CZ7066U1 - Fluidized bed boiler with stationary atmospheric furnace - Google Patents

Description

Technical field

The technical solution relates to a fluidized bed boiler with a stationary atmospheric fireplace, in which the burning of solid fuels in a stationary atmospheric fluidized bed with enhanced circulation (particles inside the fireplace is solved).

Background Art

In known solutions of boilers with a fluid atmospheric stationary furnace, the boiler is usually solved in the lower part of the combustion chamber so that the fluidized bed is in the whole space of the lower part. Typically, the fluid layer contacts the peripheral walls of the combustion chamber. In the vast majority of solutions, the grate surface is designed for burning crushed fuel with a maximum grain size of up to 5 mm. This fact requires increased fuel treatment costs. The ashes that flow out of the fluidized bed are then carried away by the flue gases to other boiler strokes.

The essence of the technical solution

The above-mentioned drawbacks are largely removed by a fluidized bed boiler with a stationary atmospheric fireplace, formed by a grate surface of the gutter arrangement, cooling spaces and air supply ducts located in the base, the principle being that the pressure system connected to the water inlet and the water outlet is formed in the combustion chamber with membrane walls and cooling bundles seated in the cooling space with the grate on both sides of the fluidized combustion chamber. In another part of the combustion chamber a grate surface is formed in the form of an inclined trough, above which in the front part an inlet for fuel and its outlet is in an inert outlet. An approach is connected to the combustion chamber

C chamber, equipped with an air inlet, a fuel inlet and a combustion chamber connected via the approach chamber.

,. the air inlet to the grate surface, the circulation air inlet is connected to the grate. A horizontal separator and a vertical separator are situated above the fluidized-bed combustion chamber, resulting in a flue gas outlet. Between the grate and the circulating air inlet there are control and measuring elements for flow control and measurement. Likewise, between the grate surface and the combustion air inlet there are control and measuring elements for flow control and measurement.

The fluidized bed boiler is characterized by an embedded modular grate surface arranged in the shape of a combustion trough. The central part of the grate surface is formed by a fluidized-bed combustion chamber at the bottom of which all fluidizing and at the same time combustion air is fed in above the stoichiometric ratio to the combustible combustible. The cooling bundles cool the inert fluid bed material. The cooled inert material is used to control the temperature of the fluidized bed. The grate surface may be formed by one or more parallelly arranged combustion chutes. The installed solids separators increase the circulation of ash within the combustion chamber and ensure maximum burn-out of combustible materials from the fuel feed. In the case of using the flue gas desulphuriser already during the process

-1 7066 UL combustion, then maximum utilization of additive material.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is explained in more detail by means of the drawings, where Fig. 1 shows a section A of a fluidized bed boiler with a stationary atmospheric fireplace with a starting chamber, and Fig. 2 is a view of a fluidized bed boiler and a partial section C. 1

Example I,

A fluidized bed boiler with a stationary atmospheric fireplace is formed by a tray 5 grating surface, cooling rooms 12 and fluidized bed 4a. The pressure system 1, connected to the water inlet 14 and the water outlet 15, is formed in the combustion chamber 4 by the membrane walls 2 and the cooling bundles 3 / settled in the cooling space 12 with the grate 11 on both sides of the fluidized bed 4a. Further parts of the combustion chamber 4 are formed by a grate surface 5 in the form of an inclined trough, above which in the front part an inlet for fuel 19 is provided and its outlet is in the outlet 13 for inert. An incoming chamber 2 is connected to the combustion chamber 4 ^{with an} air inlet 17 entering the fuel inlet 18. The combustion air inlet 9 is connected to the grate surface 6 via the approaching chamber 6, the circulation air inlet 10 is connected to the grate 11. Above the fluidized bed combustion chamber 4a, a horizontal separator 7 and a vertical separator 8 are disposed, which result in a flue gas outlet 16. Between the grate 11 and the circulation air inlet 10 there are control and measuring elements for regulating and measuring the flow. Between the grate surface 5 and the combustion air inlet 9 there are control and measuring elements for regulating and measuring the flow.

The trough-shaped grate surface 5 consists of modules that can be folded according to the power required. In the cold state, the boiler is approached by the noble fuel in the approach chamber 6. The combustion air inlet enters the combustion air in a controlled manner through the approach chamber 6. The air for circulating the particles of the inert fluidized bed material is also supplied to the grids 11 under the cooling spaces. 12 from the circulating air inlet 10. The outlet 13 serves to discharge the fluidized bed and the heavy non-fluidizing particles.

Claims (3)

A fluidized bed boiler with a stationary atmospheric fire formed by a grate surface of a trough arrangement, cooling chambers and air inlet ducts located in the foundation, characterized in that the pressure system (1) connected to the water inlet (14) and the water outlet (15) is formed in the combustion chamber (4) by diaphragm walls (2) and cooling bundles (3) seated in a cooling chamber (12) with a grate (11) on both sides of a fluidized bed combustion chamber (4a), while in another part of the combustion chamber (4) a grate surface is created 7066 U1 (5) in the shape of an inclined trough, above which there is an inlet for fuel (19) in the front part and its outlet into the outlet (13) for inert, at the same time a combustion chamber (6) is connected to the combustion chamber (4) provided with an air start inlet (17), a fuel start inlet (18), and a combustion air inlet (9) connected to the grate surface (6) via the access chamber (6), the circulation air inlet (10) connected to the grate (11) and above the fluidized bed combustion chamber (4a) a horizontal separator (7) and a vertical separator (8) are situated which terminate at the flue gas outlet (16). Fluidized bed boiler according to claim 1, characterized in that control and measuring elements are provided between the grate (11) and the circulation air inlet (10) for controlling and measuring the flow. Fluidized bed boiler according to claims 1 and 2, characterized in that between the grate surface (5) and the combustion air inlet (9) control and measuring elements are provided for regulating and measuring the flow.