KR102352687B1 - Eco-friendly artificial aggregate composition using chlorine bypass dust and powdered low moisture inorganic sludge, method for manufacturing artificial aggregate, and method for recycling artificial aggregate - Google Patents

Abstract

The present invention provides: an eco-friendly artificial aggregate composition which forms a hydraulic binder by performing absorption reaction, exothermic reaction and expansion reaction on chlorine bypass dust with water, and forms an artificial aggregate by allowing the hydraulic binder to bind chlorine bypass dust and powdered low-moisture inorganic sludge; an artificial aggregate manufacturing method; and an artificial aggregate recycling method using chlorine bypass dust and powdered low-moisture inorganic sludge.

Description

Eco-FRIENDLY ARTIFICIAL AGGREGATE COMPOSITION USING CHLORINE BYPASS DUST AND POWDERED LOW MOISTURE INORGANIC SLUDGE, METHOD FOR MANUFACTURING AGGREGATE, AND METHOD FOR RECYCLING ARTIFICIAL AGGREGATE}

The present invention forms an artificial aggregate by combining chlorine bypass dust and water with an absorption reaction, exothermic reaction and expansion reaction to form a hydraulic binder, and the hydraulic binder combines the chlorine bypass dust and the powdery low-moisture inorganic sludge It relates to an eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge, a method for manufacturing artificial aggregate, and a method for recycling artificial aggregate.

In general, chlorine bypass dust contains potassium chloride (KCl), quicklime (CaO), or anhydrite (CaSO ₄ ) that is left by partially extracting and bypassing chlorine components that cause problems such as clogging of the preheater during cement manufacturing. is a by-product of the process.

In particular, chlorine bypass dust is a hot gas that is forcibly extracted from the temperature of about 1,000 ℃ of the kiln to remove volatile substances including chlorine for the smooth operation of the clinker manufacturing kiln operated at a high temperature of about 2,000 ℃ in the cement production plant. As inorganic substances contained in it, in addition to potassium chloride, anhydrous gypsum and quicklime which have been dehydrated and decarboxylated by high temperature of 1,000 ℃ are included.

Since chlorine bypass dust is produced on a large scale, most of it is currently landfilled so as not to harm the environment, and research for recycling chlorine bypass dust is urgently needed.

In addition, powdery low-moisture inorganic sludge is produced in large quantities in various industries such as power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steelmaking by-product, steelmaking by-product, tailings (mineral waste) or contaminated soil, and the moisture content is less than 30% It is composed of various inorganic salts including

Although powdery low-moisture inorganic sludge contains various effective oxides that require recycling, it is a material with a particle size of 0.0001 to 5 mm and contains less than 30% moisture.

Therefore, many researchers have been conducting research for recycling chlorine bypass dust and powdery low-moisture inorganic sludge, but commercial success has not yet been achieved.

The present applicant has claimed that the quicklime and anhydrite of chlorine bypass dust react with moisture for a long period of time and undergo absorption, high exothermic, and expansion reactions to transform into hemihydrate gypsum or dihydrate gypsum and calcium hydroxide, and produce hemihydrate gypsum and dihydrate gypsum. In addition, calcium hydroxide acts as a hydraulic binder similar to cement, thereby forming an artificial aggregate by forming a spherical mass between chlorine bypass dust and inorganic fine particles of powdery low-moisture inorganic sludge, thereby completing the present invention.

Republic of Korea Patent Registration No. 10-2206677 (Patent registration date: January 08, 2021)

Therefore, it is an object of the present invention to form a hydraulic binder through the absorption reaction, exothermic reaction and expansion reaction of chlorine bypass dust and water, and the hydraulic binder combines the chlorine bypass dust and the powdery low-moisture inorganic sludge. An object of the present invention is to provide an eco-friendly artificial aggregate composition using chlorine bypass dust that forms artificial aggregate and powdery low-moisture inorganic sludge.

In addition, it is an object of the present invention to produce an artificial aggregate by combining the chlorine bypass dust and the powdery low moisture inorganic sludge in a hydraulic binder formed by chlorine bypass dust and water. An object of the present invention is to provide an eco-friendly artificial aggregate manufacturing method using inorganic sludge.

In addition, it is an object of the present invention to recycle artificial aggregates having a particle size of 0.15 to 5 mm and powders having a particle size of 0.15 mm or less as a material selected from the group consisting of concrete bricks, shore blocks, cement raw materials, filling materials, covering materials, etc. It is to provide an eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to solve the above problems, according to one aspect of the present invention,

As an eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, powdery low-moisture inorganic sludge, and water, which are by-products of the cement process,

The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,

The powdery low-moisture inorganic slurries have a moisture content of less than 30% by weight and include oxides, nitrides, chlorides, sulfides, fluorides, and It contains one or more inorganic salts selected from the group consisting of phosphides,

The content ratio of the chlorine bypass dust, the powdery low-moisture inorganic sludge and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,

_{CaO and CaSO 4} of the chlorine bypass dust react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the powdery low moisture inorganic sludge to form an artificial aggregate characterized by

To provide an eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the powdery low moisture inorganic sludge is

Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphate fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil It may be at least one sludge selected from the group consisting of.

According to an embodiment of the present invention, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and the powdery low-moisture inorganic sludge may be 7 to 13.8.

According to an embodiment of the present invention, the aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

According to an embodiment of the present invention, quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust _{is hemihydrate gypsum (CaSO 4·} 1/2H ₂ O), dihydrate _{gypsum (CaSO 4·} 2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) by reacting with the water to absorb moisture, exothermic reaction, or expansion reaction can be formed

In addition, according to another aspect of the present invention,

An eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, coal ash, which is a powdery low-moisture inorganic sludge, and water,

The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,

The coal ash is a component of Fe ₂ O ₃ 10 to 55% by weight, SiO ₂ 2 to 40% by weight, Al ₂ O ₃ 3 to 65% by weight, CaO 0.05 to 50% by weight, MgO 1 to 30% by weight, Na ₂ 0.2 to 25% by weight of _{O, 10 to 40% by weight of K 2} O, 2 to 35% by weight of MnO, and 0.2 to 25% by weight of carbon (C),

The content ratio of the chlorine bypass dust, the coal ash and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,

_{CaO and CaSO 4} of the chlorine bypass react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the coal ash to form an artificial aggregate

It is possible to provide an eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and the powdery low-moisture inorganic sludge may be 7 to 13.8.

According to an embodiment of the present invention, the aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

According to an embodiment of the present invention, quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust _{is hemihydrate gypsum (CaSO 4·} 1/2H ₂ O), dihydrate _{gypsum (CaSO 4·} 2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) by reacting with the water to absorb moisture, exothermic reaction, or expansion reaction can be formed

In addition, according to another aspect of the present invention, an eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, tailings (mineral residue), which is a powdery low-moisture inorganic sludge, and water,

The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,

The tailings include Fe ₂ O ₃ 3 to 30% by weight, SiO ₂ 10 to 70% by weight, Al ₂ O ₃ 3 to 65% by weight, CaO 5 to 40% by weight, MgO 1 to 30% by weight, Na ₂ O 0.2 to 20% by weight, K ₂ O It contains 0.2 to 20% by weight,

In the eco-friendly artificial aggregate composition, the content ratio of the chlorine bypass dust, the tailings and water is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,

_{CaO and CaSO 4} of the chlorine bypass react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the tailings to form an artificial aggregate

It is possible to provide an eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and the powdery low-moisture inorganic sludge may be 7 to 13.8.

According to an embodiment of the present invention, the aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

According to an embodiment of the present invention, quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust _{is hemihydrate gypsum (CaSO 4·} 1/2H ₂ O), dihydrate _{gypsum (CaSO 4·} 2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) by reacting with the water to absorb moisture, exothermic reaction, or expansion reaction can be formed

In addition, according to another aspect of the present invention, there is provided an eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, powdery low-moisture inorganic sludge, and water, which are by-products of the cement process,

an impurity removal step of removing stones or impurities by introducing the chlorine bypass dust and the powdery low-moisture inorganic sludge into a separator, respectively; and

Comprising the step of mixing the chlorine bypass dust from which impurities are removed, the powdery low-moisture inorganic sludge from which impurities are removed, and water to prepare an artificial aggregate,

Eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge

It is possible to provide an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm.

According to an embodiment of the present invention, the powdery low moisture inorganic sludge is

Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphate fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil It may be at least one sludge selected from the group consisting of.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include a classification step of classifying the artificial aggregate and circulating the powder of 0.15 mm or less as a raw material.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include the step of natural drying, heat drying or hot air drying of the artificial aggregate.

According to an embodiment of the present invention, the method for manufacturing an eco-friendly artificial aggregate using the chlorine bypass dust and powdery low-moisture inorganic sludge is

The aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of producing an artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed and the powdery low-moisture inorganic sludge from which the impurities are removed,

The chlorine bypass dust and the moisture of the powdery low moisture inorganic sludge form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder combines the chlorine bypass dust and the powdery low moisture inorganic sludge. Artificial aggregates can be manufactured.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of producing an artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the powdery low-moisture inorganic sludge from which the impurities are removed, and water,

The mixing uses a twin shaft type mixer,

Screws, paddles or rods for mixing and molding are attached to the twin shaft,

The mixer may be provided with a liquid injector and a powder injector for injecting water or a property improving agent.

According to another aspect of the present invention, there is provided an eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, coal ash, which is a powdery low-moisture inorganic sludge, and water,

an impurity removal step of removing stones or impurities by inputting the chlorine bypass dust and the coal ash into a separator, respectively; and

Comprising the step of preparing artificial aggregate by mixing the chlorine bypass dust from which impurities are removed, the coal ash from which impurities are removed, and water,

The chlorine bypass dust and powdery low-moisture inorganic sludge by an eco-friendly artificial aggregate composition using coal ash

It is possible to provide an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include a classification step of classifying the artificial aggregate and circulating the powder of 0.15 mm or less as a raw material.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include the step of natural drying, heat drying or hot air drying of the artificial aggregate.

According to an embodiment of the present invention, the method for manufacturing an eco-friendly artificial aggregate using the chlorine bypass dust and powdery low-moisture inorganic sludge is

The aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the coal ash from which the impurities are removed, and water,

The chlorine bypass dust and the water may form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder may combine the chlorine bypass dust and the coal ash to manufacture artificial aggregate.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the coal ash from which the impurities are removed, and water,

The mixing uses a twin shaft type mixer,

Screws, paddles or rods for mixing and molding are attached to the twin shaft,

The mixer may be provided with a liquid injector and a powder injector for injecting water or a property improving agent.

According to another aspect of the present invention, an eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, tailings (mineral residue), which is a powdery low-moisture inorganic sludge, and water,

an impurity removal step of removing stones or impurities by inputting the chlorine bypass dust and the tailings to a grinder, respectively; and

Comprising the step of mixing the chlorine bypass dust from which impurities are removed, the tailings from which impurities are removed, and water to prepare artificial aggregate,

The chlorine bypass dust and powdery, low-moisture inorganic sludge by an eco-friendly artificial aggregate composition using tailings

It is possible to provide an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include a classification step of classifying the artificial aggregate and circulating the powder of 0.15 mm or less as a raw material.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include the step of natural drying, heat drying or hot air drying of the artificial aggregate.

According to an embodiment of the present invention, the method for manufacturing an eco-friendly artificial aggregate using the chlorine bypass dust and powdery low-moisture inorganic sludge is

The aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the tailings from which the impurities are removed, and water,

The chlorine bypass dust and the water may form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder may combine the chlorine bypass dust and the tailings to produce an artificial aggregate.

According to an embodiment of the present invention, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the tailings from which the impurities are removed, and water,

The mixing uses a twin shaft type mixer,

Screws, paddles or rods for mixing and molding are attached to the twin shaft,

The mixer may be provided with a liquid injector and a powder injector for injecting water or a property improving agent.

According to another aspect of the present invention, as an eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge,

Recycling artificial aggregate having a particle size of 0.15 to 5 mm and powder having a particle size of 0.15 mm or less as a material selected from the group consisting of concrete bricks, shore blocks, cement raw materials, filling materials, covering materials, etc.

It is possible to provide an eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge.

According to an embodiment of the present invention, the powdery low moisture inorganic sludge is

Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphate fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil It may be at least one sludge selected from the group consisting of.

According to the present invention, since there is provided an eco-friendly artificial aggregate composition composed of chlorine bypass dust and powdery low-moisture inorganic sludge, it is excellent in waste recyclability.

In addition, the chlorine bypass dust and water of the present invention undergo an absorption reaction, exothermic reaction and expansion reaction to form a hydraulic binder, and the hydraulic binder combines the chlorine bypass dust and the powdery low-moisture inorganic sludge. Since the aggregate composition is provided, process safety is excellent.

In addition, chlorine bypass dust and powdery low-moisture inorganic sludge are produced by combining the chlorine bypass dust and the powdery low-moisture inorganic sludge with the hydraulic binder formed by the chlorine bypass dust and water of the present invention. It is economical in terms of cost because it provides an eco-friendly artificial aggregate manufacturing method using

In addition, artificial aggregate with a particle size of 0.15 to 5 mm and powder with a particle size of 0.15 mm or less are used as a material selected from the group consisting of concrete bricks, shore blocks, cement raw materials, fill materials, and cover materials, such as chlorine bypass dust and high moisture content. Since it provides an eco-friendly artificial aggregate recycling method using inorganic sludge, the generation of waste is very small.

It should be understood that the effects of the present invention are not limited to the above-described effects, and include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is a process flow diagram of an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge according to an embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

Advantages and features of the present invention, and a method of achieving the same, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited by the embodiments disclosed below, but will be implemented in a variety of different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims.

In addition, in the description of the present invention, when it is determined that related known techniques may obscure the gist of the present invention, a detailed description thereof will be omitted.

Hereinafter, the present invention will be described in detail.

Eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge

The eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

As an eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, powdery low-moisture inorganic sludge, and water, which are by-products of the cement process,

The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,

The powdery low-moisture inorganic slurries have a moisture content of less than 30% by weight, and include oxides, nitrides, chlorides, sulfides, fluorides, and It contains one or more inorganic salts selected from the group consisting of phosphides,

The content ratio of the chlorine bypass dust, the powdery low-moisture inorganic sludge and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,

_{CaO and CaSO 4} of the chlorine bypass dust react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the powdery low moisture inorganic sludge to form an artificial aggregate can do.

The present invention is an eco-friendly artificial aggregate composition composed of chlorine bypass dust and powdery low-moisture inorganic sludge, wherein chlorine bypass dust and water undergo an absorption reaction, exothermic reaction and expansion reaction to form a hydraulic binder, and the hydraulic binder is It is possible to provide an eco-friendly artificial aggregate composition in which chlorine bypass dust and the powdery low-moisture inorganic sludge are combined.

The chlorine bypass dust is potassium chloride (KCl), quicklime (CaO), or anhydrous gypsum (CaSO ₄ ) remaining by adding and bypassing some chlorine components that cause problems such as clogging of the preheater during cement manufacturing. Process containing It is a by-product.

In addition, the chlorine bypass dust is forcibly extracted from the temperature of about 1,000 ℃ of the kiln to remove volatile substances including chlorine for smooth operation of the clinker production kiln operated at a high temperature of about 2,000 ℃ in the cement production plant. As inorganic substances contained in the gas, besides potassium chloride, quicklime and anhydrite that have been dehydrated and decarboxylated by high temperature of 1,000 ℃ are included.

The quicklime and anhydrite of the chlorine bypass dust react with water and undergo absorption, high exothermic, and expansion reactions to change to hemihydrate gypsum or dihydrate gypsum and calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum and calcium hydroxide act as a hydraulic binder similar to cement. By doing, it is possible to form a spherical mass between the chlorine bypass dust and the inorganic fine particles of the powdery low-moisture inorganic sludge to form an artificial aggregate.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

In addition, the content ratio of the chlorine bypass dust, the powdery low-moisture inorganic sludge and water in the eco-friendly artificial aggregate composition may include 1: 0.05: 0.05 to 0.05: 1:1 by weight.

In this case, the content ratio of the chlorine bypass dust, the powdery low-moisture inorganic sludge and water in the eco-friendly artificial aggregate composition is preferably 1: 0.06: 0.06 to 0.06: 1: 0.98 by weight. Preferably, it may include 1: 0.07: 0.07 to 0.07: 1: 0.95 by weight.

In addition, the powdery low-moisture inorganic sludge is

Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphate fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil It may be one or more sludge selected from the group consisting of.

In addition, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge may be 7 to 13.8.

Here, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge may be preferably 7.5 to 13.5, and more preferably, the pH may be 8 to 13.

In addition, the aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

Here, quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust reacts with water to absorb moisture, an exothermic reaction, or an expansion reaction to form hemihydrate gypsum (CaSO _4· 1/2H ₂ O), dihydrate _{gypsum (CaSO 4·} 2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) can do.

That is, the quicklime and anhydrite of the chlorine bypass dust react with water and undergo absorption, high exothermic, and expansion reactions to change into hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide has hydraulic properties similar to cement. Acting as a binder, it is possible to form an artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the powdery low-moisture inorganic sludge.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

Eco-friendly artificial aggregate composition using coal ash as chlorine bypass dust and powdery low-moisture inorganic sludge

The environment-friendly artificial aggregate composition using coal ash as chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

An eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, coal ash, which is a powdery low-moisture inorganic sludge, and water,

The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,

The coal ash is a component of Fe ₂ O ₃ 10 to 55% by weight, SiO ₂ 2 to 40% by weight, Al ₂ O ₃ 3 to 65% by weight, CaO 0.05 to 50% by weight, MgO 1 to 30% by weight, Na ₂ 0.2 to 25% by weight of _{O, 10 to 40% by weight of K 2} O, 2 to 35% by weight of MnO, and 0.2 to 25% by weight of carbon (C),

The content ratio of the chlorine bypass dust, the coal ash and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,

_{CaO and CaSO 4} of the chlorine bypass may react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder may combine the chlorine bypass dust and the coal ash to form an artificial aggregate.

In addition, the content ratio of the chlorine bypass dust, the coal ash and water in the eco-friendly artificial aggregate composition may include 1: 0.05: 0.05 to 0.05: 1:1 by weight.

In this case, the content ratio of the chlorine bypass dust, the coal ash and water in the eco-friendly artificial aggregate composition is preferably 1: 0.06: 0.06 to 0.06: 1: 0.98 by weight, and more preferably 1 by weight : 0.07 : 0.07 ~ 0.07 : 1 : 0.95 may be included.

Here, the coal ash is a fine powder formed after burning coal, and the shape of the particles is porous.

In addition, the coal ash is disposed of in a way that a significant amount of the amount generated in the power plant is buried in a pond (landfill) in the power plant, or recycled as a building material or cement raw material, but the coal ash generated in the fluidized bed boiler type is difficult to recycle. Research on the method is actively underway.

Here, most of the thermal power plants currently being built are being constructed without installing a pond, and thus are facing the limit of increasing coal ash recycling.

Therefore, a lot of effort and investment are being made for a method of recycling the coal ash.

The coal ash has a very wide particle diameter ranging from 0.1 to 200 μm, is a material in the form of fine particles, and contains less than 5% moisture.

Accordingly, the present applicants reacted the quicklime and anhydrite of the chlorine bypass dust with water through diligent efforts to form hemihydrate gypsum or dihydrate gypsum, and calcium hydroxide through absorption, high exothermicity, and expansion reaction. Then, by making the produced hemihydrate gypsum, dihydrate gypsum and calcium hydroxide act as a hydraulic binder similar to cement, it was possible to form an artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the coal ash.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

In addition, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge may be 7 to 13.8.

In particular, the pH of the environmentally friendly artificial aggregate composition using the chlorine bypass dust and coal ash may be 7 to 13.8.

Here, the pH of the environmentally friendly artificial aggregate composition using the chlorine bypass dust and coal ash may be preferably 7.5 to 13.5, and more preferably, the pH may be 8 to 13.

In addition, the aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

And, quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust reacts with water to absorb moisture, an exothermic reaction, or an expansion reaction to form hemihydrate gypsum (CaSO _4· 1/2H ₂ O), dihydrate _{gypsum (CaSO 4·} 2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) can do.

That is, the quicklime and anhydrite of the chlorine bypass dust react with the water and undergo absorption, high exothermic, and expansion reactions to change into hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide is similar to cement. Acting as a hydraulic binder, it is possible to form an artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the coal ash.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

Eco-friendly artificial aggregate composition using tailings as chlorine bypass dust and powdery low-moisture inorganic sludge

The environment-friendly artificial aggregate composition using tailings as chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

As an eco-friendly artificial aggregate composition using the aqueous hardening reaction of chlorine bypass dust, a by-product of the cement process, tailings (mineral residue), which is a powdery low-moisture inorganic sludge, and water,

The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,

The tailings include Fe ₂ O ₃ 3 to 30% by weight, SiO ₂ 10 to 70% by weight, Al ₂ O ₃ 3 to 65% by weight, CaO 5 to 40% by weight, MgO 1 to 30% by weight, Na ₂ O 0.2 to 20% by weight, K ₂ O It contains 0.2 to 20% by weight,

In the eco-friendly artificial aggregate composition, the content ratio of the chlorine bypass dust, the tailings and water is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,

_{CaO and CaSO 4} of the chlorine bypass may react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder may combine the chlorine bypass dust and the tailings to form an artificial aggregate.

In addition, the content ratio of the chlorine bypass dust, the tailings, and water in the eco-friendly artificial aggregate composition may include 1: 0.05: 0.05 to 0.05: 1:1 by weight.

In this case, the content ratio of the chlorine bypass dust, the tailings, and water in the eco-friendly artificial aggregate composition is preferably 1: 0.06: 0.06 to 0.06: 1: 0.98 by weight, and more preferably 1 by weight. : 0.07 : 0.07 ~ 0.07 : 1 : 0.95 may be included.

Here, the tailings are mineral residues generated during beneficiation and smelting during mine development, and heavy metal components harmful to the environment are As, Cd, Cu, Pb, or Zn.

In addition, environmental hazards caused by the tailings include loss of tailings, blockage of waterways due to tailings yard collapse, leachate generation, forest damage, river pollution, etc. research is actively underway.

Here, due to the control of the amount of tailings, the location conditions of the stockyard, the geological structure of the lower part of the stockyard, etc., the cost of irrigation, covering, and planting increases, and the limitation of land reclamation is reached.

Therefore, a great deal of effort and investment is being made on how to recycle the tailings.

The tailings have a very wide particle diameter ranging from 0.1 to 300 μm, are in the form of fine particles, and are a material containing less than 30% moisture.

Accordingly, the present applicants reacted the quicklime and anhydrite of the chlorine bypass dust with water through diligent efforts to form hemihydrate gypsum or dihydrate gypsum, and calcium hydroxide through absorption, high exothermicity, and expansion reaction. Then, by making the produced hemihydrate gypsum, dihydrate gypsum and calcium hydroxide act as a hydraulic binder similar to cement, it was possible to form an artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the tailings.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

In addition, the pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge may be 7 to 13.8.

In particular, the pH of the environmentally friendly artificial aggregate composition using the chlorine bypass dust and tailings may be 7 to 13.8.

Here, the pH of the environmentally friendly artificial aggregate composition using the chlorine bypass dust and tailings may be preferably 7.5 to 13.5, and more preferably, the pH may be 8 to 13.

In addition, the aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

And, quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust reacts with water to absorb moisture, an exothermic reaction, or an expansion reaction to form hemihydrate gypsum (CaSO _4· 1/2H ₂ O), dihydrate _{gypsum (CaSO 4·} 2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) can do.

That is, the quicklime and anhydrite of the chlorine bypass dust react with the water and undergo absorption, high exothermic, and expansion reactions to change into hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide is similar to cement. Acting as a hydraulic binder, it is possible to form an artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the tailings.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

Eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge

The eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

An eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, powdery low-moisture inorganic sludge, and water, which are by-products of the cement process,

an impurity removal step of removing stones or impurities by introducing the chlorine bypass dust and the powdery low-moisture inorganic sludge into a separator, respectively; and

manufacturing an artificial aggregate by mixing the chlorine bypass dust from which impurities are removed, the powdery low-moisture inorganic sludge from which impurities are removed, and water;

and a method for manufacturing an eco-friendly artificial aggregate using the chlorine bypass dust and the environmentally friendly artificial aggregate composition using the inorganic powdery low-moisture sludge and the chlorine bypass dust and the powdery low-moisture inorganic sludge.

Here, the impurity removal step of removing stones or impurities by introducing the chlorine bypass dust and the powdery low-moisture inorganic sludge into a separator, respectively, is the chlorine bypass dust and the powdery low-moisture inorganic sludge used as artificial aggregate raw materials. It is a process to remove stones or impurities from sludge.

In addition, in the step of manufacturing artificial aggregate by mixing the chlorine bypass dust from which impurities are removed, the powdery low-moisture inorganic sludge from which impurities are removed, and water, gypsum and quicklime of the chlorine bypass dust from which impurities are removed reacts with the water and undergoes absorption, high heat, and expansion reactions to change to hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide acts as a hydraulic binder similar to cement, An artificial aggregate can be manufactured by making a spherical mass between the inorganic fine particles of the powdery low-moisture inorganic sludge.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

In addition, the powdery low-moisture inorganic sludge is

Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphate fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil It may be at least one sludge selected from the group consisting of.

And, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include a classification step of classifying the artificial aggregate and circulating the powder of 0.15 mm or less as a raw material.

Here, in the classification step, the artificial aggregate having a size of 0.15 to 5 mm is shipped as a product.

And, in the classification step, the powder with an artificial aggregate size of 0.15 mm or less is input as a raw material or shipped as a powder product.

In addition, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

It may further include the step of natural drying, heat drying or hot air drying of the artificial aggregate.

Here, the natural drying may be air dried at room temperature in a yard, warehouse, reactor, or loading box, but is not limited thereto.

In addition, heat drying may be dried by heating at a temperature of 30 ~ 120 °C in a reactor, loading box, or warehouse, but is not limited thereto.

And, hot air drying may be dried by applying hot air at a temperature of 30 to 120 ℃ in a reactor, loading box, or warehouse, but is not limited thereto.

Here, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge

The aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

That is, the chlorine bypass dust absorbs the water, and the quicklime and anhydrite of the chlorine bypass dust react with a high exothermic reaction to expand and change to hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide Silver acts as a hydraulic binder similar to cement, and can produce artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the powdery low-moisture inorganic sludge.

In addition, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of producing an artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the powdery low-moisture inorganic sludge from which the impurities are removed, and water,

The chlorine bypass dust and the water form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder combines the chlorine bypass dust and the powdery low moisture inorganic sludge to produce an artificial aggregate.

And, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and powdery low-moisture inorganic sludge is

In the step of producing an artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed and the powdery low-moisture inorganic sludge from which the impurities are removed,

The mixing uses a twin shaft type mixer,

Screws, paddles or rods for mixing and molding are attached to the twin shaft,

The mixer may be provided with a liquid injector and a powder injector for input of water or a property improving agent.

1 is a process flow diagram of an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge according to an embodiment of the present invention.

Referring to FIG. 1 , first, chlorine bypass dust and powdery low-moisture inorganic sludge are put into a separator, respectively, and stones or impurities are removed (S110).

When chlorine bypass dust from which stones or impurities have been removed, powdery low-moisture inorganic sludge and water are mixed in a mixer, the quicklime and anhydrite of the chlorine bypass dust react with the water to absorb, high heat, and expand. It is changed into hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide through An artificial aggregate is manufactured by making a spherical mass between the fine particles (S120).

After manufacturing the artificial aggregate, after classifying the artificial aggregate by size (S130), the artificial aggregate having a diameter of 0.15 to 5 mm is dried (S150) by natural drying, heat drying, or hot air drying. The dried artificial aggregate is shipped.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

And, after classifying the artificial aggregate (S130), the powder of 0.15 mm or less is re-injected as a raw material (S140) or shipped as a powder product.

Environment-friendly artificial aggregate manufacturing method using coal ash as chlorine bypass dust and powdery low-moisture inorganic sludge

The method for producing an eco-friendly artificial aggregate using coal ash as chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

An eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, a by-product of the cement process, coal ash, which is a powdery low-moisture inorganic sludge, and water, comprising:

an impurity removal step of removing stones or impurities by inputting the chlorine bypass dust and the coal ash into a separator, respectively; and

Including; and mixing the chlorine bypass dust from which impurities are removed, the coal ash from which impurities are removed, and water to prepare artificial aggregate;

The chlorine bypass dust and powdery low-moisture inorganic sludge include an environmentally friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge by an environmentally friendly artificial aggregate composition using coal ash.

Here, the impurity removal step of removing stones or impurities by putting the chlorine bypass dust and the coal ash into a separator, respectively, is a process of removing the chlorine bypass dust and stones or impurities from the coal ash used as artificial aggregate raw materials.

In addition, in the step of manufacturing artificial aggregate by mixing the chlorine bypass dust from which impurities are removed, the coal ash from which impurities are removed, and water, quicklime and anhydrite of the chlorine bypass dust from which impurities are removed are reacted with the water to change to hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide through absorption, high exothermicity, and expansion reaction, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide acts as a hydraulic binder similar to cement, and the chlorine bypass dust and the inorganic properties of the coal ash Artificial aggregate can be manufactured by making a spherical mass between fine particles.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

In addition, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and coal ash is

It may further include a classification step of classifying the artificial aggregate and circulating the powder of 0.15 mm or less as a raw material.

Here, in the classification step, the artificial aggregate having a size of 0.15 to 5 mm is shipped as a product.

And, in the classification step, the powder having an artificial aggregate size of 0.15 mm or less is input as a raw material or shipped as a powder product.

In addition, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and coal ash is

It may further include the step of natural drying, heat drying or hot air drying of the artificial aggregate.

Here, the natural drying may be air dried at room temperature in a yard, warehouse, reactor, or loading box, but is not limited thereto.

In addition, heat drying may be dried by heating at a temperature of 30 ~ 120 °C in a reactor, loading box, or warehouse, but is not limited thereto.

And, hot air drying may be dried by applying hot air at a temperature of 30 to 120 ℃ in a reactor, loading box, or warehouse, but is not limited thereto.

Here, the method of manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and coal ash

The aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

That is, the chlorine bypass dust absorbs the water, and the quicklime and anhydrite of the chlorine bypass dust react with a high exothermic reaction to expand and change to hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide Silver acts as a hydraulic binder similar to cement, and can produce artificial aggregates by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the coal ash.

In addition, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and coal ash is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the coal ash from which the impurities are removed, and water,

The chlorine bypass dust and the water may form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder may combine the chlorine bypass dust and the coal ash to manufacture an artificial aggregate.

And, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and coal ash is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed and the coal ash from which the impurities are removed,

The mixing uses a twin shaft type mixer,

Screws, paddles or rods for mixing and molding are attached to the twin shaft,

The mixer may be provided with a liquid injector and a powder injector for input of water or a property improving agent.

1 is a process flow diagram of an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and coal ash according to an embodiment of the present invention.

Referring back to FIG. 1 , first, chlorine bypass dust and coal ash, which are raw materials, are put into a separator, respectively, and stones or impurities are removed ( S110 ).

When chlorine bypass dust, coal ash, and water from which stones or impurities have been removed are put into a mixer and mixed, the quicklime and anhydrite of the chlorine bypass dust react with the water to absorb, high heat, and expand, then hemihydrate gypsum, dihydrate gypsum , or calcium hydroxide, the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide acts as a hydraulic binder similar to cement, and makes a spherical mass between the chlorine bypass dust and the inorganic fine particles of the coal ash to produce artificial aggregate (S120) do.

After manufacturing the artificial aggregate, after classifying the artificial aggregate by size (S130), the artificial aggregate having a diameter of 0.15 to 5 mm is dried (S150) by natural drying, heat drying, or hot air drying. The dried artificial aggregate is shipped.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

And, after classifying the artificial aggregate (S130), the powder of 0.15 mm or less is re-injected as a raw material (S140) or shipped as a powder product.

Environment-friendly artificial aggregate manufacturing method using tailings as chlorine bypass dust and powdery low-moisture inorganic sludge

The method for producing an eco-friendly artificial aggregate using tailings as chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

An eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, tailings, which is a powdery low-moisture inorganic sludge, and water, comprising:

an impurity removal step of removing stones or impurities by inputting the chlorine bypass dust and the tailings to a grinder, respectively; and

Including; mixing the chlorine bypass dust from which impurities are removed, the tailings from which impurities have been removed, and water to prepare artificial aggregate;

and a method for producing an eco-friendly artificial aggregate using chlorine bypass dust and powdery low-moisture inorganic sludge by an eco-friendly artificial aggregate composition using tailings as the chlorine bypass dust and powdery low-moisture inorganic sludge.

Here, the impurity removal step of respectively introducing the chlorine bypass dust and the tailings to a grinder to remove stones or impurities is a process of removing the chlorine bypass dust used as raw materials for artificial aggregate and stones or impurities of the tailings.

In addition, in the step of manufacturing artificial aggregate by mixing the chlorine bypass dust from which impurities are removed, the tailings from which impurities are removed, and water, quicklime and anhydrite of the chlorine bypass dust from which impurities are removed are reacted with the water The resultant hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide is transformed into hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide through absorption, high exothermicity, and expansion reaction. Artificial aggregate can be manufactured by making a spherical mass between fine particles.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

In addition, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and tailings is

It may further include a classification step of classifying the artificial aggregate and circulating the powder of 0.15 mm or less as a raw material.

Here, in the classification step, the artificial aggregate having a size of 0.15 to 5 mm is shipped as a product.

And, in the classification step, the powder having an artificial aggregate size of 0.15 mm or less is input as a raw material or shipped as a powder product.

In addition, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and tailings is

It may further include the step of natural drying, heat drying or hot air drying of the artificial aggregate.

Here, the natural drying may be air dried at room temperature in a yard, warehouse, reactor, or loading box, but is not limited thereto.

In addition, heat drying may be dried by heating at a temperature of 30 ~ 120 °C in a reactor, loading box, or warehouse, but is not limited thereto.

And, hot air drying may be dried by applying hot air at a temperature of 30 to 120 ℃ in a reactor, loading box, or warehouse, but is not limited thereto.

Here, the method of producing an eco-friendly artificial aggregate using the chlorine bypass dust and tailings

The aqueous hardening reaction may be water absorption, exothermic reaction, or expansion reaction.

That is, the chlorine bypass dust absorbs the water, and the quicklime and anhydrite of the chlorine bypass dust react with a high exothermic reaction to expand and change to hemihydrate gypsum, dihydrate gypsum, or calcium hydroxide, and the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide Silver acts as a hydraulic binder similar to cement, and can produce artificial aggregate by making a spherical mass between the chlorine bypass dust and the inorganic fine particles of the tailings.

In addition, the eco-friendly artificial aggregate manufacturing method using the chlorine bypass dust and tailings is

In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the tailings from which the impurities are removed, and water,

The chlorine bypass dust and the water may form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder may combine the chlorine bypass dust and the tailings to produce an artificial aggregate.

In addition, the environmentally friendly artificial aggregate manufacturing method using the chlorine bypass dust and tailings is

In the step of producing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed and the tailings from which the impurities are removed,

The mixing uses a twin shaft type mixer,

Screws, paddles or rods for mixing and molding are attached to the twin shaft,

The mixer may be provided with a liquid injector and a powder injector for input of water or a property improving agent.

1 is a process flow diagram of an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and tailings according to an embodiment of the present invention.

Referring back to FIG. 1 , first, chlorine bypass dust and tailings, which are raw materials, are put into a sorter, respectively, and stones or impurities are removed ( S110 ).

When chlorine bypass dust, tailings and water from which stones or impurities have been removed are put in a mixer and mixed, quicklime and anhydrite of the chlorine bypass dust react with the water to absorb, high heat, and expand, then hemihydrate gypsum and dihydrate gypsum , or calcium hydroxide, the produced hemihydrate gypsum, dihydrate gypsum or calcium hydroxide acts as a hydraulic binder similar to cement, and makes a spherical mass between the chlorine bypass dust and the inorganic fine particles of the tailings to produce artificial aggregate (S120) do.

After manufacturing the artificial aggregate, after classifying the artificial aggregate by size (S130), the artificial aggregate having a diameter of 0.15 to 5 mm is dried (S150) by natural drying, heat drying, or hot air drying. The dried artificial aggregate is shipped.

Here, the particle size at the time of shipment of the artificial aggregate may be 0.15 mm to 5 mm, but is not limited thereto.

And, after classifying the artificial aggregate (S130), the powder of 0.15 mm or less is re-injected as a raw material (S140) or shipped as a powder product.

Eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge

The eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge of the present invention is

As an eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge,

Recycling of artificial aggregate having a particle size of 0.15 to 5 mm and powder having a particle size of 0.15 mm or less as a material selected from the group consisting of concrete bricks, shore blocks, cement raw materials, filling materials, and covering materials.

Here, the powdery low-moisture inorganic sludge is

Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphate fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil It may be at least one sludge selected from the group consisting of.

Hereinafter, the present invention will be described in more detail through examples. However, the following examples are provided to explain the present invention in more detail, and the scope of the present invention is not limited by the following examples. The following examples can be appropriately modified and changed by those skilled in the art within the scope of the present invention.

<Example>

<Example A-1 to Example A-3> Environment-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge

An eco-friendly artificial aggregate manufacturing method using the aqueous hardening reaction of chlorine bypass dust, a by-product of the cement process, and powdery, low-moisture, inorganic sludge.

As shown in Table 1 below, as powdery low-moisture inorganic sludge, coal ash, tailings, and contaminated soil were used respectively and mixed with chlorine bypass dust and water to prepare eco-friendly artificial aggregates.

First, chlorine bypass dust and coal ash were respectively put into the separator to remove stones or impurities.

Thereafter, 100% of the chlorine bypass dust from which impurities have been removed was mixed with 20% of the coal ash from which impurities were removed and water, classified and dried to prepare artificial coal ash aggregate (Example A-1).

Here, the particle size of the artificial aggregate prepared using the chlorine bypass dust and the coal ash is shown in Table 1 below.

In addition, as chlorine bypass dust and high moisture inorganic sludge, tailings and contaminated soil in Table 1 were used instead of the coal ash of Example A-1, respectively, and tailings artificial aggregate (Example A-) 2), contaminated soil artificial aggregate (Example A-3) was prepared.

In addition, the particle size of the artificial aggregate prepared using the chlorine bypass dust and the tailings and the particle size of the artificial aggregate prepared using the chlorine bypass dust and the contaminated soil are shown in Table 1 below.

powdery properties
low moisture
sludge
Kinds Content ratio (%) Artificial aggregate particle size (%) Goat
bypass
dust powdery properties
low moisture
sludge water 4.75~
2.36
mm 2.36~
1.18
mm 1.18~
0.6
mm 0.6~
0.3
mm 0.3~
0.15
mm 0.15
mm or less Example A-1 coal ash
100 20 40 30.1 25.3 16.5 10.5 10.5 7.1 Example A-2 tailings 35 30 19.7 23.3 18.5 9.6 15.5 13.4 Example A-3 contaminated soil 40 20 9.8 12.3 15.5 25.5 22.6 14.3

<Example B-1 to Example B-3> Environment-friendly artificial aggregate manufacturing method using chlorine bypass dust and coal ash

It is an eco-friendly artificial aggregate manufacturing method using chlorine bypass dust, a by-product of the cement process, and aqueous hardening reaction of coal ash.

As shown in Table 2 below, using coal ash-35, coal ash-40, and coal ash-45, respectively, and mixed with chlorine bypass dust and water to prepare eco-friendly artificial aggregates.

First, chlorine bypass dust and coal ash-35 were put into the separator, respectively, to remove stones or impurities.

After that, 100% of the chlorine bypass dust from which impurities are removed is mixed with 20% of the coal ash-35 from which impurities are removed and 35% of water, classified and dried to obtain coal ash-35 artificial aggregate (Example B-1). prepared.

Here, the particle sizes of the artificial aggregates prepared using the chlorine bypass dust and the coal ash-35 are shown in Table 2 below.

In addition, using the chlorine bypass dust and coal ash-40 and coal ash-45 of Table 2 below instead of the coal ash-35 of Example B-1, respectively, and using the same artificial aggregate manufacturing method, coal ash-40 artificial aggregate (Example B- 2; Same as Example A-1), coal ash-45 artificial aggregate (Example B-3) was prepared.

In addition, the particle size of the artificial aggregate prepared using the chlorine bypass dust and the coal ash-40 and the particle size of the artificial aggregate prepared using the chlorine bypass dust and the coal ash-45 are shown in Table 2 below.

coal ash
Kinds Content ratio (%) Artificial aggregate particle size (%) Goat
bypass
dust coal ash water 4.75~
2.36
mm 2.36~
1.18
mm 1.18~
0.6
mm 0.6~
0.3
mm 0.3~
0.15
mm 0.15
mm or less Example B-1 coal ash-
35
100
20 35 22.3 18.8 17.6 13.5 12.6 15.2 Example B-2 coal ash-
40 40 30.1 25.3 16.5 10.5 10.5 7.1 Example B-3 coal ash-
45 45 31.5 30.6 18.8 9.9 8.8 0.4

<Example C-1 to Example C-3> Environment-friendly artificial aggregate manufacturing method using chlorine bypass dust and tailings

An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust, a by-product of the cement process, and aqueous hardening reaction of tailings,

As shown in Table 3 below, tailings-25, tailings-30, and tailings-35 were each used and mixed with chlorine bypass dust and water to prepare eco-friendly artificial aggregates.

First, chlorine bypass dust and tailings-25 were introduced into a sorter to remove stones or impurities.

After that, 100% of the chlorine bypass dust from which impurities have been removed is mixed with 25% of the tailings-25 from which impurities have been removed and 35% of water, classified and dried to prepare tailings-25 artificial aggregate (Example C-1). prepared.

Here, the particle size of the artificial aggregate prepared using the chlorine bypass dust and the tailings-25 is shown in Table 3 below.

In addition, tailings-30 and tailings-35 of Table 3 below were used instead of chlorine bypass dust and tailings-25 of Example C-1, and tailings-30 artificial aggregate (Example C- 2), tailings-35 artificial aggregate (Example C-3; same as Example A-2) was prepared.

In addition, the particle size of the artificial aggregate prepared using the chlorine bypass dust and the tailings-30 and the particle size of the artificial aggregate prepared using the chlorine bypass dust and the tailings-35 are shown in Table 3 below.

tailings
Kinds Content ratio (%) Artificial aggregate particle size (%) Goat
bypass
dust tailings water 4.75~
2.36
mm 2.36~
1.18
mm 1.18~
0.6
mm 0.6~
0.3
mm 0.3~
0.15
mm 0.15
mm or less Example C-1 tailings-25
100
35 25 17.7 19.5 21.2 18.8 8.5 14.3 Example C-2 tailings-30 30 19.7 23.3 18.5 9.6 15.5 13.4 Example C-3 tailings-35 35 22.2 25.3 20.5 15.5 8.4 8.1

Up to now, specific examples of an eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge according to the present invention, an artificial aggregate manufacturing method, and an artificial aggregate recycling method have been described, but do not depart from the scope of the present invention. It is obvious that various implementation modifications are possible within the limit.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims as well as the claims and equivalents.

That is, the above-described embodiment is to be understood in all respects as illustrative and not restrictive, the scope of the present invention is indicated by the claims to be described later rather than the detailed description, and the meaning and scope of the claims; All changes or modifications derived from the concept of equivalents should be construed as being included in the scope of the present invention.

Claims (24)

As an eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, powdery low-moisture inorganic sludge, and water, which are by-products of the cement process,
The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,
The powdery low-moisture inorganic slurries have a moisture content of less than 30% by weight and include oxides, nitrides, chlorides, sulfides, fluorides, and It contains one or more inorganic salts selected from the group consisting of phosphides,
The content ratio of the chlorine bypass dust, the powdery low-moisture inorganic sludge and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,
_{CaO and CaSO 4} of the chlorine bypass dust react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the powdery low moisture inorganic sludge to form an artificial aggregate characterized by
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
The method of claim 1,
The powdery low-moisture inorganic sludge is
Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphoric acid fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil Characterized in that at least one sludge selected from the group consisting of
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
An eco-friendly artificial aggregate composition using an aqueous hardening reaction of chlorine bypass dust, which is a by-product of the cement process, coal ash, which is a powdery low-moisture inorganic sludge, and water,
The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,
The coal ash is a component of Fe ₂ O ₃ 10 to 55% by weight, SiO ₂ 2 to 40% by weight, Al ₂ O ₃ 3 to 65% by weight, CaO 0.05 to 50% by weight, MgO 1 to 30% by weight, Na ₂ 0.2 to 25% by weight of _{O, 10 to 40% by weight of K 2} O, 2 to 35% by weight of MnO, and 0.2 to 25% by weight of carbon (C),
The content ratio of the chlorine bypass dust, the coal ash and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,
_{CaO and CaSO 4} of the chlorine bypass dust react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the coal ash to form an artificial aggregate
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
As an eco-friendly artificial aggregate composition using the aqueous hardening reaction of chlorine bypass dust, a by-product of the cement process, tailings (mineral residue), which is a powdery low-moisture inorganic sludge, and water,
The chlorine bypass dust is SiO ₂ 5-20 wt%, Al ₂ O ₃ 1-10 wt%, CaO 2-45 wt%, MgO 0.1-8 wt%, CaSO ₄ 2-40 wt%, Fe ₂ O ₃ 0.5-15 wt%, Na ₂ O 0.02-10 wt%, K ₂ O 10-40 wt%, Cl 10-50 wt%, and SO ₃ 1-20 wt%,
The tailings include Fe ₂ O ₃ 3 to 30% by weight, SiO ₂ 10 to 70% by weight, Al ₂ O ₃ 3 to 65% by weight, CaO 5 to 40% by weight, MgO 1 to 30% by weight, Na ₂ O 0.2-20 wt%, and K ₂ O 0.2-20 wt%,
The content ratio of the chlorine bypass dust, the tailings and water in the eco-friendly artificial aggregate composition is 1: 0.05: 0.05 to 0.05: 1: 1 by weight,
_{CaO and CaSO 4} of the chlorine bypass dust react with the water to act as a hydraulic binder of the artificial aggregate, and the hydraulic binder combines the chlorine bypass dust and the tailings to form an artificial aggregate
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
5. The method of claim 1, 3 or 4,
The pH of the eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge is 7 to 13.8, characterized in that
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
5. The method of claim 1, 3 or 4,
The artificial aggregate has a particle size of 0.15 mm to 5 mm at the time of shipment.
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
5. The method of claim 1, 3 or 4,
The aqueous hardening reaction is characterized in that the water absorption, exothermic reaction, or expansion reaction
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
5. The method of claim 1, 3 or 4,
Quicklime (CaO) or anhydrite (CaSO ₄ ) of the chlorine bypass dust _{is hemihydrate gypsum (CaSO 4} ·1/2H ₂ O), dihydrate _{gypsum (CaSO 4} ·2H ₂ O), or calcium hydroxide (Ca(OH) ₂ ) by reacting with the water to absorb moisture, exothermic reaction, or expansion reaction characterized by forming
An eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge.
An eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, powdery low-moisture inorganic sludge, and water, which are by-products of the cement process,
an impurity removal step of removing stones or impurities by introducing the chlorine bypass dust and the powdery low-moisture inorganic sludge into a separator, respectively; and
Comprising the step of mixing the chlorine bypass dust from which impurities are removed, the powdery low-moisture inorganic sludge from which impurities are removed, and water to prepare an artificial aggregate,
When an eco-friendly artificial aggregate composition is manufactured using the chlorine bypass dust and powdery low-moisture inorganic sludge according to claim ₁ , CaO and CaSO 4 of the chlorine bypass dust react with the water to form a hydraulic binder of artificial aggregate. Acts as, characterized in that the hydraulic binder combines the chlorine bypass dust and the powdery low-moisture inorganic sludge to produce an artificial aggregate
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
10. The method of claim 9,
The powdery low-moisture inorganic sludge is
Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral residue), quarry by-product, quarry by-product, phosphoric acid fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil Characterized in that at least one sludge selected from the group consisting of
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
An eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, a by-product of the cement process, coal ash, which is a powdery low-moisture inorganic sludge, and water, comprising:
an impurity removal step of removing stones or impurities by inputting the chlorine bypass dust and the coal ash into a separator, respectively; and
Comprising the step of producing artificial aggregate by mixing the chlorine bypass dust from which impurities are removed, the coal ash from which impurities are removed, and water,
When producing eco-friendly artificial aggregate with an eco-friendly artificial aggregate composition using chlorine bypass dust and powdery low-moisture inorganic sludge according to claim ₃ , CaO and CaSO 4 of the chlorine bypass dust react with the water to form a hydraulic binder of artificial aggregate Acts as, characterized in that the hydraulic binder combines the chlorine bypass dust and the coal ash to produce artificial aggregate
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
An eco-friendly artificial aggregate manufacturing method using an aqueous hardening reaction of chlorine bypass dust, a by-product of the cement process, tailings (mineral residue), which is a powdery low-moisture inorganic sludge, and water,
an impurity removal step of respectively introducing the chlorine bypass dust and the tailings to a sorter to remove stones or impurities; and
Comprising the step of mixing the chlorine bypass dust from which impurities are removed, the tailings from which impurities are removed, and water to prepare artificial aggregate,
When producing eco-friendly artificial aggregate using the chlorine bypass dust and powdery low-moisture inorganic sludge according to claim ₄ , CaO and CaSO 4 of the chlorine bypass dust react with the water to form a hydraulic binder of artificial aggregate. Acts as, characterized in that the hydraulic binder combines the chlorine bypass dust and the tailings to produce an artificial aggregate
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
13. The method of claim 9, 11 or 12,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
Classifying the artificial aggregate, characterized in that it further comprises a classification step of circulating the powder of 0.15 mm or less as a raw material
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
13. The method of claim 9, 11 or 12,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
The particle size at the time of shipment of the artificial aggregate is characterized in that it comprises a size of 0.15 mm to 5 mm
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
13. The method of claim 9, 11 or 12,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
Naturally drying the artificial aggregate, heat drying or hot air drying characterized in that it further comprises
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
13. The method of claim 9, 11 or 12,
The method of manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge
The aqueous hardening reaction is characterized in that the water absorption, exothermic reaction, or expansion reaction
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
10. The method of claim 9,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
In the step of producing an artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the powdery low-moisture inorganic sludge from which the impurities are removed, and water,
The chlorine bypass dust and the water form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder combines the chlorine bypass dust and the powdery low-moisture inorganic sludge to produce an artificial aggregate. doing
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
10. The method of claim 9,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
In the step of producing an artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the powdery low-moisture inorganic sludge from which the impurities are removed, and water,
The mixing uses a twin shaft type mixer,
Screws, paddles or rods for mixing and molding are attached to the twin shaft,
The mixer is characterized in that a liquid injector and a powder injector for input of water or a property improving agent are installed.
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
12. The method of claim 11,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the coal ash from which the impurities are removed, and water,
The chlorine bypass dust and the water form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder combines the chlorine bypass dust and the coal ash to produce an artificial aggregate
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
12. The method of claim 11,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the coal ash from which the impurities are removed, and water,
The mixing uses a twin shaft type mixer,
Screws, paddles or rods for mixing and molding are attached to the twin shaft,
The mixer is characterized in that a liquid injector and a powder injector for input of water or a property improving agent are installed.
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
13. The method of claim 12,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the tailings from which the impurities are removed, and water,
The chlorine bypass dust and the water form a hydraulic binder through an aqueous hardening reaction, and the hydraulic binder combines the chlorine bypass dust and the tailings to produce an artificial aggregate.
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
13. The method of claim 12,
The method for manufacturing eco-friendly artificial aggregates using the chlorine bypass dust and powdery low-moisture inorganic sludge is
In the step of preparing artificial aggregate by mixing the chlorine bypass dust from which the impurities are removed, the tailings from which the impurities are removed, and water,
The mixing uses a twin shaft type mixer,
Screws, paddles or rods for mixing and molding are attached to the twin shaft,
The mixer is characterized in that a liquid injector and a powder injector for input of water or a property improving agent are installed.
An eco-friendly artificial aggregate manufacturing method using chlorine bypass dust and powdery low-moisture inorganic sludge.
As an eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge,
Recycling artificial aggregate having a particle size of 0.15 to 5 mm and powder having a particle size of 0.15 mm or less as a material selected from the group consisting of concrete bricks, shore blocks, cement raw materials, filling materials, and covering materials,
The eco-friendly artificial aggregate formed of the eco-friendly artificial aggregate composition using the chlorine bypass dust and powdery low-moisture inorganic sludge according to claim ₁ is that CaO and CaSO 4 of the chlorine bypass dust react with the water to provide hydraulic properties of the artificial aggregate. Acts as a binder, and the hydraulic binder is an eco-friendly artificial aggregate formed by combining the chlorine bypass dust and the powdery low-moisture inorganic sludge
Eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge.
24. The method of claim 23,
The powdery low-moisture inorganic sludge is
Power plant coal ash, power plant flooring, incinerator flooring, incinerator fly ash, steel mill by-product, steelmaking by-product, smelting by-product, tailings (mineral waste), quarry by-product, quarry by-product, phosphoric acid fertilizer plant Busan gypsum, paper mill paper sludge incineration ash and contaminated soil Characterized in that at least one sludge selected from the group consisting of
Eco-friendly artificial aggregate recycling method using chlorine bypass dust and powdery low-moisture inorganic sludge.

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