JP2000263097A - Treatment of livestock excreta - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a treatment method of livestock excreta enabling the recovery of useful energy resources from livestock excreta and useful for reutilizing waste as various fertilizers or energy sources. SOLUTION: In a treatment method of livestock excreta, livestock excreta is separated into a solid and a liquid by solid-liquid separation and the solid is subjected to drying treatment until the water content thereof becomes 70% or less to be composted. In addition, the liquid obtained by solid-liquid separation is subjected to methane fermentation to recover methane.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to pig dung, chicken dung,
A method for treating livestock manure that can be widely applied to livestock manure such as cow dung, horse dung, sheep dung, etc. More specifically, it is possible to effectively recover energy resources from livestock manure and to dispose waste into various fertilizers and energy sources. The present invention relates to a method for treating livestock manure which is useful for reusing as animal waste.

[0002]

2. Description of the Related Art In recent years, from the viewpoint of effective use of resources, a resource recovery method or system for recycling organic wastes such as human waste sludge and livestock manure has been expected in place of conventional waste disposal. Treatment plants equipped with such recovery methods and systems are not limited to conventional methane fermentation technology in sewage and wastewater treatment, but are also used as composts and other fertilizers to be used as composts for resource recovery and various organic waste disposal. There is a need for efficient methane fermentation of materials and resource recovery as an energy source. It is also important to reduce the volume of sludge and organic waste to reduce the amount of waste itself.

However, conventionally, in the ordinary organic waste treatment, for example, for livestock manure as a specific waste, the most effective method of resource recovery is considered from the viewpoint of energy recovery efficiency and thermal energy efficiency of the entire processing system. There were very few examples of what it looked like. Also, in an organic waste treatment system, by reusing the waste generated or discharged in each process in the system itself, it is possible to minimize the amount of waste that cannot be collected and leads to waste disposal. The construction of treatment processes and treatment systems has not been considered much.

[0004] On the other hand, among the organic wastes, livestock manure has a considerably different property from ordinary human waste sludge, and differs in that it has a problem in resource recovery. For example, when night soil sludge is decomposed by methane fermentation, there is a problem in that the night soil sludge is degraded by cell walls and the like. On the other hand, livestock manure is relatively easily decomposed and fermented, and is suitable for reuse as fertilizer. However, unlike the usual treatment method for human waste and garbage, etc., when livestock waste such as pig manure is targeted, even if the treatment by methane fermentation is performed, ammonia Due to its extremely high concentration,
A unique processing method is required.

[0005] That is, although there are some reports on a method of treating livestock waste such as pig manure, ammonia contained in a large amount in livestock manure became an inhibitory factor, and a sufficient methane fermentation treatment could not be performed. Usually, for example, 2,000 for pig dung
About 3,000 ppm of ammonia exists, chicken dung,
Other livestock manure, such as cow dung, horse dung and sheep dung, is also characterized by an extremely high ammonia concentration. When the ammonia concentration is high as described above, the methane fermentation bacteria are not activated in the fermenter, so that methane fermentation is inhibited and methane gas is hardly generated. Therefore, there has been a demand for a waste treatment method or a treatment system applicable to waste having an ammonia concentration of 1,000 ppm or more.

On the other hand, it is not preferable to perform a pretreatment to lower the concentration of livestock excrement by diluting with water or the like.
If livestock manure is diluted, the total amount of waste to be treated increases, and the methane fermenter becomes extremely large. Therefore,
It is necessary to keep the concentration of pig manure etc. high and treat it without increasing the amount of waste. Also, when performing methane fermentation,
It needs to be heated to some extent, so dilute it,
If the device becomes large, a large amount of heat is required, and energy becomes inefficient.

[0007]

DISCLOSURE OF THE INVENTION In view of the above problems, the present inventors regard livestock waste as a kind of resource in the treatment of livestock manure, which is one of the organic wastes, to improve energy recovery efficiency. From the viewpoint of the thermal energy efficiency of the entire processing system, the present inventors have conducted intensive studies to develop a processing method that enables unprecedented effective resource recovery. As a result, the present inventors, in the treatment method for livestock manure, making use of its characteristics to effectively utilize solid-liquid separation to compost solids, and effectively perform the liquid methane fermentation step It has been found that such problems can be solved by combining the above. The present invention has been completed from such a viewpoint.

[0008]

That is, according to the present invention, livestock manure is separated into a solid and a liquid by solid-liquid separation, and the solid is dried to a water content of 70% or less and then composted. The present invention provides a method for treating livestock manure, which is characterized in that it is converted (composted). here,
The water content is preferably 50 to 70%, more preferably 65% or less, and particularly preferably 60% or less. In addition, the present invention, after separating livestock manure into solids and liquids by solid-liquid separation, drying the solids to a water content of 70% or less, and then composting,
An object of the present invention is to provide a method for treating livestock manure in which a liquid subjected to solid-liquid separation is subjected to methane fermentation to recover methane gas. here,
It is preferable to perform an ammonia removal treatment before the methane fermentation of the liquid subjected to the solid-liquid separation. Also,
The heat treatment of the methane gas may be used as the drying energy of the solid to perform the drying treatment. Thus, when a treatment system is used, heat energy can be effectively used, and composted fertilizer can be easily returned to farmland. The water content of the product after composting is preferably 20 to 50%, and more preferably 30 to 40%. As the ammonia removal treatment, for example, treatment by a stravite method (crystallization method) or a stripping method is preferable. And, as the organic waste to be subjected to such an ammonia removing treatment, the amount of ammonia is 1000 ppm or more, and moreover 200 ppm.
It is effective for those containing 0 ppm or more, and these include general livestock waste.

According to the present invention, livestock manure, which is one of the organic wastes, has high recovery efficiency as an energy source and can be recovered as methane gas or various fertilizers. In addition, the treatment method of the present invention considers the heat balance at each stage of the treatment process, and therefore is an advantageous method having excellent thermal energy efficiency as compared with other treatment methods as a whole system, and is efficient. Resources can be collected. Furthermore, in carrying out the treatment method, since the treatment after solid-liquid separation is performed as a whole system, resources can be efficiently recovered from the generated or discharged treated material, and the amount of final disposal treatment can be reduced. .

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a specific embodiment of a method for treating livestock manure according to the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 schematically shows steps of an embodiment performed in the present invention.
FIG. 1A shows an embodiment (part 1), and FIG. 1B shows an embodiment (part 2).

Embodiment (1) In the treatment method of this embodiment, livestock manure is separated into solids and liquids by solid-liquid separation, and the solids are dried to a water content of 70% or less. After the treatment, it is composted, and the liquid separated into solid and liquid is subjected to methane fermentation to collect methane gas. The water content is preferably 50 to 70%, more preferably 65% or less.

In the present invention, livestock manure is first treated in a solid-liquid separation step to separate it into a solid and a liquid. In the solid-liquid separation step, the solid is separated into water and moisture by a method such as centrifugation, and the solid is converted into compost (fertilizer) through a subsequent drying treatment or the like. The apparatus used in the solid-liquid separation step is not particularly limited, and can be widely used as long as it can separate solids and liquid. Specifically, for example, a solid-liquid separator such as a centrifugal separator, a screw press, a filter press, and a roller press can be used.

Since the main object of the present invention is to recover resources, the solid matter after solid-liquid separation is composted so that it can be returned to farmland as a fertilizer such as compost or culture soil. Solid matter obtained by solid-liquid separation of livestock manure is relatively easily dissolved in water and easily eaten, and is suitable for reuse as fertilizer. For processing into compost (composting), the water content of the solid matter needs to be 70% or less, preferably 50 to 70%,
More preferably, it is in the range of 65% or less. When solid-liquid separation is performed by ordinary centrifugation or the like, the obtained solid content has a water content of about 85%, and when such extra water is contained, the solid content after solid-liquid separation is reduced. After being collected, a drying treatment is performed to reduce the water content. Then, as a solid for composting, a solid dried to a water content of 70% or less is used. Then, the obtained solid substance is converted into a compost product by further drying treatment and the like, but the final moisture content is low enough not to generate odor and high enough not to generate dust. . Therefore,
The water content of the compost after the drying treatment or the like is preferably 20 to 50%, more preferably 30 to 40%.
Range.

Further, in the present embodiment, as shown in FIG. 1, the methane gas generated by the methane fermentation of the separated liquid, which will be described later, is subjected to solid-liquid separation treatment after solid-liquid separation and solid composting. It can be used as heat energy in the drying process for forming By utilizing heat energy in the treatment system in this manner, resources can be efficiently collected as a whole system, and waste can be treated with little waste in terms of energy. Even when solid matter is generated by solid-liquid separation after methane fermentation, composting can be efficiently performed by mixing and drying the solid matter after solid-liquid separation.

In the present embodiment, the liquid after solid-liquid separation is subjected to methane fermentation in addition to the basic process of the present invention for solid-liquid separation of livestock manure and composting solid matter. As a result, waste can be recovered as methane gas as an energy source, and waste treatment of the liquid can be promoted. Methane gas generated by methane fermentation can of course be recovered as an energy source, but has considerable thermal energy, and is used as drying energy when drying solids or composting solids. The liquid after methane fermentation is discharged as a kind of sludge,
The solid-liquid separation is performed again, and the solid can be returned to the step of composting. As the solid-liquid separation here, a centrifugal separation method, a filter press method or the like is used in the same manner as described above. According to the present embodiment as described above, in the entire processing system, waste can be efficiently and efficiently treated in terms of thermal efficiency, and resources can be recovered as fertilizer, methane gas, or the like.

Embodiment (Part 2) This embodiment is a treatment method for removing ammonia in a stage before methane fermentation of the liquid subjected to solid-liquid separation in the above embodiment (Part 1). For removing ammonia, a treatment by a stravite method or a stripping method is preferable. An object of the present invention is to recover resources from livestock manure, one of which is to recover methane gas by methane fermentation. Livestock manure which is the subject of the present invention is characterized by a high ammonia concentration. Specifically, it usually contains ammonia in an amount of 1000 ppm or more, and sometimes 2000 ppm or more. In the present invention, livestock manure is first subjected to solid-liquid separation. In this solid-liquid separation, ammonia is not sufficiently removed, and an ammonia component is present in the separated liquid. On the other hand, as described above, in methane fermentation, since the presence of ammonia is a fermentation inhibiting factor,
For efficient recovery of methane gas, removal of ammonia is effective. For this reason, in the present invention, it is preferable to pass through the ammonia removal step A in the stage before methane fermentation of the liquid subjected to solid-liquid separation as shown in FIG.

In this embodiment, since the ammonia concentration affects methane fermentation, the solid-liquid separated liquid is subjected to ammonia removal as a pretreatment for methane fermentation. By removing the ammonia component, there is no factor inhibiting methane fermentation, and an efficient energy source can be recovered.
As a method for removing ammonia, there are a stravite method (a method by crystallization) and a stripping method (a method by blowing air). In Stra bytes method, the liquid obtained by solid-liquid separation, magnesium Mg ^2+, phosphate PO ₄ ^{2 +}
To react with ammonia NH ₄ ⁺ contained in the liquid. By this reaction, the inorganic fertilizer MgNH ₄ PO ₄
Crystals of 6H ₂ O (stravide) a precipitate out, and ammonia contained in the liquid is removed. According to the stravaid method, the inhibitory factor in methane fermentation is eliminated and, at the same time, ammonia is effectively used as an inorganic fertilizer, so that ammonia resources can be recovered.

Here, a method of recovering ammonia as struvite a has been illustrated, but any method other than the scrubite method may be used as long as it removes ammonia. For example, a method of raising the pH to about 10 and injecting air from below to blow off ammonia (ammonia stripping method) and the like can be mentioned. And
The methane fermentation is performed on the liquid after the ammonia component is removed.

[0019]

As described above, according to the treatment method of the present invention, livestock manure, which is one of the organic wastes, has high recovery efficiency as an energy source and resource recovery as methane gas or various fertilizers. Is possible. In addition, the treatment method of the present invention considers the heat balance at each stage of the treatment process, and therefore is an advantageous method having excellent thermal energy efficiency as compared with other treatment methods as a whole system, and is efficient. Resources can be collected. Furthermore, in carrying out the treatment method, since the treatment after solid-liquid separation is performed as a whole system, resources can be efficiently recovered from the generated or discharged treated material, and the amount of final disposal treatment can be reduced. .

[Brief description of the drawings]

FIG. 1 schematically shows steps of a processing method according to the present embodiment (part 1).

FIG. 2 schematically illustrates steps of a processing method according to the present embodiment (part 2).

[Explanation of symbols]

 A ammonia removal process a stravite E heat energy

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Tsuyoshi Nakamura 1-8-1, Koura, Kanazawa-ku, Yokohama-shi, Kanagawa Pref., Mitsubishi Heavy Industries, Ltd. (72) Inventor Takao Hashizume 12-nishikicho, Naka-ku, Yokohama-shi, Kanagawa Mitsubishi Heavy Industries, Ltd. Yokohama Works F-term (Reference) 4D004 AA02 AB05 AC05 BA03 BA04 CA13 CA18 CB04 CC07 CC11 CC12 DA09 4D059 AA01 BA12 BA21 BA34 BE16 BE26 BE27 BE38 BE49 BF15 CA01 CA22 CC01 CC03 EB01 4H061 AA48 GG52 GG53

Claims (6)

[Claims] Claims: 1. A livestock excrement characterized by separating livestock excreta into solids and liquids by solid-liquid separation, drying the solids to a water content of 70% or less and then composting the same. Processing method. 2. The liquid subjected to the solid-liquid separation is subjected to methane fermentation,
The method for treating livestock manure according to claim 1, wherein methane gas is recovered. 3. The method for treating livestock manure according to claim 2, wherein ammonia is removed before the methane fermentation of the solid-liquid separated liquid. 4. The method for treating livestock manure according to claim 2, wherein the thermal energy of the methane gas is used for drying the solid matter. 5. The method for treating livestock manure according to claim 3, wherein said ammonia removing step is a treatment by a stravite method. 6. The method for treating livestock manure according to claim 3, wherein said ammonia removing step is a treatment by a stripping method.