SU1605087A1 - Gas-distributing grate - Google Patents

Abstract

The invention can be used for burning solid fuels in hot-water boilers of a fluidized bed. The purpose of the invention is to expand the range of adjustment for heat output. This goal is implemented as follows. In order to increase the heat removal from the layer while increasing the heating capacity of the furnace, the central parts 7 of the cooled pipes 1 are introduced into the fluidized bed, while the heating surface in the layer increases and the temperature of the layer decreases. When the thermal performance decreases and, consequently, the temperature of the fluidized bed decreases, the central parts 7 of the cooled tubes 1 are removed from the fluidized bed. Thus, due to the change in the size of the heating surface in the layer, it is possible to maintain the temperature of the layer within specified limits when changing the load, not exceeding the melting point of the ash while increasing the heat output and not decreasing the layer temperature below its extinction temperature. 1 hp f-ly, 2 ill.

Description

The invention relates to the field of heat energy, and can be used in devices for burning solid fuel in hot water boilers.

The purpose of the invention is to expand the range of control over heat output.

FIG. 1 shows a gas distribution valve; in fig. 2 is a section A-A in FIG. T.

The gas distribution grid contains cooled pipes 1 of a triangular cross section, with bases 2 fastened to the edges of adjacent sheets 3, made with perforations 4, arranged relative to each other with gaps 5. Each pipe 1 is made of peripheral b and 7 central parts, the last of which installed with the possibility of vertical movement relative to the first. The gas distribution grid can be equipped with a device for fixing the position of moving parts (driven). Said device consists of beams 8 connected to central parts of 7 pipes 1. Beams 8 are installed on cams 9 coaxially fixed on shafts 10. Shafts 10 are connected to a gearbox and a motor (not shown). The drive motor is connected to the temperature sensor 11 via the control system (not shown).

The lattice works as follows.

In the space bounded by the tubes 1 above the grate, with a certain flow of air through the grate, a fluidized bed of burning particles is created. With an increase in the heat output of the furnace, the growth of heat release in the bed exceeds the growth of heating surfaces located in the bed, due to which an increase in the temperature of the fluidized bed is observed. The temperature sensor 11 detects an increase in the temperature of the fluidized bed and gives

signal to the control system, which provides the necessary duration of drive operation. In this case, the drive shafts 10 are set to the required angle of rotation and ensure that the cams 9 are set to the required position. The cams 9 raise the beams 8 with parts of 7 pipes 1, as a result of which parts 7 are introduced into the fluidized bed. The heating surface in the bed increases,

When the layer gets warm, its temperature decreases.

With a decrease in the heat output of the furnace, the layer temperature for the same reasons decreases. Sensor 11 sends both

This signal is in the control system, which ensures the lowering of the central parts 7 of the pipe 1 and the reduction of the surface heating in the layer. Thus, due to the change in the size of the heating surface in

layer, it is possible to keep the bed temperature within specified limits when changing the load, not exceeding the ash melting point with an increase in the heat output and not

reducing the temperature of the bed below its extinction temperature.

Claims (2)

1. Gas distribution grid, containing cooled tubes of triangular cross-section, with bases bonded to perforated edges of two adjacent sheets, which are located relative to each other with gaps. so that, in order to expand the range of control over the heat output, each pipe is made of a composite of peripheral and central parts, the last of which is installed with the possibility of vertical movement relative to the first. 2. Lattice pop. 1, characterized in that it is provided with a device for fixing the position of moving parts. / I A FIG. 2