RU2633U1 - FAST DEVICE OF DROZHKIN DESIGN - Google Patents

Abstract

1. A furnace device containing a furnace with a hearth and a screwing element, characterized in that it is equipped with air ducts under the furnace, into the screwing element it is possible to swing its working sides directly above the furnace hearth. 2. The device according to claim 1, characterized in that under the furnace is made concave in the shape of a cylinder. The device according to claim 2, characterized in that the working surface of the hearth is made with a radius greater than the swing radius of the working side of the screwing element by 5-15 mm. The device according to claim 1, characterized in that the screwing element is made in the form of two hollow frames mounted on a hollow shaft connected by its cavity to the cavity of the frames and equipped with nozzles for supplying coolant. The device according to claim 4, characterized in that the frames of the screwing element are made with a length corresponding to the length of the furnace and are rigidly mounted on the shaft at an angle to each other. The device according to claim 1, characterized in that the ducts are made in the form of pipes with radial holes oriented in the cavity of the furnace. The device according to claim 1, characterized in that the pipes are installed in the hearth of the furnace below the level of its working surface and are covered with chamotte gravel to its level.

Description

9610001). P23 87/00; F23 H 10/00

Furnace device design Drozhkina.

The invention relates to the field of heat engineering, specifically to furnace devices operating on solid fuel.

Known furnace device 1, based on the fluidized method of burning, containing a furnace, a blower fan and a hopper connected through a feeder to the inlet of the furnace, with holes made in the hearth of the furnace connected to the outlet of the blower fan.

A disadvantage of the known furnace device is

the need to use monodisperse (uniform in size) fuel, due to the difficulty of maintaining, by means of blasting, suspended fractions of different sizes of fuel above the hearth of the furnace.

The consequence of these disadvantages is a reduced (less than 20%) coefficient of performance (COP) when using polydisperse fuel in a known furnace device.

Known furnace device 2 for polydisperse fuel, contains a combustion chamber t (furnace) with a hearth, a fixed grate and a water-cooled screwing element, as well as a fuel hopper, connected to the inlet of the furnace. The grate is concave and mounted above the hearth

firebox, and a screwing element in the form of a frame rigidly fixed to the hollow shaft, the cavity of which is connected to the shaft cavity,

equipped with a nozzle for a subtype of coolant. The shaft is installed in the bearings of the furnace walls, with the possibility of swinging the lower side of the water-cooled frame above the surface of the grate and is connected to its swing drive, made in the form of a hydraulic cylinder.

The disadvantage of the prototype is the lack of efficiency2 (less than 40%), due to incomplete combustion of fuel due to the fall of small fractions of the latter in the ash pan through the holes in the grate.

The basis of the invention the task of creating a furnace

device design which allows you to increase its efficiency.

The solution to this problem is achieved by the fact that in the known furnace device containing a furnace with a hearth and a screwing element, according to the invention, there are air ducts under the furnace, and the screwing element is made to swing it

the working side directly above the hearth of the furnace. Moreover, under the furnace it is made concave, in a half cylinder. Internal

 2.

the working side of the screwing element is 5-15 mm. The screwing element is made in the form of two hollow water-cooled frames.

The introduction of these differences makes it possible to ensure in the furnace device the regime of mixed) nick and fluidized combustion of low-grade fuel with particle sizes up to 50 mm due to the integrated use of blasting, mechanical lifting and tedding of fuel particles above the furnace hearth.

At the same time, the efficiency of the combustion device when using polydisperse low-grade fuel (wood waste, brown coal, oil shale, peat or mixtures thereof) increases to 80-90% and exceeds the total efficiency from using known technical solutions 1.2 separately

Efficiency ,, Efficiency1 + Efficiency2 20% + 40% 60% Efficiency

Based on the foregoing, it can be assumed that these

above differences in technical features of the proposed furnace

devices have an inventive step.

The invention is illustrated by the figure shown in Fig, and revealing an example of the design of the combustion device.

According to FIG., The combustion device comprises a combustion chamber (furnace 1), a housing 2, which is filled in the form of a half cylinder with end plugs 3, on the axis of which a hollow

- Gval 4. On the shaft 4 there is a rusting element containing two

hollow frames 5, connected by their cavity with the cavity of the shaft 4, the ends of which are installed in the bearings 6 of the end walls 3 of the furnace 1 and are equipped with nozzles Tld for connecting the cooler. The lever 8 of the shaft 4 is connected to the output of the drive 9. The drive 9 is made in the form of a hydraulic cylinder or an electric motor with a gearbox. In the hearth of the furnace 1 below the level of its working surface, air ducts 10 are installed, made in the form of pipes with radial holes oriented in the cavity of the furnace 1, and are filled with chamotte gravel 11 to the level of the working surface of the hearth 1. The inputs of the air ducts 10 are connected to the output of the blower fan 1. B

the top of the furnace 1 has a feeder 13 connected to the hopper 14 for fuel. The feeder 13 is made in the form of a pipe with

radial holes oriented in the cavity of the furnace 1. To ensure uniform supply of fuel into the furnace 1, the feeder 13 can be equipped with a screw device for feeding fuel or loosening straps 15 mounted on the shaft 16 of the feeder 13.

- h and

The operation of the combustion device is as follows.

Cheap local polydisperse fuel including wood waste, lignite, shale, peat, or mixtures thereof with a particle size of up to 50 mm, is loaded into the hopper 14. From the hopper 14, with the help of the feeder 13, the fuel is fed into the furnace cavity 1. At the same time, using the drive 9 of the frame 5 of the rusting element, loosening of fuel on the hearth of the furnace 1, and using the air supplied through the pipes 10 to the furnace 1, they ensure that the fluidized bed of the loosened and raised frame 5 above the working surface

hearth 1 solid fuel. In this case, due to the temperature difference at the border of the water-cooled frame 5 of the screwing element and fuel, cracking of large pieces of the latter occurs and improvement

their burning.

When burning a fluidized bed of loosened fuel, complete combustion of particles suspended in the air flow is ensured. The heat generated by the furnace in the form of flue gases is given to the output of the furnace device.

The invention is developed at the level of a prototype. Preparing its industrial development.

Information sources :

1. Semenenko N.A. etc. Boiler installations of industrial enterprises: Moscow, Gosenergoizdat, 1960, p. 144-147.

2. Topochkiqte device. USSR copyright certificate No. 1196608, 1984. IPC: F28B 7/00, F23H75 / 00

Claims (7)

1. A furnace device containing a furnace with a hearth and a screwing element, characterized in that it is equipped with air ducts under the furnace, into the screwing element it is possible to swing its working sides directly above the furnace hearth.  2. The device according to claim 1, characterized in that under the furnace is made concave in the shape of a cylinder.  3. The device according to claim 2, characterized in that the working surface of the hearth is made with a radius greater than the swing radius of the working side of the screwing element by 5-15 mm.  4. The device according to claim 1, characterized in that the screwing element is made in the form of two hollow frames mounted on a hollow shaft connected by its cavity to the cavity of the frames and equipped with nozzles for supplying coolant.  5. The device according to claim 4, characterized in that the frames of the screwing element are made with a length corresponding to the length of the furnace and are rigidly mounted on the shaft at an angle to each other.  6. The device according to claim 1, characterized in that the ducts are made in the form of pipes with radial holes oriented in the cavity of the furnace. 7. The device according to claim 1, characterized in that the pipes are installed in the hearth of the furnace below the level of its working surface and are covered with chamotte gravel to its level.