DE4202895A1 - Fluidised bed for burning carbonaceous fuel - has cyclone separators to remove dust from fluidising gas before returning it to gas supply nozzles - Google Patents

Abstract

A combustion chamber for burning a fuel with a carbon content, has a fluidised bed which is enclosed between walls with cooled surfaces. The floor (2) which supports the fluidised bed slopes downwards from the two opposite long sides and the junction line between these two sloping surfaces slopes upwards from the two opposite short sides (y) to the middle point (x). The floor is provided with holes for nozzles (8) which supply primary gas to the fluidised bed. The gas above the fluidised bed flows through pipes to cyclone type separators which remove the dust and return the gas to the nozzles (8). USE/ADVANTAGE - The cyclone separators prevent clogging of primary gas nozzles with dust from the fluidised bed.

Description

The invention relates to a device for burning carbon-containing Fuels in a circulating fluidized bed according to the preamble of Claim 1.

Such devices (DE-PS 25 39 549 and DE-PS 36 05 930, EVT report 103/90 - Industrial and thermal power stations with a circulating fluidized bed firing) were generally with a horizontal or slightly oblique Provide the nozzle base, which is equipped with vertically arranged primary gas nozzles is.

A disadvantage of these known devices is that the primary gas nozzles tend to clog because of falling bed ash are poured over and the coarse bed ash due to the fla Chen or slightly inclined nozzle bottom who is not sufficiently transported that can. Furthermore, the nozzles are eroded by the jets effect of neighboring nozzles arises, destroyed. In addition, Bettmate falls rial through the primary gas nozzles in the primary gas box below. There through to have to do the necessary maintenance can, which are associated with considerable costs, the plants off-schedule to be switched off moderately.

The object of the invention is therefore to provide a device in which the disadvantages described can be avoided.

This object is achieved according to the invention in a generic device solved by the characterizing features of claim 1. Advantage Embodiments of the invention are specified in the subclaims.  

The measures according to the invention provide the following advantages aims:

• 1) Since the primary gas nozzles in the funnel walls are inclined downwards are arranged, the penetration of bed material is largely avoided.
• 2) The primary gas nozzles do not protrude into the funnel chamber, but rather close flush with the inner surface of the hopper liner from, so that no erosion due to the jet effect of adjacent nozzles takes place.
• 3) The ring collectors for the primary gas flow are above the level of the arranged at the top rows of primary gas nozzles and therefore there is no danger a blockage of the collector by bed material.
• 4) The primary gas supply lines between the ring collectors and the Nozzles are designed so that in the event of a blockage, they are clear can be blown or pushed through.
• 5) Due to the funnel-like, smooth surface construction, the Ab favored coarse-grained bed ash.
• 6) The availability of the system was checked by eliminating the above-mentioned faults sources significantly increased.

The invention is explained in more detail with reference to the attached figures. It shows

Fig. 1 shows a schematic longitudinal section through a gate Wirbelschichtreak,

Fig. 2 shows a schematic longitudinal section through a Wirbelschichtreak tor according to Fig. 1, section line CC,

Fig. 3 is a schematic plan view of the fluidized-bed reactor according to FIG. 1, section line A (for clarity, the ring collectors are not shown),

Fig. 4 is a schematic longitudinal section through a gate with Wirbelschichtreak ash cooler,

Fig. 5 is a schematic longitudinal section through a fluidized bed reactor with ash cooler according to Fig. 5, line DD,

Fig. 6 is a schematic plan view of the fluidized bed reactor shown in FIG. 4, line BB,

Fig. 7 is an isometric view of the bottom piece of a fluidized bed reactor of FIG. 1.

Fig. 1, 2 and 3

The fluidized bed reactor 1 is connected to the cyclone separator 37 by the line 46 . The cyclone separator 37 is connected to the flue gas side with the additional heating surfaces 38 and the downstream flue gas cleaning units (not shown) and the chimney through the line 48 or 49 . On the solid material side, the line 47 leads from the cyclone separator 37 via the ash return lock 39 and the line 45 to the lower space 26 of the fluidized bed reactor 1 . Lines 40 - coal supply and 41 - limestone supply open into line 45 . Bed ash or sand is fed through line 43 to the lower space 26 of the fluidized bed reactor 1 . The upper space 25 of the fluidized bed reactor 1 has a constant cross section and the walls 31 , 32 , 33 and 34 are designed as a cooling surface. The lower space 26 has a basic tear cross-section, which decreases evenly up to the connection to the base piece 2 from the opposite walls 31 , 32 . The start-up burner 42 and the secondary gas nozzles 44 are supplied by the lines 46 and 47 , 48 and 49 , respectively.

The funnel-like base piece 2 consists of two, opposite each other, the inclined, essentially rectangular walls 3 , 4 and two, opposite triangular walls 5 , 6th The walls 3 , 4 are constructed so that on the vertical central axis of the fluidized bed reactor 1 , the point x is arranged above the level of the apex y of the walls 5 and 6 , respectively. The walls 3 and 4 are equipped with primary gas nozzles 8 , which learn from the ring collect 17 , 18 via the connecting lines 9 , 10 , 11 , 12 with fluidizing gas through the line 35 , the fan 36 and the lines 13 and 14 are provided ver. The connecting lines 9 , 10 , 11 and 12 and the lines 13 and 14 are hen with shut-off or control elements 16 or 57 and 58 verses. The base piece 2 is provided with a refractory lining 23 .

The classifier 30 is supplied with fluidizing gas via the line 53 . Large-grain material from the bottom piece 2 is pulled through the line 52 . Fine material is returned in the lower space 26 via line 51 . Coarse-grained, excess bed material is discharged through the line 50 .

Fig. 4, 5 and 6

The fluidized bed reactor 1 differs from the device according to FIGS. 1, 2 and 3 in that the plan cross-section of the lower room 26 decreases symmetrically to the connection to the base piece 2 about the vertical central axis. The floor plan cross section of the funnel-shaped bottom piece 2 tapers from the connection to the lower space 26 to the apex z evenly. All four walls 21 and 22 are equipped with primary gas nozzles 8 . The ash classifier 30 is connected by lines 51 and 52 to the lower space 26 and the base piece 2 . The primary gas nozzles 8 in the walls 21 and 22 are connected by the connecting lines 20 , 27 , 28 and 29 to the ring collectors 17 and 18 .

Solids from the cyclone separator 37 are fed through lines 47 and 54 to the ash cooler 55 and then through line 56 to the lower space 26 of the fluidized bed reactor 1 . Alternatively, solids from the Zy clone separator 37 are fed directly through the lines 47 and 45 to the lower space 26 of the fluidized bed reactor 1 .

Fig. 7

The base piece 2 is provided with three ring collectors 17 , 18 and 19. The Pri märgasdüsen 8 are arranged so that their ends are flush with the inner surface 24 of the refractory lining 23 of the bottom piece 2 .

Legend

1 fluidized bed reactor
2 bottom piece
3 wall - bottom piece
4 wall - bottom piece
5 triangular wall - bottom piece
6 triangular wall - bottom piece
7 opening - not shown
8 primary gas nozzle
9 connecting line
10 connecting line
11 connecting line
12 connecting line
13 primary gas supply line
14 primary gas supply line
15 ash coolers
16 shut-off or control device
17 ring collectors
18 ring collectors
19 ring collectors
20 connecting line
21 wall - bottom piece
22 wall - bottom piece
23 fireproof lining
24 inner surface of the refractory lining
25 upper room of the fluidized bed reactor
26 lower room of the fluidized bed reactor
27 connecting line
28 connecting line
29 connecting line
30 ash classifiers
31 Wall - fluidized bed reactor
32 Wall - fluidized bed reactor
33 Wall - fluidized bed reactor
34 Wall - fluidized bed reactor
35 Primary gas supply line
36 primary gas blower
37 cyclone separators
38 secondary heating surfaces
39 Ash return sluice
40 coal supply line
41 limestone supply line
42 starting torches
43 Bed ash / sand supply line
44 secondary gas nozzles
45 line
46 line
47 line
48 line
49 line
50 line
51 line
52 line
53 line
54 line
55 ash cooler
56 line
57 shut-off or control device
58 shut-off or control device
w parting
x point on the vertical central axis
y vertex

Claims (8)

1. Apparatus for burning carbon-containing fuels in a circulating fluidized bed with a fluidized bed reactor which is provided with wall cooling surfaces, a separator connected downstream of the fluidized bed reactor with a return line to the fluidized bed reactor, a fuel supply, a solids supply and a fluidizing gas supply in the lower region of the fluidized bed reactor a secondary gas supply are arranged in several levels above the fluidizing gas supply, characterized in that

• a) the fluidized bed reactor ( 1 ) is provided with the funnel-like bottom piece ( 2 ), the walls of two, opposite, inclined at an angle α to the horizontal, essentially rectangular walls ( 3 ) and ( 4 ) and two, also opposite triangular walls ( 5 ) and ( 6 ), the walls ( 3 ) and ( 4 ) being constructed in such a way that on the vertical central axis of the fluidized bed reactor ( 1 ), the point (x) at which, through the walls ( 3 ) and ( 4 ) the formed vertex (w) of the funnel-shaped base piece ( 2 ) above the level, the vertexes (y) of the walls ( 5 ) and ( 6 ) is arranged;
• b) the walls ( 3 ) and ( 4 ) are provided with openings ( 7 ) for the primary gas nozzles ( 8 ) which are arranged in several planes and are directed obliquely downwards towards the center of the base piece ( 2 ) and the ends of which are connected to the inner surface ( 24 ) the refractory lining ( 23 ) of the Bo denstückes ( 2 ) finish flush;
• c) the primary gas nozzles ( 8 ) are each connected by connecting lines ( 9 ), ( 10 ), ( 11 ) and ( 12 ) to one or more ring collectors ( 17 ), ( 18 ) and ( 19 ) surrounding the fluidized bed reactor ( 1 ) are arranged above the level of the top row of primary gas nozzles ( 8 ), where the connecting lines ( 9 ), ( 10 ), ( 11 ) and ( 12 ) are constructed to be blow-out or pierceable.

2. Device according to claim 1, characterized in that the ground plans cross-section of the bottom piece (2) of forth tapers up to the apex (z) of the funnel-shaped bottom piece (2) and the walls (21) and (22) with primary gas nozzle (8 ) are provided through the connecting lines ( 9 ), ( 10 ), ( 11 ), ( 12 ), ( 20 ), ( 27 ), ( 28 ) and ( 29 ) with the collectors ( 17 ) and ( 18 ) are connected. 3. Apparatus according to claim 1 and 2, characterized in that the basic crack cross-section of the upper space ( 25 ) of the fluidized bed reactor ( 1 ) is constant and that of the lower adjoining space ( 26 ) up to the connection to the bottom piece ( 2 ) from two opposite sides ( 31 ) and ( 32 ) decreases evenly. 4. Apparatus according to claim 1, 2 and 3, characterized in that the plan cross-section of the lower space ( 26 ) of the fluidized bed reactor ( 1 ) up to the connection to the bottom piece ( 2 ) decreases symmetrically about the vertical center axis. 5. Apparatus according to claim 1 and 2, characterized in that the un tere space ( 26 ) or the bottom piece ( 2 ) of the fluidized bed reactor ( 1 ) through the lines ( 50 ) or ( 51 ) with one or more Aschesich tern ( 30 ) or ash coolers ( 15 ) is connected. 6. Apparatus according to claim 1 and 2, characterized in that the walls ( 3 ), ( 4 ), ( 5 ) and ( 6 ) of the bottom piece ( 2 ) are formed as cooling surfaces and on the working side with the wall cooling surfaces ( 31 ), ( 32 ), ( 33 ) and ( 34 ) of the upper and lower space ( 25 ) and ( 26 ) of the fluidized bed reactor ( 1 ) are connected. 7. The device according to claim 1 and 2, characterized in that the Pri märgasdüsen ( 8 ) in the walls ( 3 ) and ( 4 ) or ( 21 ) and ( 22 ) of the Bo denstückes ( 2 ) are arranged horizontally. 8. The device according to claim 1, characterized in that the connec tion lines ( 9 ), ( 10 ), ( 11 ), ( 12 ), ( 20 ), ( 27 ), ( 28 ) and ( 29 ) or the lines ( 13 ) and ( 14 ) are each provided with control or shut-off devices ( 16 ) or ( 57 ) and ( 58 ).