NL1033829C2 - Manure processing apparatus for separating manure into solid and liquid fractions, includes discharge device for removing and returning biogas inside composting space - Google Patents

Abstract

A discharge device (13) removes biogas generated inside the composting space (10) and then returns it to a point elsewhere in this space, in order to improve separation of the manure into solid and liquid fractions. An apparatus (1) for processing manure having solid and liquid fractions comprises: a composting space with an inlet side (10a) and outlet side (10b); a filter (12) for removing the liquid fraction from the solid fraction; a feed (11, 11a) for supplying manure to the inlet side and removing the solid fraction from the outlet side of this space; and a discharge device for removing biogas generated inside this space and returning it to a point elsewhere in this space. An independent claim is also included for a processing method for manure having liquid and solid fractions, comprising the steps of supplying manure to a composting space, separating the liquid and solid fractions from each other, discharging the liquid fraction, fermenting the solid fraction, composting the solid fraction, and sanitizing the composted solid fraction.

Description

Brief indication: Device for processing manure and a method for this.

DESCRIPTION

The invention relates to a device for processing manure composed of a liquid fraction and a solid fraction in a continuous process, comprising a composting space provided with an inlet side and an outlet side; filtering means for separating the liquid fraction from the manure and discharging it from the composting space, as well as feed means for feeding manure via the input side into the composting space and for discharging the solid fraction of the manure via the discharge side from the composting space.

The invention also relates to a method for processing manure.

Such a device is shown, for example, in the

U.S. Patent No. 7,056,441. This US patent discloses a device for thickening manure, which is introduced into a composting space by means of a pump and is separated there by means of a screw press and filter openings in a thin fraction (liquid) and a thick fraction. However, the separation device described in this U.S. patent is less suitable for composting from a thin and thick fraction of compound manure and it is therefore the object of the invention to provide such a device.

According to the invention, the composting device is characterized for this purpose in that the device is provided with extraction means for withdrawing biogases created by the composting space from the composting space and returning these biogases elsewhere in the composting space.

By withdrawing biogas created as a result of the composting process from the composting space and this biogas elsewhere again into the composting space, the composting process is further promoted and the separation into a thin and thick fraction is improved.

In a specific embodiment the device according to the invention is characterized for this purpose in that the extraction means 1033829 2 comprise at least one discharge opening arranged in the composting space, and at least one inlet conduit connecting the at least one discharge opening arranged in the composting space. At least one pump element can be included in the return line.

In a further embodiment, according to the invention, the return line is divided into a plurality of sub-lines, wherein each sub-line connects to an inlet opening arranged in the composting space. Through the multiple sub-lines, a more efficient return and distribution of biogases is realized back into the composting space, whereby the composting process is further positively influenced. Analogously to the embodiment outlined above, a pump element can also be included in one or more sub-lines in this embodiment, so as to promote the return of biogas to the composting space.

According to a functional embodiment, the device for this purpose is characterized in that the composting space is designed as a tubular space, wherein furthermore the tubular composting space is surrounded by an envelope tube. With this embodiment a compact, yet manageable construction is realized in which biogases can be collected from the composting space in an efficient manner and without losses and are effectively re-introduced back into the composting space via the return line / part lines. By providing insulation between the composting space and the casing tube, the temperature balance in the composting space can be better guaranteed, which benefits the fermentation or composting process in the composting space.

The biogases originating from the composting space can be passed through a water column (washing of the biogases) and optionally vented to the outside atmosphere or collected for another application. Of course, the biogases can be returned to the composting space for the fermentation and / or composting process.

For the purpose of separating the liquid fraction from the manure, according to the invention, the filter means comprise at least one first tube which extends through the inlet side into the composting space, which first tube is provided with a large number of filter openings in its circumferential surface.

In a further additional embodiment, the filtering means may comprise at least one further tube extending into the composting space via the input side.

The use of one or more filter tubes extending into the composting space allows effective extraction of the liquid fraction via these filter tubes from the composting space. By using two or more filter tubes which extend into the composting space, the extraction of the liquid fraction from the manure can be further optimized, certainly if, according to a further feature of the invention, the further tube is longer than the first tube and preferably twice as long.

It has been found experimentally that if the first tube has a length equal to approximately one third of the length of the composting space seen in the direction of the feed of the manure, an effective withdrawal or separation of the liquid fraction from the manure is realized in this way.

In order to influence or promote the composting process in the composting space, according to the invention the composting space is provided with heating means and control means which control the temperature in the composting space with the aid of at least one temperature sensor. The heating means can herein comprise at least one heating ribbon wrapped around the composting space.

The throughput of the manure to be composted through the device in the direction of the discharge side can be influenced in that the composting space according to the invention can be arranged at an angle with the horizontal with the aid of angle adjusting means. More specifically, the angle adjusting means 25 comprise a hoist arranged near the discharge side.

The method according to the invention is characterized by the steps of: i) feeding manure into a composting space; ii) separating the liquid fraction from the solid fraction; Iii) discharging the liquid fraction; iv) fermenting the solid fraction; v) composting the solid fraction; and vi) hygienizing the composted, solid fraction.

More specifically, step iv) includes the step of vii) extracting fermentation gases from the composting space; and viii) returning at least a part of the fermentation gases into the composting space, wherein step iv) further comprises the step of ix) feeding oxygen into the composting space.

More specifically, step iv) further comprises the step of x) heating the solid fraction to be fermented, in particular to a temperature of about 40 ° C - 50 ° C and step v) further comprises the step of xi) heating of the solid fraction to be composted, in particular up to a temperature of about 60 ° C -80 ° C.

According to the invention, step vi) further comprises the step of xii) heating the solid fraction to be composted for at least 1 hour, in particular to a temperature of approximately 70 ° C.

The invention will be further elucidated with reference to a drawing, which drawing successively shows in figure 1 a schematic embodiment of a device according to the invention; Figures 2a-2c show different views of an embodiment of a device according to the invention.

For a better understanding of the invention, the corresponding parts will be indicated by identical reference numerals in the following description of the figures.

The embodiment of a composting device according to the invention schematically shown in Figure 1 is designated by the reference numeral 1 and has a composting space 10 provided with an input side 10a and an output side 10b. The composting space is here elongated and more specifically designed as an elongated feed-through tube which is adjustable at an angle α with respect to the horizontal.

For the purpose of the angle adjustment, or the adjustment of the positioning angle a, positioning means 20 are included, in this case designed as a hoist 30 or pulley, which are connected to the device 1 by means of a hoisting cable 20a near the discharge side 10b.

Manure composed of a liquid and solid fraction is fed into the composting space 10 via a supply means 11a (for example a pump element) and a supply line 11 via the supply side 11a (not shown) stock, for example a slurry pit or slurry storage vessel.

The reference numeral 12 schematically indicates filtering means, which filtering means separates the liquid fraction from the solid fraction and discharges it from the device 1 via the discharge line 12a. This liquid fraction is mainly water and can therefore be spread across the country without the need for specific (environmental) exemptions. The thick fraction is forced through the composting space 10 in the direction of the discharge side 10b. The movement of the thick fraction through the composting space 10 takes place on the one hand through the supply element / pump element 11a and on the other hand through the other supply element / pump element 18a, which forms part of the air supply means 19, 19a-19e to be explained later in this description.

During the passage of the manure through the composting space 10, a fermentation or composting process is automatically initiated with all kinds of fermentation or biogases as the residual product. The biogases are withdrawn from the composting space 10 by means of extraction means 13 and are returned via a return conduit 13 'to the composting space 10. The extraction means are thereby constructed as at least one return conduit 13 which is connected to a discharge opening 14a arranged in the composting space 10. . A compressor 18b is included in the line 13-13 '.

The biogases are returned via the return line 13-13 'to the composting space 10 via at least one inlet opening 15a. More specifically, the return line 13 'is divided from a plurality of sub-lines 13a-13e, each of which again connects to the composting space by means of an inlet opening 15a-15e and thus returns biogases to different positions in the composting space 10. Multiple return lines 13-13 'can also be used to extract biogas from the composting space 10 at different places and to lead them back into the composting space.

An excess of biogases can be passed through a water column (not shown) (washing of the biogases) and possibly be blown off via the blow-off opening 13z to the outside atmosphere or collected for another application.

In order to control the backflow of biogases from the composting space 10 via the return conduit 13 ', the dividing conduits 13a-13e and again the composting space 10, a regulating valve 6 21a-21e is included in each dividing conduit 13a-13e. Similarly, heating elements 17 are arranged around the composting space 10, which heat the manure in the composting space 10, so as to stimulate and initiate the fermentation and composting process.

In order to properly control the composting process in the composting space 10 and in particular to be able to control the temperature in the composting space 10, a plurality of temperature sensors 16 are arranged on the outer wall of the composting space 10 (or in the composting space 10). These temperature sensors measure the local temperature in the composting space and therefore of the manure present and transmit these temperature measurement signals to a control unit (not shown) which partly controls the composting process in the composting space 10 on the basis of the measured temperature signals.

For a good composting result of the device according to the invention, it is desirable that the manure present in the composting space 10 (solid fraction and to a lesser extent also a liquid fraction) start composting for a minimum of 1 hour and at a process temperature of 70 ° C. The composting process is hereby accelerated and also maintained, whereby due to the presence of return means 13 (the return line 13 ') all the biogas generated is reused for the composting process. Optionally, the process can be further influenced by actively introducing oxygen into the composting space.

During the displacement of the manure and in particular the solid fraction from the inlet side 10h in the direction of the outlet side 10d, the temperature sensors 16 and the heating elements 17, both of which are arranged over the full length of the composting space 10, set the process temperature at different places in the composting room.

The manure will be kept near the input side 10a at a temperature of around 37 ° C (the filtering step). After filtering, the thickened fraction will be passed on to the middle section of the composting room where the fermentation process is started. There, the temperature will rise to 50 ° C and biogases will be extracted and possibly, together with oxygen, be returned via the return line 13-13 'to the composting space 10. The biogases can optionally be vented.

7

Finally, after the fermentation process, the thickened fraction will be moved to the outlet end 10b of the composting space 10, where the final composting of the manure will take place at an average temperature of 70 ° C. By allowing this composting process to take place for at least an hour, the compost is also hygienized, so that the end product is also suitable for export purposes. The composted manure (thick fraction) leaves the device 1, more in particular the composting space 10 via the outlet side 10d where it is stored elsewhere for further purposes.

As already indicated, the flow of the manure through the composting space 10 can be adjusted on the basis of the angle adjusting means 20-20h. However, with the angle adjustment means 20-20h, the most efficient separation of the liquid fraction from the manure can also be realized by means of the filter means 12.

Figures 2a-2c show another embodiment of the composting device according to the invention. It is noted here that identical reference numbers are used for the corresponding parts.

In figure 2a the reference numeral 1 again indicates the position that wheels 1a can be moved over a subfloor. Trays 2a-2b are placed on or in the frame 1 for the purpose of collecting the liquid fraction which is separated from the solid fraction of the manure by means of filtering means 12.

Analogously to the one shown in Figure 1, composting space 10 is introduced via the inlet side 10a of manure (composed of a liquid and thick fraction).

In the composting space 10 filtering means 12 are present which in this embodiment are built up of 1 and preferably 2 (but also several are possible) tubes 12'-12 "arranged such that they extend over substantially the full length into the composting space 10 .

To this end, the filter tube 12 'is longer than the filter tube 12', also extending into the composting space 10, wherein it is noted that for an efficient composting or separation of manure into a dry and solid fraction, the further tube 12 "is longer and preferably twice is as long as the first 8 filter tube 12 '.

The filter tubes 12'-12 "are provided with a large number of pores or openings (not shown). Because the filter tubes 12'-12" extend into the composting space 10, they are surrounded by the manure which via the input side 10a the composting space 10 is being fed. The two filter tubes 12'-12 "are provided with filter openings (not shown here for the sake of clarity) through which the liquid fraction of the manure is easily discharged via the filter tubes 12'-12" and via the outlet openings 12a'-12a " the composting space 10 and the device are discharged, either to the storage bins 10 23a-23b, or to a storage vessel arranged elsewhere from which it can be easily driven over the land.

As shown in the other partial views 2b-2c, the composting space 10 is surrounded by an envelope tube 12, which encloses a space in which the composting tube 10 is received.

The space of the casing tube 22 thus forms a buffer for biogases, which biogases can escape through the discharge openings 14a-14a as a result of the composting process. These discharge openings 14a-14a 'are in turn connected to one or more return lines 13'-13 ", which are not shown in this figure, and biogas can be extracted in the direction of the composting space after being extracted from the composting space. inlet openings 15a-15e provided in the peripheral wall of the composting space 10 are returned to the composting space 10.

As already clearly shown in the figures, the composting space 10 is composed of an elongated tube which in turn is encased by an elongated enclosure tube 22.

Arranged in the envelope tube 22 are the suitable (not shown) temperature sensors 16 which measure the current composting temperature in the left-hand composting space 10 and transmit it to (not shown control means) which, partly on the basis of these temperature signals, by means of heating elements control the temperature of the increase the composting process. Here too it has been found experimentally that the most ideal composting process takes place at 70 ° C and preferably for at least 1 hour.

In order to keep the composting process going, if not to promote it, biogases are withdrawn from the sampling space 9 via the return line 13 'and are introduced into the space 10 via the return line 13' at various other places.

In addition to heating with the aid of the heating elements 17, the composting space 10 can also be thermally insulated in a correct manner with suitable insulating materials which are arranged around the composting space 10.

The composting process, in particular the solid fraction of the manure, as well as a good flow of manure through the tubular composting space 10, is further supported by oxygen supply means 18a, which are built up from a per se known pump element and that via the oxygen supply line 19 and the different sub-lines 19a-19th oxygen at different places in the composting space 10. Each sub-line 19a-19e is connected to the composting space via an inlet opening 15a'-15e '. In this way, oxygen can be introduced into the composting space 10 in an efficient manner, whereby on the one hand the composting process is further stimulated to regulate the supply of air in the direction of the composting space 10, different valves can be arranged in the partial lines 19a-9e or valves 21a'-21e 'are provided.

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Claims (22)

Device for processing manure composed of a liquid fraction and a solid fraction, comprising - a composting space provided with an input side and an output side; filtering means for separating the liquid fraction from the manure and discharging it from the composting space, as well as feed means for feeding manure via the input side into the composting space and discharging the solid fraction of the manure via the output side from the composting space, characterized in that the device is provided with extraction means for withdrawing biogases created by the composting space from the composting space and returning these biogases elsewhere in the composting space. Device as claimed in claim 1, characterized in that the extraction means comprise at least one discharge opening arranged in the composting space, and at least one return pipe connecting the at least one discharge opening to at least one inlet opening arranged in the composting space. Device as claimed in claim 2, characterized in that at least one pump element is included in the return line. Device as claimed in claim 3, characterized in that the return line is divided into a plurality of sub-lines, wherein each sub-line connects to an inlet opening provided in the composting space. Device as claimed in claim 4, characterized in that a pump element is included in one or more sub-lines. Device according to one or more of the preceding claims, characterized in that the composting space is designed as a tubular space. 7. Device as claimed in claim 6, characterized in that the tubular composting space is surrounded by an envelope tube. Device as claimed in claim 7, characterized in that insulation material is provided between the composting space and the casing tube. 9. Device as claimed in one or more of the foregoing claims, characterized in that the filter means comprise at least one first tube reaching through the input side into the composting space, which first tube is provided with a large number of filter openings in its peripheral surface. Device as claimed in claim 9, characterized in that the filter means comprise at least one further tube, which extends into the composting space via the input side. Device as claimed in claim 10, characterized in that the further tube is longer than the first tube and preferably twice as long. 12. Device as claimed in one or more of the claims 9-11, characterized in that the first tube has a length equal to approximately one third of the length of the composting space viewed in the feeding direction. 13. Device as claimed in one or more of the foregoing claims, characterized in that the composting space is provided with heating means, as well as control means, which control the temperature in the composting space with the aid of at least one temperature sensor. Device as claimed in claim 13, characterized in that the heating means comprise at least one heating ribbon wrapped around the composting space. 15. Device as claimed in one or more of the foregoing claims, characterized in that the composting space can be arranged at an angle with the horizontal by means of angle adjusting means. Device as claimed in claim 15, characterized in that the angle adjusting means comprise a hoist arranged near the discharge side. 17. A method for processing manure composed of a liquid fraction and a solid fraction, comprising the steps of: i) feeding manure into a composting space; ii) separating the liquid fraction from the solid fraction; iii) discharging the liquid fraction; iv) fermenting the solid fraction; V) composting the solid fraction; and vi) hygienizing the composted, solid fraction. The method of claim 17, wherein step iv) comprises the step of: vii) withdrawing fermentation gases from the composting space; and viü) returning at least a part of the fermentation gases to the composting space. 19. A method according to claim 17 or 18, wherein step iv) further comprises the step of: ix) feeding oxygen into the composting space. A method according to claim 17, 18 or 19, wherein step iv) further comprises the step of: x) heating the solid fraction to be fermented, in particular to a temperature of approximately 40 ° C - 50 ° C. Method according to one or more of claims 17-20, wherein step v) further comprises the step of: xi) heating the solid fraction to be composted, in particular to a temperature of approximately 60 ° C - 80 ° C . A method according to any one of claims 17-21, wherein step vi) further comprises the step of: xii) heating the solid fraction to be composted for at least 1 hour, in particular to a temperature of approximately 70 ° C . 20 1033829