DE3943620C2 - Solid fuel gasification heating boiler - Google Patents

Abstract

The central heating boiler arrangement has movable grate (5) and a combustion chamber (14) below it. It contains a double-skin heating tube (4).The outer tube (16) is connected to a waste gas flue (10) and a heat exchanger (11), to recover residual energy from waste gas. A hot air engine (22) and/or a gas engine, is located between the aperture of the outer flame tube, and the heat exchanger

Description

The invention relates to a solid matter ver Gasungsheizkesselanordnung according to the preamble of Main claim.

Such a boiler is known from DE 37 05 406 A1 arrangement known. In this known arrangement a high quality fuel gas is obtained, and since there are hardly any oils and tars in the exhaust gases, is a very environmentally friendly combustion create. In addition, in the known boiler exceptionally low ash, taking it an unmelted, sterile ashes in mealy condition.

DE 35 02 308 A1 describes a decentralized electricity supply by heat-power coupling with one Stirling engine known. In one of the illustrated The hot head of the Stirling engine sticks out of orders directly into the combustion chamber of the combustion oven. Here he is facing the flame or the hot gases of the burner by a heat exchanger covered and the hot gases or the Flames are first passed through the heat exchanger then sends and rinses the Stirling head. At This known arrangement is the primary heat yield through the heat exchanger and only the Residual heat benefits the Stirling engine. At a such an arrangement it can be assumed that the Stirling  Engine not operating with sufficient efficiency is driven.

In particular, this known arrangement in Ver binding with a gasification boiler as unbe recognized peacefully.

The invention is based on the task, the Ener yield and the application of the known Solid gasification boiler to expand.

This object underlying the invention will solved in that on the delivery side of the owner Lich flame tube directly the inlet of a Hot air motor is connected. That hot air Motor is then switched off without any heat exchangers charged with gases that are extraordinary Lich are hot, so that there is good energy te is possible, the exit gases from the Hot air motor are led into the heat exchanger.

An embodiment of the invention will follow explained using the drawing.

in the drawing is a solid gasification heater. Boiler shown with a subsequent heat exchanger, which has a filling shaft 12 , wherein a charging position 8 is provided above the filling shaft 12 . A pressure compensation tube 9 opens into the upper wall of the actual boiler.

A fill level controller can be seen at 21 .

Above a grate 5 , which is formed as a vibrating grate, a reaction space 6 is created, where a pilot burner 7 opens into this reaction space 6 above the grate 5 . Below the grate 5 , a combustion chamber 14 is created, at the lower end of which the ash removal 1 connects. A flame tube 4 is provided within the combustion chamber 14 and is formed from an outer flame tube 15 and an inner flame tube 16 . A support burner 2 , which is equipped with an explosion flap 3 , opens into the flame tube 4 .

At the inner flame tube 16 , an exhaust pipe socket 10 connects and the escaping combustion gases are led into a hot air motor 22 . The exhaust gases emitted by the hot air engine 22 are led to a heat exchanger 11 via a second exhaust pipe socket 10 .

With 17 secondary air supply conditions are shown in the illustration, the mouth in the area of the inlet opening of the outer flame tube 15 in the interior. These secondary air supply lines 17 can be designed in gate shape, so that entrainment of the fuel gases takes place here.

The two flame tubes 15 and 16 are arranged so that the outer flame tube 15 opens to the combustion chamber 14 , while the inner flame tube 16 is arranged within half of the outer flame tube 15 so that it opens to the outer flame tube 15 .

Inside the inner flame tube 16 , a trich ter insert 19 is provided, which is conical and tapers in the direction of flow of the gases, the outlet side being open. In the wall of this funnel insert 19 are provided Durchtrittsöffnun gen 20, wherein the sum of the passage openings 20 and the open end of Trichterein set 19 is equal to the inner surface of the inner flame tube sixteenth

In the area of the support burner 2 in front of the mouth of the inner flame tube 16 there are nozzles 18 which are used to supply a gas which supports the combustion, for example and preferably oxygen.

In summary, it can be stated that the long guidance of the fuel gases through the combustion chamber 14 , the outer flame tube 15 and the inner flame tube 16 creates three different temperature levels with possibly different air supply, so that a complete burnout of the fuel gases is brought about. The highest temperature level lies inside the inner flame tube 16 .

The first use of these exhaust gases takes place in the hot air motor 22 , and the energy still present in the exhaust gases is converted by the heat exchanger 11 .

The injector-like design of the secondary air supply lines 17 and the nozzles 18 ensures that gear can be worked with a low negative pressure in the boiler and thereby with low flow velocities, so that a quiet and clean burnout of the gases is effected.

A temperature of 600-800 ° C. prevails in the combustion chamber 14 , so that the ash falling from the grate 5 does not melt and thus remains in a flour or granular state. In the outer flame tube 15 there is a controllable temperature between 900-1000 ° C, which already causes a good burnout of the fuel gases. Finally, the highest temperature level between 1000-1600 ° C is reached in the inner flame tube 16 , so that almost all pollutants that are carried in the fuel gases can be burned out.

Claims (1)

Solid gasification boiler arrangement with a filling shaft ( 12 ) arranged above a movable grate ( 5 ), a reaction chamber ( 6 ) adjoining the filling shaft ( 12 ) above the grate ( 5 ), a combustion chamber ( 14 ) arranged below the grate ( 5 ) and a arranged within the combustion chamber ( 14 ), with a support burner ( 2 ) equipped flame tube ( 4 ), to which an exhaust pipe ( 10 ) connects and a fan sent air supply in the area of the grate ( 5 ), in the lower area of the Combustion chamber ( 14 ) and in the upper region of the reaction chamber ( 6 ), which enables a controlled fresh air supply to the various areas, the flame tube ( 4 ) from an outer tube ( 15 ) opening towards the combustion chamber ( 14 ) and an inner flame tube , Located inside the outer flame tube ( 15 ) and from the gas tube ( 10 ) connecting flame tube ( 16 ) is formed and that the outer Flame tube ( 15 ) with a secondary air supply ( 17 ) is equipped and in the area of the gas inlet side of the inner flame tube ( 16 ) nozzles ( 18 ) open, via which a support the combustion of the gas, for. As oxygen, can be supplied, with a heat exchanger ( 11 ) connecting to the exhaust pipe ( 10 ), characterized in that between the mouth of the flame tube ( 16 ) and the inlet of the heat exchanger ( 11 ) a hot-air motor ( 22 ) is switched on is.