NL2010993C2 - METHOD AND SYSTEM FOR SEPARATING RAW MANURE - Google Patents

Description

Short description: Method and system for separating raw manure Description

According to a first aspect, the present invention relates to a method for separating raw manure into a thin fraction and a thick fraction, comprising the steps of - feeding raw manure to a pressurizing press type separator - separating with the separating device the raw manure in a thick fraction and a thin fraction - removing the separated thick and thin fraction from the separator.

In this document, the term pressing pressure type is understood to mean a collection of separating devices in which a thin fraction from raw manure, or at least from a manure substance, is pressed by means of a pressing pressure. The pressure must herein, at least according to the definition of the pressing pressure type used in this document, be so high that the remaining thick fraction is sufficiently dry to compost / sanitize on its own. This document describes composting / hygienizing as keeping the thick fraction at a temperature of at least 70 ° C for at least one hour, as this corresponds to a European regulation for manure to be exported. Examples of pressurization type separators are a screw jack press and certain types of drum presses that yield a sufficiently dry thick fraction. In a known method of the type described above, the thick fraction is discharged to a composting device which may or may not be connected to the screw jack press (as a pressing device type separator) or integrated into the screw jack press in which the thick fraction is hygienized, i.e. for at least one time. kept at a temperature of at least 70 ° C for an hour so that the thick fraction is suitable for export. The thin fraction is transported to an intermediate storage facility to be driven across the country at a later date

A drawback of the known method is that the resulting thin fraction contains relatively much phosphate. The processing efficiency of the thick fraction is approximately 25-30% on average. The amount of phosphate is, at least according to currently applicable Dutch legislation, for this type of thin fraction usually the limiting factor for the amount of manure (thin fraction) that can be spread on land.

The present invention therefore has for its object to provide a method of the type mentioned in the introduction, in which a thin fraction with a relatively low phosphate content is discharged. That is, the processing efficiency of the method must be higher than 30%, preferably higher than 50%. This object is achieved in that the present invention comprises the step of supplying the thin fraction discharged from the separator to a decanter-type separator, wherein the thin fraction is further separated into a decanted thin fraction and a decanted thick fraction. In this document, the term decanter separator means a collection of separators with which a processing efficiency of 50% or more is achieved, that is, at least 50% of the phosphate present in the incoming manure stream has been removed from the remaining thin fraction. Examples of decanter type separators are centrifuges, decanters and sieve belt presses (to which separators, optionally, a flocculant can be added during the separation process to achieve the desired processing efficiency). A decanted thin and decanted thick fraction is thus used to refer to a thin or thick fraction as a product of processing via a decanter-type separator. It is for this reason that when separating manure into a thin and a thick fraction in a decanter-type separator, relatively much phosphate is discharged via the decanted thick fraction, and relatively little phosphate is discharged via the decanted thin fraction.

The yield of the method according to the present invention thus consists of: a relatively dry thick fraction with an average phosphate content from the separator, a relatively wet thick decanted fraction with a relatively high phosphate content from the separation apparatus, of itself compostable / hygienizable decanted fraction from the separator with a considerably lower phosphate content than the thin fraction that has been fed from the separator to the separator.

The object of the present invention has thus been achieved with the method. Incidentally, composting / hygienizing the solid fraction is not a required aspect of the present invention. It is a very attractive additional aspect.

Although it is known to separate crude manure from a decanter type into a thin and a thick decanted fraction by means of a separator, this results in a relatively wet thick decanted fraction that is unsuitable for composting to a temperature and for a period of time without further ado. in order to hygienize on its own. However, since according to the present invention an important part of the thick fraction of the original raw manure has already been separated in the separation device, the problem of the non-compostability of the thick decanted fraction from the separation apparatus is less serious. In addition, (at least part of) the thick decanted fraction from the separator can optionally be mixed with the thick fraction from the separator to obtain a still self-compostable / hygienizable mixture. This is discussed in more detail below.

In a preferred embodiment of the present invention, a flocculant is supplied to the separation apparatus, which is intended for an increased separation of phosphate to the decanted thick fraction. There are various flocculants available on the market. The person skilled in the art knows which flocculants are suitable for binding phosphate. The flocculant binds to the phosphate from the raw manure and thus the bound phosphate with a larger mass will be driven further out during centrifugation, i.e. more into the thick fraction. Thus, in a decanted thin fraction, less of the original phosphate is present than without the flocculant being added. This in turn has the consequence that a larger amount of (decanted) thin fraction can be spread over land compared to a thin fraction from the separation device.

When, in addition to the thin fraction, a proportion of raw manure is supplied to the separator, it is ensured that a mixture of the thin fraction from the separator and the raw manure in the separator comprises sufficient fibers for the separator to work effectively. A minimal amount of fiber in the manure is therefore required. The wish or necessity for the supply of raw manure is otherwise dependent on the type of manure (cow, pig or chicken manure) and on the composition of the manure in question. The person skilled in the art can determine which ratio of thin fraction: raw manure will yield an acceptable separation result.

A well controllable continuous process is possible when the thin fraction from the separator is fed directly to the separator via a fluid line or via a buffer supply. Thus, constantly thin fraction can be discharged from the separator and constant thin fraction can be fed from the separator into the separator. This can possibly be carried out without human intervention. An optional buffer stock can disconnect any batch or interruptible operation of the separator from the process of the separator, preferably continuously for a longer period of time, the buffer stock being able to cause the separator to temporarily dispose of a thin fraction from the separator can continue to work.

It is thereby preferred that a pumping device is present with which the thin fraction is pumped from the separating device to the separating device. This can be done directly or via a previously mentioned buffer stock.

When composting / hygienizing the thick fraction from the separator has sufficient heating capacity to cause the thick fraction to rise to a temperature above 70 °, it is preferable that at least a part of the decanted thick fraction is mixed with the thick fraction fraction from the separator. Thus (at least a part of) the decanted thick fraction, which is in itself unsuitable for composting / hygienizing without adding energy, can be composted / hygienized with overcapacity of the thick fraction from the separation device. Moreover, the proportion of phosphates in the remaining mixed thick fraction can thus be increased, since the decanted thick fraction has a higher phosphate content than the thick fraction from the separator. This increases the value of the resulting mixed thick fraction for export purposes.

The raw manure is preferably supplied from a storage silo to the separation device and optionally to the separation device. A storage silo is suitable for uncoupling a supply of raw manure and its processing in a method according to the present invention. Supply lines can be provided between the storage silo on the one hand and the separating device or the separating device on the other hand, through which raw manure can be supplied from the storage silo to the respective separating device or the respective separating device, preferably by means of one or more pumping devices.

The separating device and / or the separating device is preferably provided with an overflow protection which returns any overflow of raw manure and / or, in the case of the separation apparatus, an overflow of thin fraction to a point upstream of the relevant step in the separation process. This can for example be the stock silo.

According to a second aspect, the present invention relates to a separation system for separating raw manure into a thin and a thick fraction, comprising a separation pressure type device with an inlet opening through which raw manure is supplied to the separation device, a first outlet opening through which a thin fraction is discharged from the separator during use and a second outlet opening through which a thick fraction is discharged from the separator during application. Such a device is known, for example in an embodiment as a screw jack, the operation of which has already been discussed in the introduction of this document. Here too the disadvantage of a relatively high phosphate content in the discharged thin fraction is solved by the present invention in that the separator is connected via the first outlet opening and possibly a buffer storage and a fluid line (not shown) to a decanter-type separator, so that a thin fraction from the separator can flow via the fluid channel to the separator in which the thin fraction is subsequently treated.

The separation system is preferably adapted to perform a method according to the first aspect of the present invention, the advantages of which have already been discussed above.

In a preferred embodiment according to the present invention, a pumping device is provided for pumping the thin fraction from the separating device through the fluid conduit to the separating device. The one pumping device, or at least pumping devices, can also be provided for pumping raw manure / or a thin or thick fraction between different elements of the separation system.

For obtaining a substance that can be separated properly by means of the separating device, it is preferred that an admixing line leading into the separating device is provided, with which, when used, raw manure is fed to the separating device. Thus, different variables of the separation system can be influenced by admixing raw manure as desired. Examples of such materials are a good ratio of thick fraction to thin fraction in a manure substance to be processed by the separator or the amount of relatively wet decanted thick fraction that must or may be supplied from the separator to the separator.

It is preferred here that a dosing device is provided which mixes decanted thick fraction from the separator dosed with the thick fraction from the separator, before the mixed thick fraction from the separating means (the separating device and the separating device) is composted or at least becomes composted / hygienized. For this purpose, one or more temperature sensors can be provided which measure the temperature in the composting device, and record the value to which the temperature in the mixed thick fraction rises during composting / sanitization. Feedback of that temperature makes it possible to determine somewhat how much relatively wet thick fraction can be added to the composting device.

In a preferred form according to the present invention, one or more overflow protection devices are provided which are effective for discharging an excessively large amount of substance supplied to the separator or separator upstream, for example to the storage for raw manure. Thus, a separation process performed with the separation system can be controlled.

The present invention will be explained in more detail below with reference to figure 1, in which an example of a method for separating raw manure according to the present invention into a thin and a thick fraction is represented by means of a flow chart.

According to the flow chart, raw manure is supplied to a storage silo in a first step. The raw manure can be supplied directly from a manure cellar to the separation device, but can also be transported to the storage silo via manure transport vehicles. A storage silo disconnects the often discontinuous supply of manure from the, preferably continuous, process of separation. The raw manure is then pumped, for example by means of a submersible pump, to a screw jack press known per se, for example an SP1100 HD screw jack press. The screw jack press is an example of a pressing pressure type separator.

In the screw auger press liquid (thin fraction) is pressed in a manner known per se under high pressure from the raw manure, as a result of which the remaining substance becomes increasingly drier and thus thicker. The thick fraction from the screw jack press is transferred to a composting device, in this case a BC50 for composting / hygienizing. In the present example, the BC50 is integrated with the SP100 HD, but a flow is nevertheless shown between the screw jack and the composting device in the flow chart.

The thin fraction that has been pressed from the raw manure is pumped from the screw auger press via a fluid line to a per se known decanter. The decanter is an example of a decanter type separation device. In practice, this pumping will take place via a buffer storage in order to be able to better process the possibly discontinuous stream of thin fraction from the screw jack press in a, preferably continuously operating, decanter. At the same time, raw manure is supplied from the storage silo to the decanter, so that a mixture of thin fraction from the screw jack press and raw manure from the storage silo is processed in the decanter. In the decanter, this mixture, now by centrifugation, is again separated into a decanted thin fraction which is discharged to an intermediate storage for thin fraction and a decanted thick fraction which is discharged to an intermediate storage with a dosing system.

The decanted thin fraction is eminently suitable for driving across the country and is therefore collected by a manure transport vehicle. Because the decanted thin fraction contains relatively little phosphate, relatively much liquid can be spread per unit area before the maximum permitted amount of phosphate per unit area has been reached.

In the BC50, the temperature of the composting thick fraction from the screw jack press is registered by means of per se known sensors. The values thus obtained are passed on to a control device, where on the basis of the measured values it is determined how much decanted thick fraction from the dosing system can be mixed with the thick fraction from the screw jack press without the risk that during composting the temperature falls below 70 ° C C comes or stays. After the mixture of the thick fraction has been kept at a temperature above 70 ° C for a sufficient time from the screw jack and from the decanter, the thus-hygienized thick fraction is also transported to an intermediate storage from which the hygienized thick fraction can be exported.

The invention can be further explained on the basis of practical examples of phosphate and nitrogen levels in pig manure. The values are indicative, but because manure is a natural product, deviations from the stated values can occur in practice. The principle of the present invention can easily be deduced from the example.

In a ton (1000 kg) of raw pig manure there is approximately 4.0-4.5 kg of phosphate and 6.2-6.7 kg of nitrogen. When the raw manure is separated into a thin fraction and a thick fraction using a screw jack press, there is approximately 3.5-3.7 kg of phosphate and 6.0-6.5 kg of nitrogen in a ton of thin fraction. There are approximately 10-12 kg of phosphate and 8-9 kg of nitrogen in a ton-thick fraction from the screw auger press.

When the raw manure is separated into a thin fraction and a thick fraction with the help of a decanter, there are approximately 1-1.25 kg of phosphate and 6.5 kg of nitrogen in a ton of thin fraction. There is approximately 18-20 kg of phosphate and 9-10 kg of nitrogen in a ton-thick fraction from the screw auger press.

Based on these data, it can be calculated that after separation of pig manure by a screw jack press, the phosphate content in the thin fraction is approximately 90% of the phosphate content in the raw manure. When manure is separated with a decanter, the phosphate content in the thin fraction is approximately 25% of the phosphate content in the raw manure. By subjecting the thin fraction from the screw jack press in the decanter to a second separation process, more than half (75%) of the 90% of the original content in the thin fraction is removed from the thin fraction. A relatively low phosphate-free thin fraction thus remains. The phosphate-rich thick fraction from the decanter (18-20 kg per tonne) can be mixed with 10-12 kg phosphate per tonne for the thick fraction.

The values provided in the example have indeed been obtained from practice. It will be clear that not only do manure from different animal groups, such as pigs, cows, chickens, differ from one another in composition, but that there may also be (large) differences in the composition of manure from different animals within the same species.

The present invention has been further elucidated hereinbelow on the basis of an exemplary method according to the present invention. However, the description of the process has no limiting influence on the scope of the present invention, which is defined by the following claims. Thus, various, whether or not obvious, variants can be applied within the scope of protection defined in the following claims. For example, instead of a screw jack press, a different type of press can be used as a separating device, wherein the thin fraction is pressed from raw manure by means of pressing pressure until a thick fraction remains that reaches a temperature of more than 70 degrees Celsius upon composting. Instead of the decanter, a different type of separation device could be used, whereby a relatively large proportion of phosphate remains in the thick fraction, so that the thin fraction is relatively free of phosphate. Furthermore, it is clear that different material flows can be added between the different steps. In this document, flows or substances are referred to with terms such as "rough", "thick" and "thin". It is clear that this does not only mean pure raw manure or pure thin or thick fraction. In the case of raw manure, an already processed (manure) stream may be mixed, fibers may be present in a thin fraction (this is usually also the case) and liquid may be present in a thick fraction.

List of reference marks Figure 1 1 Screw auger press 2 Decanter 3 Composting device A Raw manure supply B Raw manure storage C Raw manure pumping D Separation E Pumping thin fraction F Transferring thick fraction G Composting / hygienizing H Dosing I Storage decanted thick fraction J Separating K Storage decanted thin fraction L Storage of hygienized thin fraction

Claims (15)

Method for separating raw manure into a thin fraction and a thick fraction, comprising the steps of - feeding raw manure to a pressing pressure type separator, preferably a screw jack press - separating the manure with the separator into a thick fraction and a thin fraction - discharging the separated thick and thin fraction from the separator, characterized in that the method comprises the step of supplying a thin fraction discharged from the separator to a decanter-type separator, in which the thin fraction is further separated into a decanted thin fraction and a decanted thick fraction. A method according to claim 1, characterized in that a flocculant is supplied to the separation apparatus which is suitable for an increased separation of phosphate to the decanted thick fraction. Method according to one or more of the preceding claims, characterized in that a proportion of raw manure is supplied to the separation apparatus in addition to the thin fraction. Method according to one or more of the preceding claims, characterized in that the thin fraction from the separator is fed directly to the separator via a fluid line. Method according to one or more of the preceding claims, characterized in that the thin fraction is pumped from the separator to the separator. Method according to one or more of the preceding claims, characterized in that the decanted thick fraction is mixed with the thick fraction from the separator. Method according to one or more of the preceding claims, characterized in that raw manure is supplied from a storage silo to the separation device and optionally, depending on claim 3, to the separation device. Method according to one or more of the preceding claims, characterized in that the separating device is provided with an overflow protection that returns any overflow of raw manure to the storage silo. Method according to one or more of the preceding claims, characterized in that the separation device is provided with an overflow protection that returns any overflow of raw manure to the storage silo. 10. Separation system for separating raw manure into a thin and a thick fraction, comprising a pressing pressure type separator with an inlet opening through which, when used, raw manure is supplied to the separator, a first outlet opening through which a thin fraction from the separator when applied is discharged and a second outlet opening through which a thick fraction is discharged from the separator during use, characterized in that the separator is connected via the first outlet opening and a fluid line to a decanter-type separator, so that a thin fraction from the separator via the fluid channel can flow to the separation device. The separation system according to claim 10, characterized in that the separation system is adapted to perform a method according to one or more of claims 1 to 9. Separation system according to one or more of claims 10 to 11, characterized in that a pumping device is provided for pumping the thin fraction from the separating device through the fluid line to the separating device. Separation system according to one or more of claims 10 to 12, characterized in that an admixing line leading to the separator is provided, with which, when used, raw manure is fed to the separator. 14. Separation system according to one or more of claims 10 to 13, characterized in that a dosing device is provided, which mixes thick fraction from the separating device dosed with the thick fraction from the separating device, before the thick fraction from the separating means is composted / hygienizes, or at least is composted / hygienized. Separation system according to one or more of Claims 10 to 14, characterized in that one or more overflow protection devices are provided, which are effective in use in order to discharge a possibly too large amount of supplied substance upstream.