JPH11335683A - Production of waste material fuel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for producing a waste material fuel by treating a city dust. SOLUTION: This method for producing a waste material fuel is constituted by a wet type selection process 3 for obtaining a suspension liquid of an organic material by eliminating a heavy weight material 4 such as a metal, etc., and a light weight material 7 such as a plastic, etc., from a dust 1 containing water content at or larger than a prescribed amount, a fermenting process for producing a methane gas by treating the suspension liquid with an anaerobic fermentation, and a fuel making process 8 for making the dust 2 containing water content at or less than the prescribed amount together with a light weight material 7.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing waste fuel by treating municipal waste and the like to produce waste fuel.

[0002]

2. Description of the Related Art At present, so-called municipal garbage discharged from general households and offices is often combusted in bulk because most of it is combustible. The waste heat obtained from is used as an energy source for power generation and hot water production.

[0003] In addition to improving the operation stability of the incinerator and improving the energy recovery efficiency, the technology for environmental protection such as treatment of exhaust gas has also been improved.

However, urban garbage to be incinerated is a collection of miscellaneous garbage such as combustible garbage, mainly kitchen garbage and garden garbage, plastics, paper garbage such as books, and incombustibles such as metal and pottery pieces. Because of the irregular bulkiness and the large amount of water contained, incineration is not always an ideal treatment method in terms of energy recovery. For example,
Ordinary municipal garbage contains about 50% of water and its calorific value is often less than 2000 Kcal per 1 kg of garbage. Therefore, incineration is not a preferable treatment.

[0005] In addition, these garbage emits offensive odor because of its indefinite form and containing a large amount of water, and also contains putrefactive substances. It requires measures. Furthermore, for the above reasons, handling such as transportation and storage is very inconvenient, and it is difficult to utilize as an energy source in equipment other than a specific incinerator.

Therefore, an attempt has been made to recycle municipal waste as solid fuel. In other words, after the treatment of removing moisture and preventing odors from drying treatment, etc., it is shaped into an appropriate shape so that it can be transported and stored, and it is used as a fuel for boilers and a fuel for burning cement. To use. An example of a process for producing a solid fuel is described below. (1) Dry until the moisture contained in the garbage becomes about 10%. (2) Papers, plastics,
Combustible materials (light materials) including wood chips, metals, glass,
Sorted out from non-combustibles (heavy substances) such as pottery. (3) Combustible materials are ground to a size (about 20 mm) that can be processed by a molding machine. (4) The pulverized material is formed into a solid fuel.

[0007] The conversion of garbage into fuel as described above has an advantage in terms of recycling, because handling such as transportation and storage is easy. However, it is very difficult to remove incombustibles in the above-mentioned process, and there are many cases where manual selection is not necessary. Also, slaked lime and the like must be mixed in large amounts to prevent bad smell. Furthermore, since a large amount of heat energy is required for drying, a fundamental solution has not yet been reached in terms of effective use of energy.

Accordingly, the inventor of the present invention has conducted various studies on the conversion of garbage to fuel, particularly for effective use of energy. In the conventional conversion of garbage to fuel, removal of incombustibles has been performed, but other components have not been considered much. However, urban garbage is a collection of miscellaneous garbage, and the amount of water contained varies depending on the type of garbage.

The average amount of water contained in urban garbage is 50
Considering this, garbage and plants and the like are garbage having a water content of more than 50%, and the water content is 50%.
Garbage less than% includes papers, fibers, plastics and the like.

[0010] Kitchen garbage mainly contains leftovers and the like, and therefore has a very large water content of 80% or more, and at the same time has a strong rotting property. Plants are grass turf, plants, twigs, and the like, which are cut in the garden, and are decaying garbage like kitchen waste. Therefore, in order to convert garbage into fuel, it is preferable to remove kitchen garbage and vegetation from the objects to be treated and to use the garbage and plants effectively by other methods.

As a method for treating kitchen waste, a biochemical treatment method can be considered, especially when considering its putrefactive substances. The first method is a method in which compost is produced by performing an aerobic fermentation treatment and used for agriculture.
The second method is a method in which methane gas is produced by anaerobic fermentation treatment and is used as a gas fuel, while remaining solids after fermentation treatment are converted into compost.

In order to use as compost for agriculture, plastics, metals, glass, and the like must be removed. Since it is difficult to remove these impurities from the compost, it is necessary to remove these impurities before performing the biological treatment.

In recent years, due to environmental conservation issues and demands for recycling, local governments have been actively collecting and separating garbage, and kitchen garbage and plants are separated from other garbage as combustible garbage. More things. This is an advantageous condition for converting urban garbage into fuel, since garbage with a low moisture content only needs to be treated.

However, in this case, there remains a problem of how to treat the remaining combustible dust. This is because even combustible waste that has been separated and collected does not mean that plastics and incombustibles have not been completely removed. There must be.

In the case of producing the above-described solid fuel, it was necessary to remove impurities. However, in the case of producing compost, plastics must also be removed at the same time. Further, in the above-mentioned case, by performing the sorting after drying the combustible waste, the method by the wind separation was effective.However, it is not necessary to dry the combustible waste when performing the biological treatment. This is not preferable for biological treatment. Furthermore, the sorting in this case must be more stringent. Therefore, removal of plastics and incombustibles has to be performed in a state where the water content is very large, which has been a major problem.

In order to find solutions to the above-mentioned problems in the solid fuel production and combustible waste treatment methods as described above, and to make the treatment method practical in the future in consideration of environmental conservation and energy saving. Diligent research was conducted.

As a result, it is preferable to recover methane gas by anaerobic fermentation from the viewpoint of energy recovery for combustible garbage. In anaerobic fermentation, the methane gas is treated in a state where the processed material is suspended in a large amount of water. It has been confirmed that it is preferable to do so. Furthermore, since the processed material is suspended in a large amount of water, the sorting of plastics and non-combustible materials can be performed in a state where the processed material is mixed with a large amount of water, and thus, very good sorting can be performed. It has been confirmed that the present invention can be realized, and the present invention has been completed.

According to the present invention, when treating municipal waste,
By separating and treating high-moisture garbage and low-moisture garbage, energy recovery is maximized, and waste such as organic sludge can be treated to produce high-quality waste fuel and high-quality compost. It is an object of the present invention to provide a method for producing a waste fuel that can be used.

[0019]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention relates to a method for producing waste fuel from municipal waste or the like. After stirring and mixing with a stirring mixer in water,
While removing heavy substances such as metals by sedimentation separation,
A wet separation step of obtaining a suspension of organic substances by removing lightweight substances such as plastics by a separation means such as sieving, and a fermentation step of generating methane gas by subjecting the obtained suspension to anaerobic fermentation treatment. And drying the low-moisture trash together with the light-weight substance to produce a fuel. And the methane gas generated in the fermentation step is used as a heat source for drying in the fueling step, or is used in a gas engine to generate power, and the waste heat of the gas engine is used as a heat source for drying in the fueling step. And a means for using the waste fuel produced in the fueling step for drying in the fueling step.

[0020]

According to the present invention, the above means are adopted.
In the wet sorting process, heavy substances such as metals and lightweight substances such as plastics are separated from high-moisture refuse to obtain a suspension of organic substances. In the fermentation step, the suspension is subjected to anaerobic fermentation to generate methane gas. On the other hand, low-moisture trash is removed together with a light-weight substance in the fueling step to remove foreign substances, and then dried in the fueling step to obtain fuel.

[0021]

Embodiments of the present invention shown in the drawings will be described below. FIG. 1 shows a processing step showing a method for producing a waste fuel according to the present invention. First, refuse is separated into high-moisture refuse 1 having a water content of 50% or more and low-moisture refuse 2 having a water content of 50% or less. The high-moisture dust 1 having a water content of 50% or more is sent to a wet sorting step 3. Then, in the wet sorting step 3, the pulverization and the mixing with a large amount of water in a mixing tank provided with a stirrer are performed. The amount of water added is such that the percentage of solids after mixing is about 10-15%. Further, as the stirrer, a stirrer which applies a shearing force to the solid to promote pulverization is preferable.

In this mixing tank, a heavy substance 4 such as metal
Is settled and separated in the mixing tank. The suspension from which the heavy substances 4 have been removed is then subjected to removal of light substances 7 such as plastics by a rotary screen equipped with a cylindrical rotating screen or a similar device to become organic substances suspended in water. Conventionally, when biological treatment is performed in human waste treatment equipment, heavy substances 4 such as sand and lightweight substances 7 such as plastics are removed in a pretreatment step. Can apply these technologies.

In the wet sorting step 3, not only combustible garbage such as kitchen garbage and vegetation but also, for example, excess sludge and contaminants discharged from night soil treatment equipment, livestock waste, and the like are mixed. It is also possible to process.

The suspension of the organic matter obtained in the wet sorting step 3 is sent to the fermentation step 5 where it is subjected to anaerobic fermentation treatment to generate methane gas. Actually, it is also called biogas because it contains about 35% carbon dioxide. With estimated for municipal waste 1000kg consisting of high moisture waste 350kg and low moisture dust 650 kg, biogas low heating value 5500Kcal / m ³ by fermentation processes about 35m ³
Will be obtained. Biogas can be used as fuel as it is, and can also be used as fuel for power generation equipment using a gas engine.

The slurry after the fermentation treatment is dehydrated and separated into a solid content and a liquid content. The solid content can be adjusted to a water content of about 60% by slightly drying or the like to obtain a high-quality compost 6. About 80 kg can be obtained per 1000 kg of urban waste. The water from which the solid content has been removed is returned to the wet sorting step 3 and reused.

The low-moisture refuse 2 is sent to the fueling step 8 together with the light-weight substance 7 removed in the wet sorting step 3, and the foreign matter 9 such as incombustible substances is removed in the fueling step 8 to produce waste fuel. 10 are manufactured. The fueling process 8 of the present invention is simpler than the conventional process, and equipment costs and operating costs are reduced. That is, since high-moisture refuse 1 such as kitchen garbage has been removed in advance, it is very easy to remove incombustibles, and since it does not contain putrefactive substances, there is no need for a treatment for preventing odor. Further, since the water content is small, the heat energy required for drying is small.

Then, from the 1000 kg of urban garbage,
% Waste fuel can be produced about 400 kg.
The low calorific value of this waste fuel is about 4100 Kcal.
Since there is no need to mix slaked lime or the like, it can be said that the ash content after combustion is small and high quality fuel.

The amount of heat required for drying in order to obtain 400 kg of the above-mentioned waste fuel is about 150,000 theoretical heat.
Kcal. As a heat source used for drying, biogas generated in the fermentation step or, when power is generated using biogas as fuel, its waste heat (waste gas) can be used. Considering the thermal efficiency in the drying process,
Since these heat sources alone may be somewhat insufficient, it is necessary to use, for example, the waste fuel produced here. However, in the wet sorting process, not only a part of the municipal garbage but also organic sludge from other facilities can be treated at the same time. Rather, by appropriately selecting these heat sources, the overall effective use of energy itself is a great merit.

At present, waste fuel is often formed into a fixed shape, but the waste fuel of the present invention is not necessarily limited to this. Further, the case where the moisture is 50% or more as the high moisture dust has been described. However, the present invention is not limited thereto.
% In this case, and in this case, naturally, the low-moisture dust has a moisture content of 60% or less.

[0030]

According to the present invention, the following effects are exhibited by the above-described structure. High quality waste fuel can be manufactured. High quality compost can be manufactured. Energy recovery can be performed as effectively as possible. Other wastes such as organic sludge can be treated.

[Brief description of the drawings]

FIG. 1 is an overall schematic diagram showing a method for producing a waste fuel according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... High-moisture trash 2 ... Low-moisture trash 3 ... Wet sorting process 4 ... Heavy substance 5 ... Fermentation process 6 ... Compost 7 ... Light-weight material 8 ... Fuel conversion process 9 ... Foreign matter 10 ... Waste fuel

Claims (5)

[Claims] 1. A method for producing waste fuel from municipal waste or the like, comprising: mixing high-moisture trash in water with a stirrer and mixer, removing heavy substances such as metals by sedimentation separation, and removing plastics. A wet separation step of obtaining a suspension of organic matter by removing light substances such as sifting by a separation means such as sieving, and a fermentation step of generating methane gas by anaerobic fermentation treatment of the obtained suspension, A process for drying low-moisture refuse together with the light-weight substance to produce a fuel, and producing a fuel. 2. The method for producing a waste fuel according to claim 1, wherein the high-moisture waste has a water content of 50% or more. 3. The methane gas generated in the fermentation step,
The method for producing waste fuel according to claim 1, wherein the method is used as a heat source for drying in the fueling step. 4. The waste according to claim 1, wherein power is generated using a gas engine that uses methane gas generated in the fermentation step as fuel, and waste heat of the gas engine is used as a heat source for drying in the fuel conversion step. Production method of fuel. 5. The method for producing a waste fuel according to claim 1, wherein the waste fuel produced in the fueling step is used for drying in the fueling step.