DE191239C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

.- M 191239 CLASS 24 c. GROUP

JULIUS PINTSCH company in BERLIN.

hot gases emerging from the gas generator.

Patented in the German Empire from. August 17, 1906.

The present invention aims at an economically more advantageous and operationally reliable utilization fine-grained and inferior fuel for heating steam boilers and the like.

If fine-grained fuel, e.g. B. coals, or inferior fuel, such as it represent the so-called Klaube and wash mountains, burned directly on a plan grate, so

to cause the fine grain and the strong slag formation of the fuel the use of Unterwind, which brings a significant ■ percentage of the fuel unburned into the fire flues tears and thus not only removes it from combustion, but also through the subsequent deposition of the particles carried along reduces the heat transfer of the heating surfaces and therefore requires frequent cleaning of the trains power. Furthermore, by constantly cleaning the grate, it must be ensured that slag build-up does not affect the effectiveness and the efficiency of the furnace is reduced. Maintenance of the grate must be meticulous. so requires significant Costs.

In the present arrangement, these inconveniences are eliminated by the fact that the fuel not gassed on the boiler grate, but in an easy-to-use generator in which the processing of such fuels can be carried out easily and safely is.

If the heat contained in the fuel is to be used efficiently, the gases must be in the hot state as they emerge from the generator, without cooling by scrubbers and similar devices to the kettles. With bituminous This training of the system offers fuels the advantage that also with one Tar-containing gases can be worked as the tar fumes from the red-hot gases be worn so that they cannot cause constipation. Furthermore, it has a high gas temperature the advantage that the calorific value of the tar vapors is not due to their premature separation is lost for the furnace.

It now makes sense to operate the gas system according to the well-known suction gas principle and the Extract gases directly from the generator using a fan. The nature of the But fuel results in a significant pressure loss in the generator; the centrifugal fan to extract the gases would have to be operated at high peripheral speed, which the building materials of the fan do not because of the high temperature of the gas allow.

It would also be possible to connect the suction fan to the Kesselfuchs, since the Flue gases from the boiler are at a lower temperature than that coming from the generator Gas. With this arrangement, however, all boiler trains would have to go through the generator

91239

conditional high negative pressure are exposed. Because the walling of the boiler is in favor of it However, it cannot be made sufficiently tight without high costs, such an arrangement is forbidden by itself.

As a result, it has hitherto been necessary to abandon the suction gas principle in this case and to operate the generator as a compressed gas generator. The use of pressurized gas generators However, it has significant disadvantages, because i. is the grate during operation inaccessible, so the generator gear cannot be observed and slag accumulations cannot be removed in time;

2. The generator must be pulled out of the factory for deslagging, which is unpleasant Brings with it disturbances, as well as a generator reserve required and 3. can do that through Gas leaks in the pipeline can cause poisoning and explosions.

The present invention makes it possible to maintain the suction gas principle in gas firing systems with direct utilization of the hot generator gases. Achieved this is achieved by the fact that the hot generator gases pass through a built-in just in front of the boiler The jet blower can be extracted and fed directly to the fireplace of the boiler. It is essential that the suction of the gases is done by compressed air, and in the for Extraction used the amount of wind at the same time as the gases and the entrained coal dust particles the amount of air required for complete combustion is supplied with the most effective mixture. One special thing Burner does not require gas firing, as the outlet pipe of the jet fan is also used as Burner is used. The gas is only under pressure in the outlet pipe of the jet blower, the safety of the system is guaranteed in every way, as is the safety of the In operation, as the generator grate is accessible at all times. The plant is therefore used for uninterrupted Can be used continuously. The boiler masonry is also under very little negative pressure, which is even lower than with flat grate firing for normal grain fuel, as the negative pressure to suck the air through the column of fuel from the chimney cannot be achieved. The amount of air sucked in due to the leaks in the boiler is thus reduced to a fraction of the amount that occurs with conventional plan grate firing and accordingly also the heat losses caused by the cold air.

In the drawing, an exemplary embodiment for such a gas firing system is shown schematically in FIG. 1 in a side view and in FIG. 2 in a plan view. The jet fan a is arranged close to the boiler b and sucks the gases from the generator c through the pipe d in order to feed them to the fireplace e of the boiler b . The fan f generates the wind pressure required for the operation of the jet fan α.

Claims (1)

Patent claim: Gas firing with a suction gas generator for steam boilers and similar heat exchange devices for the immediate utilization of the hot gases emerging from the gas generator, marked by an in.die gas line switched on, compressed air operated jet blower, which sucks the gas% from the gas generator and thereby all or part of the combustion air is supplied to the gases. 1 sheet of drawings.