pipe 14 and the spaces for the arrangement of the boiler 12, the spaces for the flue gas ducts or superheater etc.

Fig. 3a is the same arrangement as in Fig. 3, ao only the outer sheet metal shell 14 is made flattened instead of round. - '. ■ '

Fig. 4 shows the arrangement of several boilers (here 3) in an enveloping tube 14 and the Rooms for the boiler 16, furthermore the cavities 17, which are used to guide the flue gas or to Housing the superheater can be used.

Claims (2)

Patent Claims: 1. Waste heat recovery plant working with induced draft, characterized in that that the boiler used to generate steam or its masonry casing or wall form part of a tightly executed pipeline, which serves to remove the smoke gases and from the smoke gas removal point to leads to the delivery point. 2. Waste heat recovery plant according to claim i, characterized in that the Boilers used for waste heat recovery in two or more pieces in one single casing are housed in the pipeline, for the purpose of preventing waste heat losses to diminish. 1 sheet of drawings.