CS215304B1 - Fluid-fired ash cooler - Google Patents

Abstract

The invention solves the problem of effective cooling of hot ash particles from the fluidized bed during the combustion of solid fuels and waste in fluidized beds with the possibility of utilizing waste heat energy. The essence of the invention is that when hot ash particles are discharged from the fluidized bed, these particles pass through a cooled ash chute, which has protrusions arranged in a spiral in its space, reaching up to the axis of the chute. Due to the arrangement of the protrusions, during the flow of hot particles, both the particles from the axial space are mixed with particles from the peripheral space of the chute, and the particles in the axial space of the chute are cooled directly by their contact with the cooled protrusions.

Description

FIELD OF THE INVENTION The present invention relates to an ash cooler discharged from a fluidized bed, particularly in the combustion of high-ash fuels.

In the combustion of high-ash fuels in single-stage and two-stage fluidized bed fireplaces, a significant portion of the ash leaves in the form of hot particles having a fluidized bed temperature in the range of 800 to 950 ° C with a grain size of 1 to 5 mm. These particles, when water-cooled in wet ash systems, require costly and complex hydraulic transport and, if additive flue gas desulfurization is used, create additional difficulties in their transport and storage.

Especially in boiler units of small and medium capacity, it is advisable to use dry methods of ash cooling with the possibility of using its mechanical transport. When burning high-ash coal, the question of utilizing the thermal energy of the hot particles of the fluidized bed and thus increasing the efficiency of the boiler unit comes into consideration.

The dry ash coolers used hitherto are designed in the form of dense tube bundles with a relatively small free area and in the case of the formation of clinker sinters in the fluidized bed, these coolers become clogged and put out of operation very quickly. When using loose downpipes with a duplicator wall, only the ash particles at the downpipes wall are cooled and the particles in the axial space remain hot.

These drawbacks are overcome by the cooler according to the invention, which is based on the fact that cooled protrusions are provided on the cooled ash ducts, protruding into the inner space of the ash duct and are arranged on its surface in a helix.

The advantage of the device according to the invention is, on the one hand, its manufacturing and operating simplicity, as well as cooling of ash particles also in the axial space of the downcomer, and secondly as the ash particles pass through the downcomer. The location of the cooled projections in the helix then allows the sintered seals to pass through the cross-section of the downcomer. Furthermore, the entire ash cooler can be connected to the boiler pressure system circuit.

An embodiment of the device according to the invention is shown in Figures 1 and 2; FIG. 1 is a cross-sectional view; and FIG. 2 is a plan view of the heat sink. i ₍

The ash feeder 1 with the projections 2 is provided with flanges 3 at its ends and has a duplicator jacket 4 into which the tubes 5 are connected.

The annular space between the two cylinders 1 and 4 is filled with water supplied and discharged by the pipes 5. The ash particles flow vertically through the space of the ash ducts 1 and transfer their heat to the water in the annular space between the cylinders 1 and 4.

The invention can be applied to single-stage and two-stage fluidized bed fireplaces for cooling ash particles discharged from the fluidized bed at its operating temperature of 800 to 950 ° C, without exposing the shut-off and conveying devices to this high temperature.

Claims (1)

SUBJECT A fluidized bed ash cooler, characterized in that it comprises cooled projections (2) formed on the cooled ash ducts (1j), projecting into the interior space of the ash ducts (1), which are arranged in a helix on its surface.