NL9101327A - Method for reducing the emission of ammonia from manure, and flushing fluid for use therewith - Google Patents

Abstract

The invention provides a method to reduce the emission of ammonia from manure in animal accommodation and/or when stored, by admixing the manure with at least one ammonia- binding agent. Prior to the admixture, the manure is preferably separated into a thick fraction and a thin fraction, and the ammonia-binding agent is added to the thin fraction to obtain a flushing fluid. The flushing fluid obtained can be used, for example, for flushing manure out of animal accommodation or for collecting therein the manure produced in the animal accommodation. The ammonia-binding agent is preferably formaldehyde.

Description

Method for reducing the emission of ammonia from manure and rinsing liquid for use therewith

The invention relates to a method for reducing the emission of ammonia from manure in an animal shelter and / or during storage and a rinsing liquid for use therewith.

Ammonia from manure escapes from animal housing. Ammonia emissions contribute to the acidification of the environment and are therefore undesirable. As soon as the manure comes into contact with air, the ammonia volatilizes. The degree of volatilization depends on a number of factors, such as the temperature and acidity of the manure and the ammonia concentration in the manure. Since the volatilization starts immediately after exposure of the manure to air, that is to say immediately after production thereof, it is important to tackle this volatilization at an early stage. In practice, this means that emissions must already be limited on the stable floor, in the manure cellar and during manure storage.

The object of the present invention is to provide a method with which ammonia emission from manure is reduced at an early stage after manure production.

This is achieved by the invention by adding at least one ammonia-binding agent to the manure in the animal shelter.

Preferably, the manure for the addition of the ammonia binding agent is separated into a thick fraction and a thin fraction, the ammonia binding agent being added to the thin fraction to obtain a flushing liquid.

A rinsing liquid obtained in this way can be used for rinsing manure from the stable floor. Because the rinsing liquid contains an ammonia-binding agent, ammonia from the manure is simultaneously bound. Another possibility is to first at least partially remove the manure from the stable floor and then rinse the floor with rinsing liquid. Regular manure removal reduces ammonia and odor emissions.

In some types of stables there is a special manure gutter. Ammonia emission can be prevented by filling the gutter with flushing liquid. Produced manure will fall into this. The liquid not only binds any ammonia that is released, but also seals the manure from the air, which prevents volatilization of ammonia. The gutter is periodically cleaned of rinsing liquid and manure contained therein.

The ammonia-binding agent can further also be added to the total manure and mixed through it, for example in the manure storage space in or outside the shed.

The method according to the invention is suitable for all types of manure, such as, for example, poultry slurry, cattle manure, meat calf manure, bull manure or pig manure.

It can also be used in all known barn systems, such as in the traditional manure cellar or manure pit, in the sewage system, in manure pans, in flushing gutters or in manure cellars and manure pits with manure scrapers.

Preferably the ammonia binding agent is formaldehyde. Formaldehyde reacts with the ammonium in the manure to form hexamethylene tetramine. This substance is known as a so-called "slow-release" nitrogen fertilizer. The reaction prevents conversion of ammonium to ammonia. In addition, the binding of basic ammonium causes a pH drop in the manure. This further slows down the formation of ammonia and reduces the emission of ammonia. The product KAPTO® from Aegten is also very suitable as an ammonia-binding agent. KAPTO® contains formaldehyde as an active ingredient. Optionally, different agents can be used in combination.

The amount of formaldehyde that is applied to the manure or the rinsing liquid depends on the dry matter and ammonia content of the manure. For manure, the content of formaldehyde to be added can be between 1 and 5%. For rinsing liquid, this content can vary from 0.2 to 4%, and preferably 1-3% is added. The dosage of the ammonia-binding agent depends on the product. For KAPTO®, which contains 12% formaldehyde, the most commonly used dosage is 1-10%.

The present invention will be further illustrated by two examples.

EXAMPLE 1

Effect of adding formaldehyde or KAPTO® to a thin manure fraction

Fresh pig slurry was separated into a thick and a thin fraction by centrifugation (centrifuge type Jouan C1000-55L) for 10 minutes at 3000 rpm. 10% KAPTO® and 3% formaldehyde were added to 1 liter portions of the thin fraction in a beaker with stirring. A number of parameters were determined before and after the separation of the manure into a thick and a thin fraction. Results of this are shown in Table 1 below.

After the thin fraction had stood at 20 ° C for 5 days with KAPTO® or formaldehyde, ammonia was again determined. Then KAPTO® (3% and 5% respectively) or formaldehyde (3%) and one part fresh manure on four parts mixture were added. After separating the mixtures into a thick and thin fraction, ammonia was again determined in the thin fraction. After a further three days at 20 ° C, the parameters were re-determined (see Table 1 below).

The table shows that the addition of KAPTO® or formaldehyde to the thin fraction of pig slurry significantly reduces the ammonia in the above air. The amount of ammonium nitrogen in the manure and the pH are also significantly lower.

EXAMPLE 2

Effect of KAPTO® on ammonium form in total manure

0 to a certain amount of fresh pig slurry was added; 0.1; 1; 3; 5 and 15% KAPTO® added. After regular swirling, a number of parameters were determined on the same day and 7 days later, respectively. Results are shown in Table 2. This table shows that with an increasing amount of KAPTO® fresh pig slurry, the ammonia content in the above air, the ammonium content in the thin fraction and the pH are lowered. At 5% KAPTO®, the ammonia content above the manure (NH3) has already decreased by 90% compared to the control.

TABLE 1 Certain chemical characteristics after addition of KAPTO® or formaldehyde to thin fraction of pig triifine ester.

* pH measured on day 11 N-NH2} and N-Kj tail respectively for auononium nitrogen and kjeldahl nitrogen - value not determined.

TABLE 2 Certain chemical parameters with and without addition of KAPTO® to fresh pig manure.

- value not determined

Claims (10)

1. A method for reducing the emission of ammonia from manure in an animal shelter and / or during storage by adding at least one ammonia-binding agent to the manure. A method according to claim 1, characterized in that the manure is separated into a thick fraction and a thin fraction before addition and that the ammonia-binding agent is added to the thin fraction to obtain a rinsing liquid. Method according to claim 2, characterized in that the obtained rinsing liquid is used for rinsing manure from an animal shelter. A method according to claim 3, characterized in that the animal shelter is at least partially cleared of the manure prior to rinsing. A method according to claim 2, characterized in that the rinsing liquid obtained is used for collecting the manure produced in the animal shelter therein. Process according to any one of claims 1 to 5, characterized in that the ammonia-binding agent is an aldehyde. Process according to claim 6, characterized in that the aldehyde is formaldehyde. Rinsing liquid for use in the method according to any one of claims 2-6, comprising a thin fraction separated from the manure and at least one ammonia-binding agent. Rinsing liquid according to claim 8, characterized in that the ammonia-binding agent is formaldehyde. Rinsing liquid according to claim 9, characterized in that the formaldehyde concentration added to the rinsing liquid is between 0.2 and 4%.