IE52577B1 - A fluidized bed heat exchanger having an air assisted bed drain - Google Patents

Description

This invention relates to a fluidized bed heat exchanger and more particularly, to a heat exchanger in which heat is generated by the combustion of particulate fuel in a fluidized bed.

The use of fluidized beds has long been recognized as an attractive way of generating heat. In a normal fluidized bed arrangement, air is passed through a perforated plate or grid supporting material which usually includes a mixture of a fuel material, such as high sulfur bitaminous coal, and an adsorbent material for the sulfur released as a result of the combustion of the coal. As a result of the air passing through the bed, the bed behaves like a boiling liquid which promotes the combustion of the fuel. The basic advantages of such an arrangement include a relatively high heat transfer rate, substantially uniform bed temperature, combustion at relatively low temperatures, ease of handling the coal, a reduction in corrosion and boiler fouling and a reduction in boiler size.

In the fluidized bed combustion process, the coal and adsorbent are continously introduced into the bed by suitable feeders, injectors, or the like and the spent coal and adsorbent are discharged from the lower portion of the bed, usually through a gravity drain pipe having one end registering - 3 with a discharge opening formed through the perforated support plate and the other end communicating with a screw cooler, a conveyor belt, or the like. However, in arrangements in which the size of the coal extends over a relatively large range, the relatively large pieces of coal tend to migrate to an area above the drain pipe and form a dense area that is difficult, if not impossible, to fluidize. As a result, the large pieces of coal do not drain, but rather cause a clogging of the drain pipe and an attendant severe curtailment in the operating efficiency of the bed.

According to the present invention a fluidized bed heat exchanger comprises a perforated plate adapted to support a bed of particulate material; a set of first nozzles in registry with perforations in the plate, and means for introducing air through the first nozzles to fluidize such particulate material, means for introducing additional particulate material to said bed, a drain pipe adapted to communicate with said bed for the discharge of spent particulate material therefrom; and a set of second nozzles in registry with perforations in the plate and means for introducing air therethrough to discharge over the inlet to the drain pipe to promote the flow of spent material into the pipe. In the preferred embodiment, the second nozzles are constructed and arranged to direct air substantially towards the axis of the drain pipe. Typically, - 4 each second nozzle comprises a pipe having a first portion extending upwardly from the plate and a second portion extending at right angles to the first portion and over the inlet to the drain pipe.

The preseht invention facilitates draining of the spent bed materials in a fluidized bed heat exchanger despite the use of materials having a relatively wide particle size range. By distributing air across the drain inlet to fluidize the bed materials in the immediate area, continuous draining of the spent materials can be achieved.

An embodiment of the invention will now be described by way of example and with reference to the accompanying drawings in which;Figure 1 is a vertical sectional view of the fluidized bed corfbustor of the present invention; Figure 2 is a partial enlarged plan view depicting ; the portion of the combustor in the region of the drain pipe taken on line 2-2 of Figure 1; and Figure 3 is a cross-sectional view taken along the lines 3-3 of Figure 2.

In Figure 1 the reference numeral 6 refers in general to an enclosure forming a major portion of a fluidized bed heat excharger which may be in the form of a boiler, a combustor, a process reactor or any similar type device. - 5 The enclosure 6 consists of a front wall 8, a rear wall 10, and two sidewalls, one of which is shown by the reference numeral 12. Each wall is formed by a plurality of vertically-extending tubes 14 disposed in a spaced, parallel relationship and connected together by a plurality of elongated fins 16 extending for the entire lengths of the tubes and connected to diametrically opposed surfaces of the tubes in a conventional manner. The upper portion of the enclosure 6 is not shown for the convenience .82577 - 6 of presentation, it being understood that it consists of a convection section, a roof and an outlet for allowing the combustion gases to discharge, also, in a conventional manner.

A bed of particulate material, shown in general by the reference numeral 18 is disposed within the combustor 10 and rests on a perforated plate 20 extending horizontally in the lower portion of the boiler. The bed 18 can consist of a . mixture of discrete particles of fuel material such as - bituminous coal, and an adsorbent, such as limestone, for adsorbing the sulfur released by the combustion of the fuel material.

An air plenum 22 is provided immediately below the plate 20 and an air inlet pipe 24 is provided through the plenum for distributing air from an external source (not shown) to the plenum under the control of a valve 26. Since the valve 26 can be of a conventional design it will not be described in any further detail. A bed light-off burner 28 is mounted through the front wall 8 immediately above the plate 20 for initially lighting off the bed 18 during startup Three overbed feeders 30, 32 and 34 are provided which extend through a sidewall 12. The feeders 30, 32 and 34 receive particulate coal from inlet ducts or the like, and are adapted to feed the coal particles onto the upper surface of the bed 18. The feeders 30, 32 and 34 can operate by gravity discharge or can be in the form of spreader feeders or any other similar device. It is understood that feeders identical to the feeders 30, 32 and 34 can also be provided through one or more of the front wall 8, the rear wall 10 - 7 and the other side wall 12, and that similar feeders can also be provided for discharging the adsorbent onto the bed 18.

A plurality of air distributors 36 extend through a plurality of spaced openings extending through the plate 20.

The distributors 36 are in the form of vertically disposed tubular members that are secured to the plate 20 in any conventional manner such as by bolting or welding. The distributors 36 extend upwardly from the plate 20 for a predetermined distance into the bed 18 of particulate material and their lower ends receive air from the plenum 22. After passing through the length of the distributors 36, the air discharges outwardly into the fluidized bed at the predetermined distance from the plate 20. As a result, a dormant layer of particulate material is formed between the upper surface of the plate 20 and the upper ends of the distributors 36 for reasons that will be discussed later.

A pair of horizontal headers 40 are connected in fluid communication with the tubes 14 forming the front wall 8 and the rear wall 10, and another pair of horizontal headers 42 are connected in fluid communication with the tubes 14 forming the side walls 12. It is understood that headers similar to the headers 40 and 42 are provided in communication with the upper ends of the walls 8, 10 and 12. As a result, a fluid to be heated can be sequentially or simultaneously passed through the walls 8, 10 and 12 to pick up the heat from the fluidized bed in a conventional manner.

A drain pipe 44 extends through the air plenum 22 and has an inlet end portion 44a that extends through, and S2577 - 8 projects slightly upwardly from, an enlarged opening formed in the plate 20. A support ring 46 is provided which extends within the latter opening and is secured thereto in any known manner, such as by welding. The ring 46 extends into the plenum 22 and is connected to the drain pipe 44 by an annular support member 48. A flow control valve 49 is provided in the lower portion of the drain pipe 44 and operates in a conventional manner to selectively.control the discharge of material from the latter pipe, as will be described later.

Five air discharge nozzles 50 are spaced around the upper end portion of the drain pipe 44 and are better shown in Figs. 2 and 3. Each nozzle 50 has a vertically extending threaded portion 50a which extends through corresponding openings formed in the plate 20 and which is bolted to the plate by bolt assemblies 52, in a conventional manner. Each nozzle 50 is bent at approximately a ninety degree angle to form a horizontally extending portion 50b which extends over the upper end portion 44a of the drain pipe 44. As shown in Fig. 2, the portions 50b of the nozzles 50 extend generally towards the axis of the drain pipe 44 but are slightly offset in a radial sense relative to the latter pipe.

The lower end portions 50a of the nozzles 50 receive air from the plenum 22 and discharge same over the upper end portion of the drain pipe 44 and generally towards its axis in the approximate patterns shown by the dashed lines in Fig. 2.

In operation, the valve 26 associated with the air inlet pipe 24 is opened and air passes up through the plenum 53577 - 9 22 and into the inlet ends of the distributors 36 and the nozzles 50. The air flows upwardly through the lengths of the distributors 36 before it discharges from the outlet ends of the distributors into the bed 18 at a plane above the plane of the plate 20. Thus, that portion of the particulate material in the bed 18 extending immediately above the outlet ends of the distributors 36 is fluidized while the portion extending between the latter ends and the upper surface of the plate 20 remains dormant, or stagnant.

The light-off burner 28 is then fired to heat the material in the bed until the temperature of the material reaches a predetermined level, at which time particulate fuel is discharged from the feeders 30, 32 and 34, and adsorbent material is discharged from other feeders (not shown) onto the upper surface of the bed 18 as needed.

After the bed 18 has been fluidized and. has reached a predetermined elevated temperature in accordance with the foregoing, the light-off burner 28 is turned off while the feeders 30, 32 and 34 continue to distribute particulate fuel to the upper surface of the bed in accordance with predetermined feed rates. As a result of the foregoing, the dormant layer of particulate material extending between the upper surface of the plate 20 and the outlet ends of the distributors 36 acts as an insulator for the plate 20.

Air discharging from the nozzles 50 across the upper end of the drain pipe 44 fluidizes the material accumulating around the drain pipe and thus prevents large particulate material from clogging in the inlet to the drain pipe and 2577 - 10 enables the spent adsorbent as well as the spent fuel material, primarily in the form of ashes, to enter the pipe 44, where it passes through the pipe 44 under control of the valve 49 and discharges from the outlet end portion to a screw cooler, conveyor belt, or the like.

Fluid, such as water, to be heated is passed into the headers 40 and 42 where it passes simultaneously, or in sequence, through the tubes 14 forming the walls 8, 10 and 12 to add heat from the fluidized bed to the fluid before it is passed to external apparatus for further processing.

As a result of the foregoing, the area immediately above the inlet end portion 44a of the drain pipe 44 will remain fluidized, notwithstanding the presence of particulate fuel material of a relatively large size, while the particulate material in the remaining areas immediately above the plate 20 is dormant and thus functions to insulate the plate from the relatively high temperature in the bed 18.

It is understood that variations in the above arrangement can be made without departing from the scope of the invention.

For example, the invention is not limited to the use of five nozzles located and spaced in the exact manner shown, since the number and location of the nozzles can be varied within the scope / of the invention.

It is understood that other modifications, changes and substitutions are intended in the foregoing disclosure and in some instances some features of the invention will be employed without a corresponding use of other features. - 11 82577

Claims (8)

1. Claims;

1. A fluidized bed heat exchanger comprising a perforated plate adapted to support a bed of particulate material; a set of first nozzles in registry with perforations in the plate, and means for introducing air through the first nozzles to fluidize such particulate material, means for introducing additional particulate material to said bed, a drain pipe adapted to communicate with said bed for the discharge of spent particulate material therefrom; and a set of second nozzles in registry with perforations in the plate and means for introducing air therethrough to discharge over the inlet to the drain pipe to promote the flow of spent material into the pipe.

2. An heat exchanger according to Claim 1 wherein the inlet to the drain pipe registers with an opening extending through said perforated plate.

3. An heat exchanger according to Claim 1 or Claim 2 wherein said air introducing means includes an air plenum extending below the perforated plate.

4. An heat exchanger according to any preceding Claim wherein the second nozzles are constructed and arranged to direct air substantially towards the axis of the drain pipe.

5. An heat exchanger according to Claim 4 wherein each second nozzle comprises a pipe having a first portion - 12 extending upwardly from the plate and a second portion extending at right angles to the first portion and over the inlet to the drain pipe.

6. An heat exchanger according to any preceding Claim 5 wherein the first nozzles comprise a plurality of air distributors extending upwardly from the plate for discharging air into said bed at a plane above the plate.

7. An heat exchanger according to Claim 6 wherein Said plane is spaced from the plate by a distance sufficient 10 that material accumulating above the plate and below the discharge ends of the distributors insulates the plate from high temperatures in said bed.

8. A fluidized bed heat exchanger substantially as described herein with reference to the accompanying drawings