JP2001009432A - Co2 fixing/inactivating method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent global warming by reducing the generation of CO2 from incineration. SOLUTION: Unused plant waste such as lumber from thinning, trimmed branches and low-quality wood from cultivated forests, green land, farmland, etc., (block 1), waste building material from industrial waste source (block 2) and unused plant waste consisting of such org. residues as strained lees are carbonized with combustible refuse discharged from the life system as heat source (block 4). The obtained carbonized material is utilized (block 5) as non- fuel in waste water treatment, agriculture, building industry, etc. Further, the carbonized material and that after being used as the non-fuel are embedded in forests, green land, farmland, etc., (block 6). The plant waste which is normally incinerated is carbonized in this way and embedded in soil, etc., hence CO2 is not generated, and the combustible refuse is effectively utilized as a heat source.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a method for fixing / inactivating CO ₂ , and more particularly to a method for fixing carbon fixed to unused vegetable waste without discharging it to the air as carbon dioxide. It relates to a method for inactivating CO ₂ .

[0002]

BACKGROUND OF THE INVENTION Global warming by CO ₂ is progressing faster than most would expect. Some phenomena that are directly harmful to the global environment due to the effects of global warming have also appeared, and such phenomena are ever increasing. On the other hand, as for countermeasures against global warming, no dramatic development of technology has been seen so far, and a method of fixing and inactivating a large amount of CO ₂ that is continuously generated has not yet been put to practical use. Also, C
In order to reduce the emission of O _{2 into} the air, development of alternative energy that does not emit CO ₂ and reduction of energy consumption have been attempted. Further, in order to recover and fix CO ₂ in the air, treatment by chemical fixation of CO ₂ or a method by photosynthesis of algae have been proposed.
It must be said that it is not enough to fix and recover ₂ on a large scale.

At present, it is considered that forest creation is effective in fixing and recovering CO _2. However, if the forest is a system that maintains a high carbon fixing ability and functions as a carbon sink for a long period of time, I can't always say. Further, a method of transporting CO ₂ to the deep sea and fixing it as liquid carbon dioxide gas has been considered. However, in order to realize this method, there is a problem that equipment and energy for the method are increased. In this way, without fixing the carbon fixed to the plant to gasification into carbon dioxide gas by the decomposition and combustion of the plant, the carbon can be fixed and inactivated for a long time, thereby reducing the generation of CO _2. There is a need for a proposal of a practical method.

Accordingly, it is an object of the present invention to reduce atmospheric CO ₂ by carbonizing and separating carbon from the carbon cycle on the earth's surface, and to use combustible waste as the energy required for carbonization. The goal is to eliminate the need to use energy from new fossil fuels. Another object of the present invention is to make effective use of the carbide obtained by fixing / inactivating CO ₂ .

[0005]

Means for Solving the Problems In order to achieve the above-mentioned object, in the CO ₂ fixing / inactivating method of the present invention, a plant waste containing carbon fixed to a plant through carbonic acid assimilation is removed. And carbonizing the combustible waste discharged from a living system as a heat source, and burying the obtained carbide in forests, green spaces, and agricultural lands. In another CO ₂ fixing / inactivating method of the present invention, a step of carbonizing vegetable waste containing carbon fixed to a plant through carbonic acid assimilation using burnable waste discharged from a living system as a heat source, And burying the obtained carbide in soil or sediment. That is, the present invention, in order to inactivate carbon in plants for a long time without gasification by decomposition or combustion, carbonize the plant as carbon,
It was done with the view that it would have to be buried underground or underwater. In addition, the CO ₂ fixation of the present invention /
In the deactivation method, it is preferable to use the obtained carbide as a non-fuel prior to the embedding step to effectively use the carbide.

[0006]

FIG. 1 is a block diagram showing a circulation system of a method for fixing / inactivating CO _{2 according} to the present invention. In FIG. 1, block 1 indicates “growing a carbon-fixing plant”. Examples of the carbon-fixing plant include a tree in a recharged forest, a fast-growing forest such as acacia for the purpose of carbon fixation, and a street tree, and Includes greenery, agricultural land (paddy fields and fields) and park plants and trees. Block 2 indicates an “industrial waste discharge source” and includes an industrial waste recovery company, a food factory, and the like. Block 3 is an unused vegetable waste of the carbon-fixed plant grown in Block 1 and Block 2
"Unused vegetable waste" emitted from industrial waste sources. Unused vegetable waste includes thinned wood, low quality wood, unused wood waste, pruned branches, construction waste,
Organic residues (such as pomace) are included.

Block 4 represents a "carbonizing device",
The carbonization apparatus carbonizes the unused vegetable waste in the block 3 using combustible waste discharged from urban and rural areas, that is, living systems, as a heat source. Thereby, the carbon fixed to the unused vegetable waste is inactivated. A gasification and melting furnace can be used as a carbonization device, in which case the combustible waste is gasified, and the heat generated at that time carbonizes the unused vegetable waste into an external heat system. Then, the exhaust gas at the time of carbonization is returned to the gasification and melting furnace again, and the harmful substances in the waste gas are treated at a high temperature to make them harmless. The carbonization using the gasification melting furnace will be described later in detail with reference to FIG.

[0008] Block 5 shows the "use of carbide" obtained by the carbonization device of block 4, and the carbide can be used in the fields of wastewater treatment, agriculture, construction, and the like, for example. In wastewater treatment, carbides can be used for water purification and the like. In the field of agriculture, medium in facility cultivation, etc., deodorant during compost production, moisture regulator,
A carbide can be used as the decomposition accelerator or the like. In the construction field, carbides can be used for boards such as moisture absorbents and wall materials. Block 6 represents “backfilling of carbide”, in which the carbide obtained by the carbonizer in block 4 and the carbide used in block 5 are buried in the soil for growing carbon-fixing plants in block 1. It indicates that you want to. As described above, by burying carbides in soils such as forests, green lands, paddy fields, and farmland of fields, it is possible to promote plant growth by improving soil improvement and soil biological activity. For example, when buried in the soil of a forest such as a pine forest such as a shore, it is possible to promote the recovery of the vigor of these forests, thereby contributing to an improvement in the ability to fix carbon. In addition, the carbides used for these applications or the carbides not used are all placed in soil or sediment and separated from the material circulation system on the earth's surface. As a result, the carbon which has been converted into carbide does not circulate again as CO ₂ .

As described above, in the present invention, unused plant waste (block 3) from plants (block 1) and industrial waste (block 2), that is, waste that would normally be incinerated, is removed. Since carbon is combusted using combustible waste as a heat source (block 4) and carbon in plants is inactivated, CO ₂ generation by incineration can be suppressed. In addition, since the obtained carbide is buried in the form of carbide in the soil of the plant (block 6), C is obtained from the obtained carbide.
It can be inactivated so that O ₂ is not generated. Further, before being buried in soil, the obtained carbide can be used in various industrial fields (block 5). Therefore,
Although carbon is circulated in the cycle of blocks 1 to 6, since unused vegetable waste is not burned in this cycle, generation of CO ₂ due to combustion is prevented. In addition, since the heat source for carbonization is not fossil fuel-derived energy, which may be a new source of CO ₂ , but combustible waste discharged from households, effective use of the waste can be achieved.

FIG. 2 is a schematic view of a fluidized bed type gasification / melting furnace which can be used as a carbonization device in the block 4 of FIG. 1. This is based on the invention already proposed as 10-307687. In FIG. 2, combustible waste is introduced into the gasification and melting furnace 1 from the introduction section 2 and falls onto the fluidized bed 5. On the other hand, the unused vegetable waste is introduced from the input section 3 and is conveyed to the discharge section 6 through the transporter 4 provided with a number of openings. In FIG. 2, when combustible waste is put into the gasification and melting furnace 1, the combustible waste falls onto the moving bed 5 and is heated while descending in the moving bed 5, whereby it is thermally decomposed and decomposed. Be transformed into The generated gas is indicated by an arrow a
, And enters the transporter 4 from its opening,
The unused vegetable waste that is thrown in from the inlet 3 and transported in the transporter 4 is heated. As a result, the unused plant waste is carbonized and discharged from the discharge unit 6 as char. The gas generated during the carbonization is discharged from the gas discharge unit 7 together with the gas generated by the pyrolysis of combustible waste, and the discharged gas is returned to the gasification and melting furnace 1 again.
The harmful substances in the waste gas are treated at high temperature and made harmless.

As described above, the CO of the present invention is_TwoFixed
/ Inert method is to inactivate carbon fixed in plants by carbonization.
Activate and backfill the resulting char in soil or water.
Thus, carbides are circulated in the natural world. Sand
That is, carbon is cut by carbonization from the carbon cycle only on the earth's surface.
Because it is buried without being separated and used as fuel, CO
_TwoIt can contribute to reduction. Therefore, global warming
It is extremely effective in countermeasures for industrialization.

[Brief description of the drawings]

FIG. 1 is a block diagram for explaining a CO ₂ fixing / inactivating method of the present invention.

FIG. 2 is an explanatory diagram for explaining a configuration of a fluidized bed type gasification and melting apparatus that can be employed in the present invention and a carbonizing operation by the apparatus.

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C10B 53/02 C10B 53/02 F23G 5/46 ZAB F23G 5/46 ZABZ // C09K 101: 00 (72) Inventor Takahiro Ohshita 11-1 Haneda Asahimachi, Ota-ku, Tokyo Ebara Corporation (72) Inventor Hidemitsu Otsuka 11-1 Haneda Asahi-cho, Ota-ku, Tokyo Ebara Corporation (72) Inventor Hayashi Hideaki 11-1 Haneda Asahicho, Ota-ku, Tokyo F-term in Ebara Corporation (reference) 3K065 AC01 AC17 BA05 4D004 AA03 AA12 BA02 BA10 CA26 CB04 CB36 CB44 4G046 CA00 CA01 CC01 4H012 HA05 JA03 4H026 AA01 AA10 AB03 AB04

Claims (3)

[Claims] 1. A method for fixing / inactivating CO ₂ , comprising: carbonizing a plant waste containing carbon fixed to a plant through carbonic acid assimilation by using combustible waste discharged from a living system as a heat source; the resulting carbide, forest, green, CO ₂ fixation / inactivation method characterized by including the embedding step of embedding the farmland. _{2. A} method for fixing / inactivating CO ₂ , comprising: carbonizing a plant waste containing carbon fixed to a plant through carbonic acid assimilation by using combustible waste discharged from a living system as a heat source; the resulting carbide, CO ₂ fixation / inactivation method characterized by including the embedding step of embedding the soil or Sediment. 3. The method of claim 1 or 2 CO ₂ fixation / inactivation method according the method further prior to embedding step, CO _2, characterized in that utilizing the resulting carbide as non-fuel fixed / Inactivation method.