JP2000110157A - Method for improving active lime-containing ground - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for improving active lime-containing groun stabilizing solid waste ground by pouring carbonated water or carbon dioxide eutrophied gas into a groundwater layer with a specific depth of active lime (CaO)-containing soil. SOLUTION: A shaft 3 and/or tunnel 4 are excavated toward a groundwater layer E from the ground surface of active lime containing soil 1, and carbonated water 20 or carbon dioxide eutrophied gas is poured into the groundwater layer E through the shaft 3 and/or tunnel 4. Or, a pipe 6 having a plurality of holes in specific positions is loaded to the shaft 3 and/or tunnel 4 to form a vertical well 30 and/or horizontal well 40, and carbonated water or carbon dioxide eutrophied gas is poured through the holes in the pipe 6.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to activated lime (CaO)
More specifically, a method for modifying the ground containing activated lime, in which activated lime-containing ground is stabilized by injecting carbonated water or carbon dioxide-enriched gas into a groundwater layer at a predetermined depth in the soil containing activated lime. The present invention relates to a method for modifying ground containing soil.

[0002]

SUMMARY OF THE INVENTION For example, in a thermal power plant,
In addition, a large amount of coal is used as fuel. Also these combustion
Waste coal as raw material for cement and concrete
But all of the bulk waste is used in this way.
Waste cannot be buried on the site of the power plant.
I'm up. Large amount of activated lime (CaO) in waste
Waste and landfill disposal
Inside the ground, this activated lime (CaO)
Slaked lime (Ca (OH)_Two) Produces water
Dissolved and ionized to show a strong base. That is, CaO + H_TwoO → Ca (OH)_Two  Ca (OH)_Two→ Ca²⁺+ 2OH^-(OH^-Stronger base
Show)

[0003] When the soil becomes a strong base as described above, groundwater of the strong base is discharged from the activated lime-containing ground to a river, which may adversely affect fish and shellfish. Incidentally, the marine environmental standard is pH 5.6 to 8.5,
If the base exceeds 11, the fish and shellfish can no longer live. Further, when the soil becomes strong base such concrete building built in the soil corrodes in an alkaline reaction hydroxyl OH ^- compounds occurs with the iron portion of the reinforcing steel of a building becomes iron hydroxide corrosion It will proceed inside the iron.

Further, the volume expands about twice during the process of producing slaked lime (Ca (OH) ₂ ) by the hydration reaction of activated lime. Coal waste generated in a thermal power plant contains several percent of activated lime, and the volume of the entire waste expands by about several percent. For this reason, the surface of the ground containing active lime became unstable, resulting in a decrease in strength. In particular, when such a phenomenon occurs in a groundwater layer located at a considerably deep position (for example, 10 m) from the ground surface, it is impossible to control the ground surface. The object of the present invention has been made to solve such a conventional problem, in which activated lime is contained by injecting carbonated water or a carbon dioxide-enriched gas into a groundwater layer of an activated lime-containing soil. An object of the present invention is to provide a method for modifying activated lime-containing ground in which the ground such as coal waste is stabilized.

[0005]

SUMMARY OF THE INVENTION The present invention is a method for modifying ground containing activated lime, and is constituted as follows in order to solve the above-mentioned technical problems. That is, the method for modifying activated lime-containing ground of the present invention is characterized by injecting a carbon dioxide-enriched fluid such as carbonated water or a CO ₂ -enriched gas into a groundwater layer of activated lime-containing soil.

[0006] The activated lime-containing waste includes, in addition to thermal power plants, waste generated from industrial waste incineration plants, metals and ore scouring, and the like. Be eligible.

Further, in the method for modifying the ground containing active lime according to the present invention, a vertical shaft and / or a horizontal shaft is excavated from the surface of the active lime-containing soil toward a groundwater layer, and the vertical shaft and / or the horizontal shaft are formed. And then injecting the carbon dioxide-enriched fluid into a groundwater layer.

[0008] In the method for reforming activated lime-containing ground according to the present invention, a pipe having a plurality of holes at predetermined locations is loaded into the shaft and / or the horizontal shaft according to the second aspect of the present invention. Alternatively, a horizontal well is formed, and a carbon dioxide-enriched fluid is injected through a hole in the pipe.

Further, the method for reforming ground containing activated lime according to the present invention is characterized in that, in claim 1, 2 or 3, combustion exhaust gas is used as the carbon dioxide-enriched fluid. According to the method for modifying the activated lime-containing ground of the present invention, by injecting carbonated water or a carbon dioxide-enriched gas into activated lime-containing soil, the waste ground exhibiting a high pH is neutralized to reduce calcium carbonate. Generate. Due to this, the ground containing activated lime is stabilized.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a method for modifying activated lime-containing ground according to the present invention will be described in detail with reference to an embodiment shown in the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention thereto, unless otherwise specified. It is only an illustrative example. FIG.
FIG. 2 shows a system used in a method for modifying activated lime-containing ground according to one embodiment of the present invention, and FIG. 2 also shows a system used in a method for modifying activated lime-containing ground according to another embodiment of the present invention. Is shown.

(First Embodiment) A combustion furnace 2 is erected on the ground of a thermal power plant, and waste discharged from the combustion furnace 2 is reclaimed to form activated lime-containing soil 1. ing. In this activated lime-containing soil 1, an appropriate number of vertical shafts 3 and horizontal shafts 4 are bored by a suitable means toward a groundwater layer E having a predetermined depth. In addition, 5 shows a groundwater table.
Further, a pipe 6 having a large number of holes is inserted into the vertical shaft 3 and the horizontal shaft 4, and a vertical well 30 and a horizontal well 40 having a predetermined depth are inserted.
Are formed.

Exhaust gas G discharged from the combustion furnace 2 is cooled by a heat exchanger 7 provided in an exhaust gas passage 10,
The dust is then filtered, and nitrogen oxides (NO _x ) are removed through nitrogen oxide removing means 9 into which an appropriate catalyst is inserted, so that CO ₂ containing about 10% of carbon dioxide (CO ₂ ) is enriched. Gas is available. further,
The CO ₂ -enriched gas is compressed by the compressor 11 and sent to the pressure vessel 12, where it is dissolved in the groundwater supplied to the pressure vessel 12 to become carbonated water 20 (CO ₂ + H ₂ O). At this time, if the water is kept at a low temperature, the carbon dioxide content of the carbonated water may be increased. The carbonated water is pumped to the inlets 30 a and 40 a of the vertical well 30 and the horizontal well 40 by the pump 14.

The carbonated water 20 penetrates from the hole of the pipe 6 to the periphery of the groundwater layer E of the activated lime-containing soil 1 through the inside of the vertical well 30 and the inside of the horizontal well 40 as shown by an arrow A in the figure. . Furthermore, in the horizontal well 40, the remaining carbonated water is collected and provided on the exit 40b side of the horizontal well 40.
They are collected and processed by the processing device 15.

Thus, the gas obtained from the exhaust gas G of the combustion furnace 2
Carbonated water 20 (CO_Two+ H_TwoO) by pump 14
A pie inserted into the vertical well 30 and horizontal well 40 of constant depth
When sent to the pipe 6, the carbonated water 20 is activated through the hole of the pipe 6.
To a groundwater layer E at a predetermined depth in soil containing lime (CaO)
Indeed sent. Then, the reaction is performed as follows. sand
That is, the carbonated water 20 exhibits weak acidity and is ionized. CO_Two+ H_TwoO → H_TwoCO_Three(Carbonic acid) Some carbonic acids are ionized in two stages as follows. H_TwoCO_Three→ ← H⁺+ HCO_Three ^- (Hydrogen carbonate ion) ...... HCO_Three ^-→ ← H⁺+ CO_Three ^2-(Carbonate ion) H_TwoCO_Three→ ← 2H⁺+ CO_Three ^2-(Carbonate ion) ……… (+) In groundwater layer E, activated lime CaO is not hydrated with groundwater.
In response, slaked lime Ca (OH) 2 is produced. And charcoal
Reacts with acid water to produce calcium carbonate. That is, Ca (OH)_Two+ CO_Two+ H_TwoO → Ca_Two+ 2OH^-+ CO_Three
^2- → 2CaCO_Three+ 2H_TwoO In the above reaction process, Ca (HCO₃)_Two, Ca (OH)_Two・
Ca (HCO₃)_Two, Ca (OH)_Two・ CaCO is generated
And then calcium carbonate CaCO_ThreeIs formed. This
Therefore, slaked lime becomes a strong base by melting in water.
Activated lime-containing ground 1 is neutralized at high pH
It is chemically stabilized and the ground does not expand
Improve ground strength. In addition, carbon dioxide gas evaporates
Quicklime also reacts.

(Second Embodiment) Next, a second embodiment of the present invention will be described.
The embodiment will be described with reference to FIG. The description of the parts equivalent to those in FIG. 1 is omitted. In the present embodiment, only the horizontal pit 4 is excavated near the groundwater layer E having a predetermined depth. Further, a pipe 6a having no hole is inserted into the entrance side 4a of the horizontal shaft 4, and is configured to be able to be injected into the activated lime-containing ground 1 by guiding the CO ₂ -enriched gas without leaking to the horizontal position. At the same time, the carbon dioxide can be sent to the recovery / treatment device 15 installed on the exit side 4b of the horizontal shaft 4.

Also in the present embodiment, carbon dioxide (C) obtained by removing nitrogen oxides (NO _x ) by nitrogen oxide removing means 9 using the combustion exhaust gas G discharged from the combustion furnace 2 is used.
O ₂ ) The enriched gas 25 is injected into the groundwater layer E at a predetermined depth of the activated lime-containing soil 1 by the blower 16 to perform bubbling. Then, the carbon dioxide-enriched gas 25 is mixed with the groundwater in the groundwater layer E, and slaked lime (Ca (OH) ₂ )
Becomes The carbon dioxide-enriched gas 25 thus injected into the activated lime-containing ground reacts with the activated lime, as in the first embodiment, and the slaked lime dissolves in water to form activated lime which becomes a strong base. The containing ground is neutralized in a state of high pH and is chemically stabilized, and the ground is not expanded and the ground strength is improved.

(Third Embodiment) In the above embodiments, the exhaust gas from the combustion furnace 2 was used for carbon dioxide. However, carbonated water was formed by dissolving dry ice in hot water. Carbonated water is injected from the vertical well 3 (or vertical well 30) and the horizontal well 4 (or horizontal well 40) as shown in FIG. 1 or FIG. Since the reaction process between carbonated water and slaked lime is the same as in the above embodiment, the description is omitted.

[0018]

As described above, according to the method for modifying activated lime-containing ground of the present invention, a) carbonated water or carbon dioxide-enriched gas can be injected into a groundwater layer at a predetermined depth. Therefore, the activated lime-containing ground at high pH can be reliably neutralized and chemically stabilized. b) The reaction of slaked lime with carbonated water or carbon dioxide-enriched gas generates calcium carbonate, thereby preventing the soil volume from expanding during the formation of slaked lime. c) Since carbonated water of a weak acid is used, handling is simple, inexpensive, and safe compared to other weak acids and strong acids such as hydrochloric acid and dilute hydrochloric acid. d) There is no problem of softening due to dissolution of the ground such as strong acid, and there is almost no adverse effect on the environment. e) It is possible to neutralize not only groundwater showing high pH by melting slaked lime, but also solid activated waste itself. f) By using exhaust gas for carbon dioxide, it is possible to contribute to prevention of global warming and abnormal weather.

[Brief description of the drawings]

FIG. 1 is a configuration explanatory diagram of a first embodiment of the present invention.

FIG. 2 is a configuration explanatory diagram of a second embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Activated lime containing soil 3 Vertical shaft 4 Horizontal shaft 6 Pipe 20 Carbonated water 25 Carbon dioxide-enriched gas 30 Vertical well 40 Horizontal well E Groundwater layer G Exhaust gas

[Procedure amendment]

[Submission date] March 25, 1999 (1999.3.2
5)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Method for reforming ground containing activated lime

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to activated lime (CaO)
More specifically, a method for modifying the ground containing activated lime, in which activated lime-containing ground is stabilized by injecting carbonated water or carbon dioxide-enriched gas into a groundwater layer at a predetermined depth in the soil containing activated lime. The present invention relates to a method for modifying ground containing soil.

[0002]

SUMMARY OF THE INVENTION For example, in a thermal power plant,
In addition, a large amount of coal is used as fuel. Also these combustion
After coalCombustion residueAre used as raw materials for cement and concrete
UsedCombustion residueLike this
When it is not available toCombustion residueThe power
It is reclaimed on the site of the site.Combustion residueActivated lime
(CaO) is contained in large quantities,Combustion residueTo
When we landfillCombustion residueInside the ground
Activated lime (CaO) hydrates with groundwater and becomes slaked lime
(Ca (OH) _Two), Dissolve in water, ionize and strong base
Is shown. That is, CaO + H_TwoO → Ca (OH)_Two  Ca (OH)_Two→ Ca²⁺+ 2OH^-(OH^-Stronger base
Show)

[0003] When the soil becomes a strong base as described above, groundwater of the strong base is discharged from the activated lime-containing ground to a river, which may adversely affect fish and shellfish. Incidentally, the marine environmental standard is pH 5.6 to 8.5,
It is known that fish and shellfish can no longer inhabit when the base becomes a strong base exceeding 11. Further, when the soil becomes strong base such concrete building built in the soil corrodes in an alkaline reaction hydroxyl OH ^- compounds occurs with the iron portion of the reinforcing steel of a building becomes iron hydroxide corrosion It will proceed inside the iron.

Further, the volume expands about twice during the process of producing slaked lime (Ca (OH) ₂ ) by the hydration reaction of activated lime. In addition, coal burning residue generated in the thermal power plant contains several percent of activated lime, and the volume of the burning residue is increased by about several percent. For this reason, the surface of the ground containing active lime became unstable, resulting in a decrease in strength. In particular, when such a phenomenon occurs in a groundwater layer located at a considerably deep position (for example, 10 m) from the ground surface, it is impossible to control the ground surface. The purpose of the present invention is
It was made to solve such conventional problems,
Provided is a method of modifying activated lime-containing ground by stabilizing the ground such as coal lime containing activated lime by injecting carbonated water or carbon dioxide-enriched gas into the groundwater layer of activated lime-containing soil. Is to do.

[0005]

SUMMARY OF THE INVENTION The present invention is a method for modifying ground containing activated lime, and is constituted as follows in order to solve the above-mentioned technical problems. That is, the method for modifying activated lime-containing ground of the present invention is characterized by injecting a carbon dioxide-enriched fluid such as carbonated water or a CO ₂ -enriched gas into a groundwater layer of activated lime-containing soil.

[0006] In addition to the thermal power plant in the active lime-containing combustion residues, industrial combustion residue incineration facility comprises a combustion residue resulting from such metals and ores refining, etc., also active lime containing ground other than this The ground is also a target.

Further, in the method for modifying the ground containing active lime according to the present invention, a vertical shaft and / or a horizontal shaft is excavated from the surface of the active lime-containing soil toward a groundwater layer, and the vertical shaft and / or the horizontal shaft are formed. And then injecting the carbon dioxide-enriched fluid into a groundwater layer.

[0008] In the method for reforming activated lime-containing ground according to the present invention, a pipe having a plurality of holes at predetermined locations is loaded into the shaft and / or the horizontal shaft according to the second aspect of the present invention. Alternatively, a horizontal well is formed, and a carbon dioxide-enriched fluid is injected through a hole in the pipe.

Further, the method for reforming ground containing activated lime according to the present invention is characterized in that, in claim 1, 2 or 3, combustion exhaust gas is used as the carbon dioxide-enriched fluid. According to the method for modifying activated lime-containing ground of the present invention, by injecting carbonated water or a carbon dioxide-enriched gas into activated lime-containing soil, the combustion residue that exhibits a high pH is neutralized and calcium carbonate is added. Generate Due to this, the ground containing activated lime is stabilized.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a method for modifying activated lime-containing ground according to the present invention will be described in detail with reference to an embodiment shown in the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention thereto, unless otherwise specified. It is only an illustrative example. FIG.
FIG. 2 shows a system used in a method for modifying activated lime-containing ground according to one embodiment of the present invention, and FIG. 2 also shows a system used in a method for modifying activated lime-containing ground according to another embodiment of the present invention. Is shown.

(First Embodiment) A combustion furnace 2 is erected on the ground of a thermal power plant, and combustion residues discharged from the combustion furnace 2 are buried to form activated lime-containing soil 1. are doing. In this activated lime-containing soil 1, an appropriate number of vertical shafts 3 and horizontal shafts 4 are bored by a suitable means toward a groundwater layer E having a predetermined depth. In addition, 5 shows a groundwater table. Further, a pipe 6 having a large number of holes is inserted into the vertical shaft 3 and the horizontal shaft 4 to form a vertical well 30 and a horizontal well 40 having a predetermined depth.

Exhaust gas G discharged from the combustion furnace 2 is cooled by a heat exchanger 7 provided in an exhaust gas passage 10,
The dust is then filtered, and nitrogen oxides (NO _x ) are removed through nitrogen oxide removing means 9 into which an appropriate catalyst is inserted, so that CO ₂ containing about 10% of carbon dioxide (CO ₂ ) is enriched. Gas is available. further,
The CO ₂ -enriched gas is compressed by the compressor 11 and sent to the pressure vessel 12, where it is dissolved in the groundwater supplied to the pressure vessel 12 to become carbonated water 20 (CO ₂ + H ₂ O). At this time, if the water is kept at a low temperature, the carbon dioxide content of the carbonated water may be increased. The carbonated water is pumped to the inlets 30 a and 40 a of the vertical well 30 and the horizontal well 40 by the pump 14.

The carbonated water 20 penetrates from the hole of the pipe 6 to the periphery of the groundwater layer E of the activated lime-containing soil 1 through the inside of the vertical well 30 and the inside of the horizontal well 40 as shown by an arrow A in the figure. . Furthermore, in the horizontal well 40, the remaining carbonated water is collected and provided on the exit 40b side of the horizontal well 40.
They are collected and processed by the processing device 15.

Thus, the gas obtained from the exhaust gas G of the combustion furnace 2
Carbonated water 20 (CO_Two+ H_TwoO) by pump 14
A pie inserted into the vertical well 30 and horizontal well 40 of constant depth
When sent to the pipe 6, the carbonated water 20 is activated through the hole of the pipe 6.
To a groundwater layer E at a predetermined depth in soil containing lime (CaO)
Indeed sent. Then, the reaction is performed as follows. sand
That is, the carbonated water 20 exhibits weak acidity and is ionized. CO_Two+ H_TwoO → H_TwoCO_Three(Carbonic acid) Some carbonic acids are ionized in two stages as follows. H_TwoCO_Three→ ← H⁺+ HCO_Three ^- (Hydrogen carbonate ion) ...... HCO_Three ^-→ ← H⁺+ CO_Three ^2-(Carbonate ion) H_TwoCO_Three→ ← 2H⁺+ CO_Three ^2-(Carbonate ion) ……… (+) In groundwater layer E, activated lime CaO is not hydrated with groundwater.
Slaked lime Ca (OH)_TwoGenerate And charcoal
Reacts with acid water to produce calcium carbonate. That is, Ca (OH)_Two+ CO_Two+ H_TwoO → Ca_Two+ 2OH^-+ CO_Three
^2- → 2CaCO_Three+ 2H_TwoO In the above reaction process, Ca (HCO₃)_Two, Ca (OH)_Two・
Ca (HCO₃)_Two, Ca (OH)_Two・ CaCO is generated
And then calcium carbonate CaCO_ThreeIs formed. This
Therefore, slaked lime becomes a strong base by melting in water.
Activated lime-containing ground 1 is neutralized at high pH
While chemically stabilizing,In the process of forming slaked lime
So bigImproves ground strength without expanding the ground
Let In addition, activated carbon dioxide reacts with carbon dioxide gas that evaporates.
You.

(Second Embodiment) Next, a second embodiment of the present invention will be described.
The embodiment will be described with reference to FIG. The description of the parts equivalent to those in FIG. 1 is omitted. In the present embodiment, only the horizontal pit 4 is excavated near the groundwater layer E having a predetermined depth. Further, a pipe 6a having no hole is inserted into the entrance side 4a of the horizontal shaft 4, and is configured to be able to be injected into the activated lime-containing ground 1 by guiding the CO ₂ -enriched gas without leaking to the horizontal position. At the same time, the carbon dioxide can be sent to the recovery / treatment device 15 installed on the exit side 4b of the horizontal shaft 4.

Also in the present embodiment, carbon dioxide (C) obtained by removing nitrogen oxides (NO _x ) by nitrogen oxide removing means 9 using the combustion exhaust gas G discharged from the combustion furnace 2 is used.
O ₂ ) The enriched gas 25 is injected into the groundwater layer E at a predetermined depth of the activated lime-containing soil 1 by the blower 16 to perform bubbling. Then, the carbon dioxide-enriched gas 25 is mixed with the groundwater in the groundwater layer E, and slaked lime (Ca (OH) ₂ )
Becomes The carbon dioxide-enriched gas 25 thus injected into the activated lime-containing ground reacts with the activated lime, as in the first embodiment, and the slaked lime dissolves in water to form activated lime which becomes a strong base. The containing ground is neutralized in a state of high pH and is chemically stabilized, and the ground is not expanded and the ground strength is improved.

(Third Embodiment) In the above embodiments, the exhaust gas from the combustion furnace 2 was used for carbon dioxide. However, carbonated water was formed by dissolving dry ice in hot water. Carbonated water is injected from the vertical well 3 (or vertical well 30) and the horizontal well 4 (or horizontal well 40) as shown in FIG. 1 or FIG. Since the reaction process between carbonated water and slaked lime is the same as in the above embodiment, the description is omitted.

[0018]

As described above, according to the method for modifying activated lime-containing ground of the present invention, a) carbonated water or carbon dioxide-enriched gas can be injected into a groundwater layer at a predetermined depth. Therefore, the activated lime-containing ground at high pH can be reliably neutralized and chemically stabilized. b) The reaction of slaked lime with carbonated water or carbon dioxide-enriched gas generates calcium carbonate, thereby preventing the soil volume from expanding during the formation of slaked lime. c) Since carbonated water of a weak acid is used, handling is simple, inexpensive, and safe compared to other weak acids and strong acids such as hydrochloric acid and dilute hydrochloric acid. d) There is no problem of softening due to dissolution of the ground such as strong acid, and there is almost no adverse effect on the environment. e) It is possible to neutralize not only groundwater showing high pH by melting slaked lime, but also solid active combustion residue itself. f) By using exhaust gas for carbon dioxide, it is possible to contribute to prevention of global warming and abnormal weather.

[Brief description of the drawings]

FIG. 1 is a configuration explanatory diagram of a first embodiment of the present invention.

FIG. 2 is a configuration explanatory diagram of a second embodiment of the present invention.

[Description of Signs] 1 Activated lime-containing soil 3 Vertical shaft 4 Horizontal shaft 6 Pipe 20 Carbonated water 25 Carbon dioxide-enriched gas 30 Vertical well 40 Horizontal well E Groundwater layer G Exhaust gas ──────────── ─────────────────────────────────────────

[Procedure amendment]

[Submission Date] June 28, 1999 (1999.6.2
8)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Method for reforming ground containing activated lime

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to activated lime (CaO)
More specifically, a method for modifying the ground containing activated lime, in which activated lime-containing ground is stabilized by injecting carbonated water or carbon dioxide-enriched gas into a groundwater layer at a predetermined depth in the soil containing activated lime. The present invention relates to a method for modifying ground containing soil.

[0002]

SUMMARY OF THE INVENTION For example, in a thermal power plant,
In addition, a large amount of coal is used as fuel. Also these combustion
The remaining coal combustion residue is used as raw material for cement and concrete.
All of the large amounts of combustion residues are used in this way.
When it cannot be used for
It is reclaimed on the site of the site. Activated lime for combustion residue
(CaO) is contained in a large amount,
When the landfill is processed, the combustion residue remains inside the ground.
Activated lime (CaO) hydrates with groundwater and becomes slaked lime
(Ca (OH) _Two), Dissolve in water, ionizeStrong base
sexIs shown. That is, CaO + H_TwoO → Ca (OH)_Two  Ca (OH)_Two→ Ca²⁺+ 2OH^-(OH^-ByStrong basicity
Indicates)

[0003] When the soil becomes strongly basic, strong salt
Basic groundwater may be discharged into rivers from the ground containing activated lime, which may have an adverse effect on fish and shellfish. Incidentally, the environmental standards of the marine environment are pH 5.6 to 8.5, and it is known that fish and shellfish cannot be inhabited if the pH becomes strongly basic such as exceeding 11. Also, the soil is strong salt
If the underlying property, and corrosion concrete buildings built in such a soil with an alkaline reaction hydroxyl OH ^- compounds occurs with the iron portion of the reinforcing steel of a building inside corrosion of iron becomes iron hydroxide Will progress.

Further, the volume expands about twice during the process of producing slaked lime (Ca (OH) ₂ ) by the hydration reaction of activated lime. In addition, coal burning residue generated in the thermal power plant contains several percent of activated lime, and the volume of the burning residue is increased by about several percent. For this reason, the surface of the ground containing active lime became unstable, resulting in a decrease in strength. In particular, when such a phenomenon occurs in a groundwater layer located at a considerably deep position (for example, 10 m) from the ground surface, it is impossible to control the ground surface. The purpose of the present invention is
It was made to solve such conventional problems,
Provided is a method of modifying activated lime-containing ground by stabilizing the ground such as coal lime containing activated lime by injecting carbonated water or carbon dioxide-enriched gas into the groundwater layer of activated lime-containing soil. Is to do.

[0005]

SUMMARY OF THE INVENTION The present invention is a method for modifying ground containing activated lime, and is constituted as follows in order to solve the above-mentioned technical problems. That is, the method for modifying activated lime-containing ground of the present invention is characterized by injecting a carbon dioxide-enriched fluid such as carbonated water or a CO ₂ -enriched gas into a groundwater layer of activated lime-containing soil.

[0006] In addition to the thermal power plant, the activated lime-containing combustion residue includes combustion residue generated from industrial incineration residue incineration plants, metals and ore scouring, and the like. The ground is also a target.

Further, in the method for modifying the ground containing active lime according to the present invention, a vertical shaft and / or a horizontal shaft is excavated from the surface of the active lime-containing soil toward a groundwater layer, and the vertical shaft and / or the horizontal shaft are formed. And then injecting the carbon dioxide-enriched fluid into a groundwater layer.

[0008] In the method for reforming activated lime-containing ground according to the present invention, a pipe having a plurality of holes at predetermined locations is loaded into the shaft and / or the horizontal shaft according to the second aspect of the present invention. Alternatively, a horizontal well is formed, and a carbon dioxide-enriched fluid is injected through a hole in the pipe.

Further, the method for reforming ground containing activated lime according to the present invention is characterized in that, in claim 1, 2 or 3, combustion exhaust gas is used as the carbon dioxide-enriched fluid. According to the method for modifying activated lime-containing ground of the present invention, by injecting carbonated water or a carbon dioxide-enriched gas into activated lime-containing soil, the combustion residue that exhibits a high pH is neutralized and calcium carbonate is added. Generate Due to this, the ground containing activated lime is stabilized.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a method for modifying activated lime-containing ground according to the present invention will be described in detail with reference to an embodiment shown in the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention thereto, unless otherwise specified. It is only an illustrative example. FIG.
FIG. 2 shows a system used in a method for modifying activated lime-containing ground according to one embodiment of the present invention, and FIG. 2 also shows a system used in a method for modifying activated lime-containing ground according to another embodiment of the present invention. Is shown.

(First Embodiment) A combustion furnace 2 is erected on the ground of a thermal power plant, and combustion residues discharged from the combustion furnace 2 are buried to form activated lime-containing soil 1. are doing. In this activated lime-containing soil 1, an appropriate number of vertical shafts 3 and horizontal shafts 4 are bored by a suitable means toward a groundwater layer E having a predetermined depth. In addition, 5 shows a groundwater table. Further, a pipe 6 having a large number of holes is inserted into the vertical shaft 3 and the horizontal shaft 4 to form a vertical well 30 and a horizontal well 40 having a predetermined depth.

Exhaust gas G discharged from the combustion furnace 2 is cooled by a heat exchanger 7 provided in an exhaust gas passage 10,
The dust is then filtered, and nitrogen oxides (NO _x ) are removed through nitrogen oxide removing means 9 into which an appropriate catalyst is inserted, so that CO ₂ containing about 10% of carbon dioxide (CO ₂ ) is enriched. Gas is available. further,
The CO ₂ -enriched gas is compressed by the compressor 11 and sent to the pressure vessel 12, where it is dissolved in the groundwater supplied to the pressure vessel 12 to become carbonated water 20 (CO ₂ + H ₂ O). At this time, if the water is kept at a low temperature, the carbon dioxide content of the carbonated water may be increased. The carbonated water is pumped to the inlets 30 a and 40 a of the vertical well 30 and the horizontal well 40 by the pump 14.

The carbonated water 20 penetrates from the hole of the pipe 6 to the periphery of the groundwater layer E of the activated lime-containing soil 1 through the inside of the vertical well 30 and the inside of the horizontal well 40 as shown by an arrow A in the figure. . Furthermore, in the horizontal well 40, the remaining carbonated water is collected and provided on the exit 40b side of the horizontal well 40.
They are collected and processed by the processing device 15.

Thus, the gas obtained from the exhaust gas G of the combustion furnace 2
Carbonated water 20 (CO_Two+ H_TwoO) by pump 14
A pie inserted into the vertical well 30 and horizontal well 40 of constant depth
When sent to the pipe 6, the carbonated water 20 is activated through the hole of the pipe 6.
To a groundwater layer E at a predetermined depth in soil containing lime (CaO)
Indeed sent. Then, the reaction is performed as follows. sand
That is, the carbonated water 20 exhibits weak acidity and is ionized. CO_Two+ H_TwoO → H_TwoCO_Three(Carbonic acid) Some carbonic acids are ionized in two stages as follows. H_TwoCO_Three→ ← H⁺+ HCO_Three ^- (Hydrogen carbonate ion) ...... HCO_Three ^-→ ← H⁺+ CO_Three ^2-(Carbonate ion) H_TwoCO_Three→ ← 2H⁺+ CO_Three ^2-(Carbonate ion) ……… (+) In groundwater layer E, activated lime CaO is not hydrated with groundwater.
In response, slaked lime Ca (OH) 2 is produced. And charcoal
Reacts with acid water to produce calcium carbonate. That is, Ca (OH)_Two+ CO_Two+ H_TwoO → Ca_Two+ 2OH^-+ CO_Three
^2- → 2CaCO_Three+ 2H_TwoO In the above reaction process, Ca (HCO₃)_Two, Ca (OH)_Two・
Ca (HCO₃)_Two, Ca (OH)_Two・ CaCO is generated
And then calcium carbonate CaCO_ThreeIs formed. This
Because the slaked lime dissolves in waterStrong basicityWhen
Activated lime-containing ground 1 has been neutralized at high pH
Process in which slaked lime is formed while chemically stabilizing
Improves ground strength without expanding the ground as large as
Let it. In addition, activated carbon dioxide reacts with vaporized carbon dioxide.
I do.

(Second Embodiment) Next, a second embodiment of the present invention will be described.
The embodiment will be described with reference to FIG. The description of the parts equivalent to those in FIG. 1 is omitted. In the present embodiment, only the horizontal pit 4 is excavated near the groundwater layer E having a predetermined depth. Further, a pipe 6a having no hole is inserted into the entrance side 4a of the horizontal shaft 4, and is configured to be able to be injected into the activated lime-containing ground 1 by guiding the CO ₂ -enriched gas without leaking to the horizontal position. At the same time, the carbon dioxide can be sent to the recovery / treatment device 15 installed on the exit side 4b of the horizontal shaft 4.

Also in the present embodiment, carbon dioxide (C) obtained by removing nitrogen oxides (NO _x ) by nitrogen oxide removing means 9 using the combustion exhaust gas G discharged from the combustion furnace 2 is used.
O ₂ ) The enriched gas 25 is injected into the groundwater layer E at a predetermined depth of the activated lime-containing soil 1 by the blower 16 to perform bubbling. Then, the carbon dioxide-enriched gas 25 is mixed with the groundwater in the groundwater layer E to become H ₂ SO ₃ ,
Reacts with Ca (OH) ₂ in the ground to form CaCO ₃
Is done . The carbon dioxide-enriched gas 25 thus injected into the activated lime-containing ground reacts with the activated lime similarly to the first embodiment, and the slaked lime dissolves in water to form a strong salt.
The activated lime-containing ground, which has become basic, is neutralized in a high pH state and is chemically stabilized, and the ground is not expanded and the ground strength is improved.

(Third Embodiment) In the above embodiments, the exhaust gas from the combustion furnace 2 was used for carbon dioxide. However, carbonated water was formed by dissolving dry ice in hot water. Carbonated water is injected from the vertical well 3 (or vertical well 30) and the horizontal well 4 (or horizontal well 40) as shown in FIG. 1 or FIG. Since the reaction process between carbonated water and slaked lime is the same as in the above embodiment, the description is omitted.

[0018]

As described above, according to the method for modifying activated lime-containing ground of the present invention, a) carbonated water or carbon dioxide-enriched gas can be injected into a groundwater layer at a predetermined depth. Therefore, the activated lime-containing ground at high pH can be reliably neutralized and chemically stabilized. b) The reaction of slaked lime with carbonated water or carbon dioxide-enriched gas generates calcium carbonate, thereby preventing the soil volume from expanding during the formation of slaked lime. c) Since carbonated water of a weak acid is used, handling is simple, inexpensive, and safe compared to other weak acids and strong acids such as hydrochloric acid and dilute hydrochloric acid. d) There is no problem of softening due to dissolution of the ground such as strong acid, and there is almost no adverse effect on the environment. e) It is possible to neutralize not only groundwater showing high pH by melting slaked lime, but also solid active combustion residue itself. f) By using exhaust gas for carbon dioxide, it is possible to contribute to prevention of global warming and abnormal weather.

[Brief description of the drawings]

FIG. 1 is a configuration explanatory diagram of a first embodiment of the present invention.

FIG. 2 is a configuration explanatory diagram of a second embodiment of the present invention.

[Description of Signs] 1 Activated lime-containing soil 3 Vertical shaft 4 Horizontal shaft 6 Pipe 20 Carbonated water 25 Carbon dioxide-enriched gas 30 Vertical well 40 Horizontal well E Groundwater layer G Exhaust gas

 ──────────────────────────────────────────────────続 き Continuing from the front page (72) Inventor Shigeo Kobayashi 20-1 Shintomi, Futtsu-shi, Chiba F-term in the Technology Development Division, Nippon Steel Corporation (Reference) 2D043 CA20 EB06

Claims (4)

[Claims] 1. A method for modifying activated lime-containing ground, comprising injecting a liquid or gaseous carbon dioxide-enriched fluid into a groundwater layer of soil containing activated lime (CaO). 2. A vertical shaft and / or a horizontal shaft is excavated from the surface of activated lime (CaO) -containing soil toward a groundwater layer, and the carbon dioxide-enriched fluid is passed through the vertical shaft and / or the horizontal shaft to a groundwater layer. A method for modifying ground containing activated lime, characterized by injecting soil. 3. A pipe having a plurality of holes at predetermined locations is loaded into the shaft and / or the shaft to form a vertical well and / or a horizontal well, and the carbon dioxide-enriched fluid is passed through the holes of the pipe. The method for modifying activated lime-containing ground according to claim 2, wherein the ground is injected. 4. The method for reforming ground containing activated lime according to claim 1, wherein a combustion exhaust gas is used as the carbon dioxide-enriched fluid.