KR20120061607A - A wrapping apparatus and the use method using sludge and natural ingredients - Google Patents

Abstract

PURPOSE: A pavement composition using sludge and a natural material and a paving method using the same are provided to naturally restore an environmentally-friendly aged paving material. CONSTITUTION: A pavement composition using sludge and a natural material comprises 15-25 weight% of sludge, 10-20 weight% of fly ash, 10-20 weight% of sand, 10-20 weight% of yellow soil, 10-20 weight% of coarse aggregate, 5-15 weight% of sand, 3-8 weight% of anhydrous gypsum, and 3-8 weight% of quicklime.

Description

A wrapping apparatus and the use method using sludge and natural ingredients}

The present invention is to provide a road or walkway pavement composition without a car traffic, such as bicycle lanes using water purification plant sludge and natural materials, more specifically, does not use any harmful chemical binders or cement at all, the present use By constructing environmentally friendly road pavement material that maintains a certain strength by using only raw water plant sludge and natural materials that are hard to find, we can recycle the water purification plant sludge as an industrially useful resource while protecting the natural ecosystem. In this case, the present invention relates to a bicycle-only road and promenade pavement using natural materials, in which aging pavement of environmentally friendly materials can be naturally reduced to nature.

In general, water purification plant sludge is a mud sludge sediment generated when sediment of raw water is precipitated in the process of purifying tap water, and an inorganic flocculant such as aluminum sulfate, which is administered to remove contaminants such as suspended solids and heavy metals, or It is a contaminant that contains polymer coagulants and organic substances such as chlorine or ozone administered for chemical sterilization of Escherichia coli and general bacteria.

In addition, wastewater sludge has been concentrated, dehydrated, and dried as waste, and most of it is landfilled in landfills or transported by transport ships and dumped in the sea, causing environmental pollution. In Korea, which is banned internationally, and most rely on ocean dumping, Korea is seeking efficient treatment as the sludge offshore dumping is banned, but it is still in a long way.

In addition, recently, greenhouse gas emission regulations have emerged as a new trade barrier and the industrial structure has been actively transformed into a green growth society. The automobile industry has 16.4% of total energy consumption, 16.1% of CO2 emissions, and traffic congestion costs. 2.9% of them threaten public health by increasing the destruction of natural ecosystems due to air pollution and environmental pollution generated by consuming fossil fuel energy.

As a result, bicycles are emerging as an eco-friendly green means of transportation in the period of no power, pollution and well-being, and as more and more people want to stay healthy by walking or jogging, roads and trails are becoming essential eco-friendly facilities for modern people. Many bicycle paths and trails are required.

In the meantime, the prior art compositions proposed for the pavement of bicycle lanes and trails have been proposed as alternatives to concrete pavements, and a number of methods have been proposed for maintaining a certain level of strength by mixing soil and soil hardener compositions together. As the solidifying agent, it is common to use cement and lime mixed with a polymer dispersant such as acrylic or urethane.

The inventors of the present invention have also conducted a lot of research on the road for bicycles only. In the process, even in the material of the bicycle roads disclosed in Korean Patent Publication No. 0125801, using ocher as a main raw material without using a chemical binder or cement. 20 to 60 parts by weight of Kari feldspar aggregate, 20 to 60 parts by weight of inorganic solidifying agent, 1 to 5 parts by weight of fiber reinforcement, 0.1 to 5 parts by weight of natural water repellent material, and 30 to 40 weight of water The composition for bicycle-only roads provided by mixing parts is provided.

In addition, in Patent No. 0971283, an environmentally friendly bicycle road composition, 10-40 wt% of feldspar aggregate, 20-70 wt% of processed ocher, 10-50 wt% of inorganic solids, 2-10 wt% of fiber reinforcement, and natural Patent registration through the raw material composition is composed of 1 to 6% by weight of the water reducing agent is mixed.

In addition, researches to recycle water purification sludge have been actively conducted. The method for preparing soil improving agent using water purification sludge disclosed in Korean Patent Application Publication No. 10-2004-0022501 includes dried lime water purification plant sludge, effective phosphoric acid, and various metal salts. A technique for preparing soil modifiers by mixing and pulverizing trace elements such as and boron is introduced, and the technology disclosed in Korean Patent Laid-Open Publication No. 2004-0035893 is a technical idea to use as a soil for crops using water purification plant sludge. In the disclosed manufacturing method, a first heat treatment of a water purification plant sludge, followed by mixing organic materials such as rice bran, rice husk, sawdust and the like, followed by a second heat treatment, introduces a technique for producing crop topsoil.

However, this conventional technique is a simple technique of drying the water purification plant sludge and mixing it with lime, effective phosphoric acid, metal salt, boron, organic matter, etc., and the practical utility of the water purification plant sludge is reduced, and mixed components other than the water purification plant sludge are absorbed into the soil for a short period of time. It is in a situation where its practicality is so small that it has not been put to practical use in the field.

The present invention has been devised in view of the above-mentioned problems, and as the pavement area such as roads rapidly increases due to the progress of urbanization and industrialization, water does not penetrate into the ground, resulting in poor vegetation environment and flood damage during heavy rains. And, in the summer, the invention started with the problem to improve the environment in which the living environment of people is poor due to the phenomenon of urban heat island.

We provide eco-friendly pavement materials, but do not use harmful chemical binders or cements, and we are struggling with the current treatment and construct eco-friendly pavement pavement that maintains a certain strength by using only water purification plant sludge and natural materials. To protect water and recycle water purification sludge as an industrially useful resource, and to ensure permeability and water retention by using natural materials that can naturally reduce aging packaging materials to eco-friendly materials even when packaging materials become aging. Has the purpose to provide.

In the present application as a means for achieving the above object, as a composition for obtaining a packaging material having a certain strength using a water purification plant sludge, water purification plant sludge 15 to 25 wt%, fly ash 10 to 20 wt%, foundry sand 10 to 20 wt% , 10 ~ 20 wt% ocher, 10 ~ 20 wt% coarse aggregate, 5 ~ 15 wt% sand, 3 ~ 8 wt% anhydrous gypsum, 3 ~ 8 wt% quicklime It is a completed invention confirming that it can be provided.

The present invention is a method for producing a packaging material composition provided to have a constant strength using a water purification plant sludge, 15 to 25 wt% of water purification plant sludge, 10 to 20 wt% of fly ash, 10 to 20 wt% of foundry sand and 3 to 8 wt% of quicklime The first step is to perform a hydration reaction by mixing first, 10 to 20 wt% ocher, 10 to 20 wt% coarse aggregate, 5 to 15 wt% sand, anhydrous gypsum 3 to 8 in the mixture obtained in the first step Mixing in a process including a second step of mixing wt% to form a basic configuration or may be applied to the packaging composition provided in addition to the fiber reinforcement in the range of 1 to 5 wt%.

Up to now, most of the water purification plant sludge is treated as waste and concentrated, dehydrated, and dried at the water purification plant, and most of it is landfilled at landfills. Hydration reaction is carried out by mixing molding sand and quicklime together to lower the water content in the sludge, and then by mixing ocher, coarse aggregate, sand and anhydrous gypsum, it is possible to provide a packaging material that maintains constant strength and secures permeability and water retention. It is confirmed and completed invention.

In general, it is already known that quicklime reacts with water to cause a hydration reaction. According to the following equation, quicklime reacts with water (H 2 O) to produce calcium hydroxide with exothermic reaction.

CaO + H ₂ O-> Ca (OH) ₂ + 15.2 kcal / kg

The reaction is also called a digestion reaction, the heat generated in the reaction may vary depending on the amount, but the exothermic reaction to achieve a temperature in the range of 150 ~ 180 ℃ Celsius vaporizes water vapor or other substances and also has a sterilizing action and strong Absorption and exothermic microbial sterilization are known to most scientists, but the exothermic mechanism is not the same as the calcium (Ca) oxide alone, and the alkaline metal oxide reacts with water to exothermic Cause.

In addition, the silicon oxide contained in the fly ash and the foundry sand used together with the water purification plant sludge may perform high hydration by performing a similar hydration reaction, which is understood as the following mechanism.

2 (3CaO SiO ₂ ) + 6H ₂ O → 3CaO 2SiO ₂ 3H ₂ O + 3Ca (OH) ₂

Therefore, the fly ash, foundry sand, and quicklime components used in the present invention are hydrated upon contact with the water contained in the sludge of the water purification plant to turn into a silica material, where moisture in the sludge is absorbed and the strength of the solid is gradually increased. How to find out the packaging composition that has the desired effect by going through a number of trial and error to remove the water contained in the water purification plant sludge, maintain a certain strength after curing of the packaging material and provide a packaging material that does not adversely affect the ecosystem It would be.

The inventors of the present invention generally lower the moisture content in the sludge by mixing the fly ash, foundry sand and quicklime together with water purification sludge, which is not suitable as a raw material for packaging materials due to high water content, and then mixes ocher, coarse aggregate, sand and anhydrous gypsum. Assuming that it could provide a packing material that maintains a certain strength and ensures permeability and water retention by zooming, we tried to find the optimal formulation composition through many trial errors. It was confirmed that the packaging material provided in the range of 22.2 ~ 27.8 N / ㎡ can be obtained to complete the present invention.

Fly ash contains a large amount of alumina (Al2O3) and silica (SiO2), but also contains a large amount of alkaline metals such as CaO and MgO.Also, most of the casting sand quartz particles used for casting are alkali in feldspar and clay. Containing earth metals, the inventors of the present application is a fly ash is a material having the characteristics of improving the processability of the pavement surface, relieving heat of cure and securing long-term strength, and casting (鑄造) The casting sand used in the process improves the fire resistance, breathability, and moldability, and contains alkaline earth metal, so it is expected to lower the water content through the hydration reaction when mixed with water purification plant sludge with high water content. 15 to 25 wt% of sludge, 10 to 20 wt% of fly ash, 10 to 20 wt% of foundry sand and 3 to 8 wt% of quicklime Performing a first step and mixing the mixture obtained in the first step with ocher 10-20 wt%, coarse aggregate 10-20 wt%, sand 5-15 wt%, anhydrous gypsum 3-8 wt% When obtaining a packaging material composition by the process including a process, the inventor can obtain the packaging material which can satisfy | fill the desired conditions.

In addition, in the present application, the fiber reinforcing material may be added to the packaging material composition to increase the adhesive performance and strength, the fiber reinforcing material is cellulose fiber, metal fiber or polyamide-based, polyester-based, polyurethane-based, polyurea-based, polyethylene At least one synthetic fiber selected from the group consisting of polyvinyl chloride, polyfluoroethylene, polyvinyl alcohol, polyacrylonitrile and polypropylene may be used.

In addition, the present application also has a problem to provide a living breathing packaging using raw ocher in the composition of the packaging material, ocher contains enzymes such as catalase, protease, diphenol oxidase, saccharase and catalase Has a function of neutralizing or diluting the toxin component, and the protease has the function of rapidly decomposing and destroying the toxin component with the help of the protease in the soil, and the diphenol oxidase is an oxidation / reduction enzyme. It is an enzyme needed to obtain the energy required for the synthesis of active elements, and sacharase is a nutrient enzyme widely distributed in the biological system, and hydrolyzes sucrose to make glucose (also called glucose) and functions as a nutrient, detoxifier, and tonic of life. And acts as an enzyme that makes fructose

Therefore, in the present application, water purification sludge, fly ash, foundry sand, and quicklime are mixed first to lower the moisture content through hydration reaction, and the raw soil is added to the mixture obtained by the above process to increase the self-cleaning capacity of the package and far infrared rays It improves the detoxification, absorption and self-cleaning power by increasing the temperature, and the heat storage effect of the packing material to control the temperature rise and rise of the packing material, thereby increasing the durability of the packing material. Amenity can provide packaging materials that provide visual enjoyment.

Our company uses water purification sludge which is difficult to process and finds the right place for use at present, and eco-friendly road pavement that maintains a certain strength by using only natural materials, thus protecting the natural ecosystem and helping water purification sludge industrially. Even if the packaging material is recycled and the packaging material is aging, the aging packaging material of the eco-friendly material uses the natural material that can be naturally reduced to nature, and has the effect of providing a packaging material that ensures permeability and water retention.

The pavement composition provided herein has a rapid increase in pavement area such as road due to the progress of urbanization and industrialization, so that the vegetation environment is deteriorated due to the water not penetrating into the ground, flood damage occurs during heavy rains, urban heat island phenomenon, etc. It has the effect of solving the problem of poor living environment.

In addition, currently used packaging materials in the summer, the ground temperature of roads, parking lots, squares, etc. reaches up to 40 ℃, which is a major factor of heat island phenomena, thereby significantly increasing the use of air conditioning equipment such as air conditioning and energy consumption. Compared with the asphalt pavement, the pavement method using the pavement composition provided herein provides an effect that can be lowered by about 10 ° C. compared with the asphalt pavement.

1 is an exemplary manufacturing process for obtaining a packaging composition of the present application.
2: Illustrated primary mixer applicable to obtain the packaging composition of the present application.
3: Illustrated secondary mixer applicable to obtain the packaging composition of the present application.
Figure 4 is an exemplary application of the packaging composition of the present invention is poured on site.
5 is a table comparing the heat island effect of the packaging material of the present application and other packaging materials.

Hereinafter, the embodiments of the present invention for implementing the technical spirit of the present application, which will be described by presenting the embodiments of the technical spirit of the present invention in the drawings, the terms or words used in the specification or claims of the present application is conventional or dictionary The scope of protection of the present application should be interpreted as meaning and concept corresponding to the technical idea of the present invention, and the contents presented in the drawings of the present application are intended to achieve the purpose of the present application. It is to be understood that there are various equivalents and modifications that can be substituted for them at the time of filing the present application as they are merely illustrative of the application examples and do not represent the technical spirit of the present application.

Hereinafter, exemplary embodiments of the present invention will be described in detail with the accompanying drawings.

1 shows an exemplary process for obtaining a packaging composition of the present application.

In order to easily explain the technical idea for obtaining the packaging composition of the present application, an embodiment in which the primary mixer and the secondary mixer are used separately is shown. First, the primary mixer includes 20 kg of water purification plant sludge, 15 kg of fly ash and 15 kg of foundry sand. And the quicklime is mixed in the ratio of 5 kg range to perform the hydration reaction, at this time the temperature rises in the range of 130 ~ 160 ℃ by exothermic reaction inside the mixer to evaporate moisture, into the mixer to increase the reaction rate It may be desirable to be applied as a method of quickly removing water vapor generated by performing a hydration reaction while blowing high pressure air from the outside by a compressor.

As the mixture obtained through the first mixer is introduced into the secondary mixer, 15 kg of ocher, 15 kg of coarse aggregate in the range of 11 to 20 mm, 10 kg of sand in the range of 5 to 10 mm and 5 kg of anhydrous gypsum are mixed. It can provide a packaging composition consisting of 100 parts by weight, the composition is the result of the water contained in the water purification plant sludge evaporated during the hydration reaction is reduced as a result, the water purification plant sludge 15 ~ 25 wt%, fly ash 10 ~ 20 wt%, foundry sand 10-20 wt%, ocher 10-20 wt%, coarse aggregate 10-20 wt%, sand 5-15 wt%, anhydrous gypsum 3-8 wt%, quicklime 3-8 wt%, fiber reinforcement 1 It may be applied in a mixing composition containing ~ 5 wt%.

Figure 2 shows an application example of the primary mixer 20 applicable here, Figure 2a is a cross-sectional view to show the central portion of the primary mixer 20, Figure 2b of the primary mixer 20 Lifting the cap cap 22 as a perspective view showing the internal structure, the primary mixer 20 applied in one embodiment for implementing the technical idea of the lid cap (top) to the upper main body 21 of the lower ( 22) and the cap is provided with a raw material inlet 23, the lower end of the main body is provided with a mixture outlet 24 is provided in the center of the primary mixer 20 of the hollow hollow shaft (25) ), The stirring blade 26 is attached to the driven pulley 12 connected to the hollow central shaft 25 by the driving pulley 11 of the motor 10, the hollow central shaft 25 and the stirring blade (26) In the middle of the) is provided with a structure having a small hole-shaped holes (25a, 26a) through which the wind passes, the blower (13) It is shown that the high pressure air to be blown may be provided to supply the high pressure air through the holes 25a and 26a in the mixture inside the primary mixer to accompany the moisture generated in the mixture.

Figure 3 shows an application example of the secondary mixer 30 applicable here, Figure 3a shows a perspective view of the secondary mixer 30, Figure 3b shows the internal structure of the secondary mixer 30 As shown in the cross-sectional view, the secondary mixer 30, which is applied as an embodiment for implementing the technical concept of the present invention has an upper cap 32 in the form of a lid to the upper lower body 31 of the lower and the upper cap The raw material inlet part 33 is provided, and the mixture discharge part 34 is provided at the lower end of the main body, and the stirring blade 37 and the stirring blade 37 and the central axis 35 are located at the center of the secondary mixer 30. An embodiment is shown which is connected by a connecting bar 36 for attachment and rotated by a motor 10.

Figure 4 is a water treatment plant sludge provided herein 15 to 25 wt%, fly ash 10 to 20 wt%, foundry sand 10 to 20 wt%, ocher 10 to 20 wt%, coarse aggregate 10 to 20 wt%, sand 5 to 15 wt% , 3 ~ 8 wt% anhydrous gypsum, 3 ~ 8 wt% quicklime, 1 ~ 5 wt% of fiber reinforcement to form the basic composition of the packaging material mixture composition, using the mixed composition to actually apply the packaging work The experiments of FIGS. 4A to 4D were performed in order to test the compressive strength, the flexural strength, the sliding resistance, the freeze-thawing resistance, the permeability coefficient, and the like.

Figure 4a is a rubble compacted to a thickness of about 200 mm by using a rubble in the range of about 25 ~ 45 mm in the lower road, such as a walkway, and using the pavement mixture composition of the present application to about 70 mm thick Figure 4b shows the application of the site installation, Figure 4b is to install the road boundary stone on the road dedicated to the bicycle, the floor mortar is laid under the road boundary stone and the road boundary stone is set up, and the rubble is about 200 mm on the floor It shows an embodiment in which the site was laid using the pavement mix composition of the present application to the thickness of about 70 mm to the top, Figure 4c is subjected to rubble about 200 mm to the bottom when the road boundary stone is not installed in the general road On-site laying using the packaging material mixture composition of the present application about 70 ㎜ thick to the top, and about 100 instead of the boundary stone Figure 4d shows an embodiment in which an interface is formed using the pavement mixture composition of the present application to a thickness, and FIG. 4d shows an application example when using a tension reinforcement using a wire mesh or the like when forming a general road using the pavement composition of the present application. As an example, the present invention shows an embodiment of carrying out rubble compaction at about 200 mm on the bottom, laying the wire mesh on the top thereof, and using the packaging material composition of the present application at about 70 mm thick.

Table 1 shows the results of comparing the properties of the general cement pavement with the average of the results of the measurement of the properties of each pavement material 30 days after the pavement construction applied to the embodiment of Figures 4a to 4b of the present application as an average.

Table 1: Experimental results

division  Packing  Cement paving Compressive strength (N / ㎡)  22.2 to 27.8  28 or more  Flexural strength (MPa)  5.2 ~ 5.3  Slip Resistance (BPN)  73  45 or more  % Resistance to freezing and thawing  91  80 or more  Permeability coefficient (cm / sec) 3.5 × 10 ^-3  Almost none

In addition, the inventors of the present invention from August 10 to 19 after 30 days after the implementation of the packaging applied to the embodiment of Figures 4a to 4b to confirm the effect on the heat island phenomenon of the packaging material provided herein Comparative results obtained by calculating the average value by measuring the temperature for each time between the asphalt pavement and the high-pressure block pavement and the pavement of Figure 4a provided by the technical configuration of the present invention at the Gyeongsang National University Industry-University Cooperation Center, Gajwa-dong, Jinju-si, Gyeongsangnam-do As shown in FIG. 5, it can be seen from the results shown in FIG. 5 that the packaging material of the present application can greatly contribute to solving the heat island phenomenon.

Therefore, the eco-friendly pavement provided herein can provide an eco-friendly pavement that does not use hazardous chemical binders or cements, and has difficulty in current treatment and maintains a certain strength by using only water purification plant sludge and natural materials as raw materials. It protects the natural ecosystem and recycles water purification sludge as an industrially useful resource, and it ensures permeability by using natural materials that can naturally reduce the aged packaging materials of eco-friendly materials to nature even when the packaging materials are aging. In the case of providing a packaging material, the heat island phenomena resolved in FIG. 5 include an inorganic component such as ocher and fly ash having a porous structure and water molecules in the porous structure. To release the molecules and lower the surface, It may be due to the role of securing water retention as it is provided as a porous structural material that absorbs water molecules.

10 motor 11: drive pulley
12: driven pulley 13: blower
20: 1st mixer 21: main body
22: cap cap 23: raw material inlet
24: mixture outlet 25: hollow center shaft
26: stirring blade 30: secondary mixer
31: lower body 32: upper cap
33: raw material input part 34: mixture discharge part
35: center axis 36: connecting bar
37: stirring blade

Claims (5)

In the packaging composition provided to have a constant strength by using a water purification plant sludge,
Water purification plant sludge 15 to 25 wt%, fly ash 10 to 20 wt%, foundry sand 10 to 20 wt%, ocher 10 to 20 wt%, coarse aggregate 10 to 20 wt%, sand 5 to 15 wt%, anhydrous gypsum 3 to 8 wt %, 3 ~ 8 wt% of quicklime packaging composition using natural materials, characterized in that the mixture is configured. In the manufacturing method of the packaging material composition provided to have a constant strength using a water purification plant sludge,
A first step of performing a hydration reaction by first mixing 15 to 25 wt% of water purification plant sludge, 10 to 20 wt% of fly ash, 10 to 20 wt% of foundry sand, and 3 to 8 wt% of quicklime;
A second step of mixing 10-20 wt% of ocher, 10-20 wt% of coarse aggregate, 5-15 wt% of sand, and 3-8 wt% of anhydrous gypsum to the mixture obtained in the first step;
Method for producing a packaging material composition characterized in that it comprises a. The method of claim 2,
Method for producing a packaging composition, characterized in that applied to quickly remove the steam generated by injecting external air in the first step manufacturing process. The method of claim 1,
The ocher used in the second step manufacturing process is a method for producing a packaging composition, characterized in that the raw ocher is used. The method of claim 1,
The method of manufacturing a packaging material composition, characterized in that to promote the adhesive performance and strength reinforcing effect by adding a fiber reinforcement in the range of 1 to 5 wt% in the second step manufacturing process.

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