CA2586311A1

CA2586311A1 - Apparatus and method for conversion of animal litter biomass into useful energy

Info

Publication number: CA2586311A1
Application number: CA002586311A
Authority: CA
Inventors: Harris Beausoleil; Louis Riverin
Original assignee: Thermalco Inc.; Harris Beausoleil; Louis Riverin; Harris Combustion Universelle Inc.
Current assignee: HARRIS COMBUSTION UNIVERSELLE Inc
Priority date: 2006-04-28
Filing date: 2007-04-26
Publication date: 2007-10-28
Also published as: WO2007124570A1; US20070251436A1

Abstract

A method of converting animal litter biomass into useful energy includes the steps of both combusting and pyrolising the biomass, of mixing the resultant combustible gas from the pyrolysis step with the gases from the combustion step, of igniting the mixture of gases ad and feeding the hot mixture of gases to a thermal recuperator; and apparatus therefor.

Description

APPARATUS AND METHOD FOR CONVERSION OF ANIMAL LITTER
BIOMASS INTO USEFUL ENERGY

FIELD OF THE INVENTION

The present invention relates to the conversion of animal litter biomass into useful energy.

More specifically, the invention has particular, but not exclusive, reference to such conversion of poultry litter that essentially consists of a mixture of wood shavings, straw and fecal matter. The expression 'poultry' as used herein means domestic foul of various kinds, inter alia chickens, turkeys, ducks and geese. The invention may advantageously be used for the conversion of biomass derived from the keeping of other farm animals, such as pigs and bovines.

BACKGROUND OF THE INVENTION

Great emphasis is now placed by both government and the general public upon the need to reduce the disposal of waste that might otherwise provide useful feedstock for varied processes in industry and generally. Recycling of metals, plastics and paper is now mandatory in many countries to ensure that the optimum utilization of waste materials may be achieved by reuse in appropriate processes. Equally, attention has been focused upon so called renewable energy resources to provide 'green power' and among such resources biomass constitutes a major element since agricultural waste is a continuous and renewable source of fuel in the right process. Many and varied techniques have been proposed and indeed adopted on a commercial basis for the destruction of poultry litter biomass to produce energy by heat generation and/or gasification for use on site or for distribution to appropriate facilities for use.

Generally, techniques of this kind involve relatively complex plant, for example fluidized bed combustors using bubbling bed technology, or gasifiers, and necessarily incur high capital and running costs.

I

Accordingly, there is a need for a simpler and therefore cheaper approach to the conversion of animal litter biomass into useful energy.

SUMMARY OF THE INVENTION

It is therefore a general object of the present invention to provide a method of and apparatus for the conversion of animal litter biomass into useful energy.

A further object of the present invention is to provide such a method and apparatus that employ relatively simple process steps and equipment of comparatively simple construction with concomitant cost benefits.

According to a first aspect of the present invention there is provided a method of converting animal litter biomass into useful energy comprising the steps of feeding said biomass in comminuted form into a primary combustion zone comprising an upper region and a lower region, partially combusting the biomass at the lower region thereof at an elevated temperature in the presence of a combustion-sustaining medium thereby to provide heat into the upper region thereof for pyrolysis to generate combustible gases, of subjecting the lower partially combusted incandescent biomass to air flow to generate combustion gases, of mixing the combustion gases and the combustible gases, of igniting the resultant mixture of gases thereof to produce a hot gaseous product, and of passing the hot gaseous product to a thermal recuperator for expending and exploiting the heat energy thus produced.

The solid residue arising from combustion and pyrolisation is discharged and may be employed further, for example for collection for use in horticultural or agricultural applications.

The mixing of the gaseous products before their egress from the process seeks to secure the suppression of pollutants by heat destruction and enhanced rate of combustion.

According to a second aspect of the present invention there is provided an apparatus for the conversion of animal litter biomass into useful energy, the apparatus comprising a primary combustion zone incorporating a chamber of frusto-conical form, a feed entry to the primary combustion zone, a feed conduit contiguous with said zone and connected to the feed entry at a relatively upper part of the zone, a combustible gas outlet for the primary pyrolysis combustion zone, a rotatable grate situated at the base of the primary combustion zone, a means for rotating the grate, a combustion-sustaining fluid distributor located at said base, a secondary normal combustion zone on the grate circumscribing the base of the primary pyrolysis combustion zone, a combustion exhaust gas outlet from the secondary combustion zone, a gas mixing zone downstream of the combustible gas outlet and the combustion exhaust gas outlet wherein in use the respective combustion gases and the combustible gas mix, an ignition station for the resultant mixture of gases, the gas mixing zone comprising at least a partial tube bank for reheating and suppression of pollutant emissions, and a final gas discharge flue for the resultant gases.

Conveniently, the gas mixing zone includes a heat exchange zone for expending and exploiting the heat energy of the hot mixture thus produced.

The apparatus may be of generally cylindrical form.

Conveniently, there is also provided a means of comminuting the feedstock which may include a hopper with a rotating armature provided with blades suitable for effecting the break up of the animal litter biomass introduced thereto. A rotatable disc may be disposed beneath the hopper outlet for feeding the comminuted feedstock into the feed conduit.

The combustion-sustaining medium distributor may be of foraminous conical form enclosing a plenum chamber therebeneath to which a suitable conduit for the medium, e.g. air, is connected.

The gas mixing zone may be provided with a full tube bank of coiled tubes or may in the alternative have a demi-bank of coiled tubes extending substantially half way around the zone.

Other objects and advantages of the present invention will become apparent from a careful reading of the detailed description provided herein, with appropriate reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

Further aspects and advantages of the present invention will become better understood with reference to the description in association with the following Figures, in which similar references used in different Figures denote similar components, wherein:

Figure 1 is a diagrammatic vertical cross section of an apparatus for the conversion of animal litter biomass in accordance with the present invention;
Figure 2 is a horizontal section taken through one embodiment of the apparatus shown in Figure 1;

Figure 3 is a horizontal section taken through an alternative embodiment of the apparatus shown in Figure 1; and Figure 4 is a fragmented view on the line 4-4 in Figure 3.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

With reference to the annexed drawings the preferred embodiment of the present invention will be herein described for indicative purpose and by no means as of limitation.

Referring first to Figure 1 there is shown diagrammatically an apparatus 1 for the conversion of animal litter biomass into useful energy, the apparatus including a generally hollow cylindrical body 2 enclosing a primary combustion zone 4 of frusto-conical form vertically oriented centrally within the body 2, the zone 4 having an upper region 5a and a lower region 5b. The zone 4 has connected at its top part a feed tube 6 which registers with an opening 7 in the top 8 of the body 2.

A feed hopper 10 is disposed vertically above the opening 7 and has a rotatable drive spindle 9 carrying a plurality of comminuting paddles 11; the hopper 10 has an outlet 13 feeding onto a rotating feed table 14 provided with a discharge station 15 selectively aligned with the opening 7 and the outlet 13. In use feedstock, namely the biomass, is fed into the hopper 10 wherein it is comminuted prior to delivery to the combustion zone 4.

Alternatively, as it would be obvious to one skilled in the art, the feedstock, typically fed from a conveyor (not shown), can be directed into the hopper 10 free of any spindle 9 and paddles 11, or even directly fed into the feed tube through opening 7, without deviating from the scope of the present invention.

5 At the base of the combustion zone 4 there is provided a circular rotatable grate 20 the diameter of which is greater than the base dimension of the zone 4 which is spaced therefrom to provide a path in use for the centrifugal conveyance of incandescent biomass. The biomass located in the upper region of the combustion zone 4 is heated and dried by the heat generated by the incandescent biomass to form a pyrolysis zone. At the center of the grate 20 is a foraminous conical plenum chamber 22 for the introduction of air into the combustion zone 4, an air inlet pipe 24 being connected thereto and extending therefrom the exterior of the body 2. A drive shaft 26 for the grate 20 extends through the pipe 24 for rotating the grate. A solid waste collection area 30 is defined beneath the rotatable grate 20 and a discharge outlet 32 is provided for that area and leads to a removal station 34.

A secondary, normal combustion zone 40 is defined externally of the primary zone 4 and is provided with perforated air distributor tubes or sparge pipes 42 to provide air for the combustion.

Both the zones 4 and 40 are contained within a central cylindrical core 50, which is provided with suitable outlets 52 and 54 respectively for said zones, a gas discharge conduit 53 connecting the zone 4 to the outlet 52.

A gas mixing chamber 60 is defined between the core 50 and the wall of the body 2 at the exit from the zones 4 and 40 and in this chamber the gases arising from pyrolysis and the combustion zones are mixed. Thence the mixture of gases flows through into a heat exchange zone 59 including a tube bank 61 formed in the annular space between the core 50 and the wall of the body 2. In Figure 2 the post-combustion zone tube bank 61 extends substantially throughout the whole of the annular space, the tubes 61' being held in tube plates 63 and being disposed in spaced relation one to the other with baffles 62' accommodated within the interstices between the tubes. The successive baffles 62' are alternately raised and lowered along the tubes 61' to force the hot gaseous product to vertically flow through the tubes 61', as illustrated by the alternating orientations of arrows around the baffles 62' in Figure 2. In Figure 3 the annular space is only partially, e.g. half, filled with a demi-tube bank 61 with tubes 61", the remainder of the space being provided with offset baffles 62".
Baffles 62' and 62", essentially vertically oriented, are provided as shown to enhance in practice the turbulence of gases and to lengthen residence to time thereby to optimize the various steps of mixing and suppression of noxious emissions and heat transfer efficiency.

In use comminuted poultry litter biomass is fed from the hopper 10 into the feed tube 6 of the combustion zone 4 and descends onto the grate 20 and forms a bed of biomass typically extending up into the tube as shown in order to prevent heat losses there through. The temperature of the zone 4 is initially raised to a level appropriate for the ignition of the biomass and air is provided through the plenum 22. The biomass is burned only at the bottom (lower region 5b) of the zone (smothered combustion) and that combustion energy allows the pyrolysis phenomenon in the biomass column thereabove (upper region 5a), and the hot gases of pyrolysis exit therefrom through the conduit 53 and the outlet 52 into the mixing chamber 60.

An incandescent layer or cake of biomass gradually radiates on the rotating grate 20 to pass from the pyrolysis zone 4 into the normal combustion zone 40 supplied with air through sparge pipes 42, the gas being generated passing through the outlet 54 into the mixing chamber 60 after providing more energy to the biomass in zone 4 for pyrolysis.

In the embodiment of Figure 2 the gas from zone 4 and the combustion gases emanating from zone 40 are mixed in the chamber 60 and pass through the tubes 61' of the substantially full tube bank 61. The gases after their passage through the tubes 61' enter into a further, ignition chamber 68, separated from the mixing chamber 60 by separation wall 67, provided with a pilot flame igniter 69 and any remaining unburnt gas is combusted and all the gases from the chamber 68 pass over the tubes 61', thereby effectively reheating the mixture of gases from pyrolysis zone 4 and those from combustion zone 40 passing through the tubes, thus improving efficiency and contributing to the destruction of any harmful elements that might give rise to atmospheric pollution. All gaseous products of combustion exhaust through a common outlet 70 of the body 2 whence they pass to a thermal recuperator (not shown) for appropriate usage.

In the embodiment of Figure 3 the tube bank 61 is not so long but the gases from zones 4 and 40 are again mixed in chamber 60 and pass through the tubes 61 ". The mixture of gases then flow through a zone in which turbulence is promoted by the baffles 62" and eventually enter an ignition chamber 68 wherein any remaining unburnt gas is ignited by the igniter 69. The resulting gas exhausts from the chamber 68 into a space 71 (Figure 4) defined over the offset baffles 62" before flowing around the tubes 61" of the tube bank 61 to provide reheat for the gases passing therethrough for the same purpose as described above in relation to Figure 2, the final mixture of gases then exhausting through outlet 70 for passage to a thermal recuperator.

The baffles are provided to improve turbulence and simultaneously increase residence time of the gases to enhance heat transfer and the consumption of potentially noxious elements in the gases.

The present invention thus provides a relatively simple and yet effective means of disposing of a waste biomass product in a useful 'green' energy way, thus reducing the time and cost of conventional disposal.

Although the present invention has been described with a certain degree of particularity, it is to be understood that the disclosure has been made by way of example only and that the present invention is not limited to the features of the embodiments described and illustrated herein, but includes all variations and modifications within the scope and spirit of the invention as hereinafter claimed.

Claims

1. A method of converting animal litter biomass into useful energy, said method comprising the steps of:

- feeding said biomass in comminuted form into a primary combustion zone comprising an upper region and a lower region;

- partially combusting the biomass at the lower region of the primary combustion zone at an elevated temperature in the presence of a combustion-sustaining medium thereby to provide heat into the upper region thereof for pyrolysis to generate combustible gases;

- subjecting partially combusted incandescent biomass in the lower region to air flow to generate combustion gases;

- mixing the combustion gases and the combustible gases in a mixing chamber;

- igniting the resultant mixture of gases thereof to produce a hot gaseous product; and - passing the hot gaseous product to a thermal recuperator for expending and exploiting the heat energy thus produced.

2. The method of Claim 1, wherein the incandescent biomass is combusted in a further combustion zone surrounding the zone and the combustion gases therefrom are mixed with the combustible gases from the pyrolysis of the biomass.

3. The method of Claim 1, wherein the hot gaseous product passes to a heat exchange zone wherein it is caused to undergo heat exchange with the mixture of gases from the mixing chamber.

4. The method of Claim 3, wherein turbulence is imparted to the flow of gases within the heat exchange zone by the provision of baffles thereby to lengthen the residence time of gases within the zone and to enhance both the suppression of noxious elements within the gases and the heat transfer efficiency.

5. An apparatus for the conversion of animal litter biomass into useful energy, the apparatus comprising:

- a primary combustion zone incorporating a chamber of frusto-conical form;

- a feed entry to the primary combustion zone;

- a feed conduit contiguous with said primary combustion zone and connected to the feed entry at a relatively upper region of the primary combustion zone;

- a combustible gas outlet for the primary pyrolysis combustion zone formed in the upper region;

- a rotatable grate situated at the lower region of the primary combustion zone;

- a means for rotating the grate;

- a combustion-sustaining fluid distributor located at the lower region;

- a secondary normal combustion zone on the grate circumscribing the lower region of the primary pyrolysis combustion zone;

- a combustion exhaust gas outlet from the secondary combustion zone;

- a gas mixing zone downstream of the combustible gas outlet and the combustion exhaust gas outlet wherein in use the respective combustion gases and the combustible gas mix;

- an ignition station for the resultant mixture of gases, the gas mixing zone comprising at least a partial tube bank for reheating and suppression of pollutant emissions; and - a final gas discharge flue for the resultant gases.

6. The apparatus of Claim 5, wherein gas mixing zone includes a heat exchange zone for expending and exploiting the heat energy of the hot mixture thus produced.

7. The apparatus of Claim 5, wherein the apparatus is of generally cylindrical form.

8. The apparatus of Claim 5, wherein comminuting means is provided for comminuting the biomass feedstock.

9. The apparatus of Claim 8, wherein the comminuting means comprises a hopper with a rotatable armature provided with blades.

10. The apparatus of Claim 9, wherein a rotatable disc is disposed beneath outlet of the hopper for feeding the comminuted feedstock into the feed conduit.

11 11. The apparatus of Claim 5, wherein the combustion-sustaining fluid medium distributor is of foraminous conical form incorporating a plenum chamber with a medium feed conduit connected thereto.

12. The apparatus of Claim 6, wherein the gas mixing zone comprises a full tube bank of coiled tubes.

13. The apparatus of Claim 6, wherein the gas mixing zone comprises a demi-tube bank of coiled tubes.

14. The apparatus of Claim 6, wherein baffles are provided in the heat exchange zone.

15. The apparatus of Claim 5, wherein a solid waste collection area is defined beneath the rotatable grate, and a discharge outlet is provided therefor and leads to a removal station.

16. The apparatus of Claim 5, wherein the secondary normal combustion zone is defined externally of the primary combustion zone, the secondary zone being provided with air distributor tubes.