KR100481956B1 - Manufacture method of bed soil for crops to use cleaning bed sludge and the product - Google Patents

Abstract

     The present invention is primarily calcined sludge, which is an essential wastewater generated in a water purification plant, without filtration and dehydration, followed by extrusion molding after mixing organic materials such as rice bran or sawdust with the first calcined sludge, and secondly extruded sludge. The organic material and the like contained in the heat treatment are related to the soil for crops in which 10% or more of carbon remains due to carbonization of the secondary heat treatment, and a method for manufacturing the same. do.

Description

     Top soil for crops using water treatment sludge and its manufacturing method {Manufacture method of bed soil for crops to use cleaning bed sludge and the product}

     The present invention relates to a multi-porous soil for crops prepared by carbonizing a water purification plant sludge as a starting material and used for horticulture or tap crop seedlings, and a method of manufacturing the same.

     Generally, it is very important to establish physicochemical homogeneity such as exhaust, breathability, ion exchange ability, etc., and the main material for this purpose is ferrite, which is a kind of quenched pearl rock during volcanic activity. Can be mentioned.

     However, ferrite, which is a kind of pearl rock, is hardly discharged from our country and is dependent on imports. In addition, it is very expensive and is currently limited to seedlings of high-grade plants. There are many limitations and difficulties to improve the situation.

     Currently, the disposal of various industrial and household wastes is mostly dependent on landfilling, which is a concern for environmental pollution. The shortage of landfills is expected to be further deepened by local self-interest. Therefore, if the water treatment plant sludge containing a lot of available components such as clay, trace elements, nutrient elements, effective silicic acid, organic matter, etc. is usefully resourced, the amount of waste is reduced and the shortage of landfills can be solved. Soil and groundwater contamination due to leachate generated, etc. can be prevented as well as further economic utilization.

In particular, the sludge generated in the water treatment plant is SiO ₂ 61 wt%, Al ₂ O ₃ 19 wt%, K ₂ O 2 wt%, Na ₂ O 0.4 wt%, particle size distribution is about 4.28 ㎛, It is known to correspond to the secondary clay component containing organic matter. In addition, the settling constituents appear to be almost identical, with only differences in particle size.

     It is well known that clay minerals are characterized by the presence of a water layer, which is characterized by the formation of pores as the crystal water is released during the heat treatment process. high.

     However, while ferrite expands more than 20 times around 870 ° C, clay minerals such as water purification plant sludge are relatively weak in swelling, and conditions such as ion exchange capacity are known to be somewhat lower than ferrite.

     In recent years, researches are being actively conducted to utilize sludge for water purification plants. In particular, research on the utilization of sludge by-products, and research on artificial soils to add and mix diatomaceous earth, zeolite and ferrite, etc.

     It is an object of the present invention to provide a soil for crops and a method for producing the same, which can be used for horticulture or tap crop plug seedling by carbonizing water purification plant sludge.

     Another object of the present invention is to mix the organic material, such as rice bran, rice husk or sawdust, etc. in the sludge to shape the green body initial particles, and to form a porous by the carbonization process such as organic matter in the heat treatment process, It is to provide a crop soil and a method for producing the same so that at least 10% of the carbon remaining.

     Another object of the present invention is to develop a porous porous soil that can replace ferrite by using a water treatment plant sludge, which can ultimately reduce the sludge treatment cost mentioned above and efficiently recycle valuable resources. It is to provide a soil and a manufacturing method for crops.

     The above and other objects of the present invention will be more clearly understood by the following detailed description based on the accompanying drawings.

     Figures 1 to 4 show a specific embodiment of the present invention, Figure 1 is a schematic diagram showing a manufacturing process, Figures 2 to 4 is an enlarged view of the sludge to be molded during the manufacturing process.

     As illustrated in FIG. 1, the process of forming and forming the porous porous soil 10 according to the present invention includes a primary heat treatment (calcination) process (1) → adding an organic compound, mixing process (2), and extrusion molding process (3). → the second heat treatment step (4).

     The first heat treatment (calcination) process is a process to reduce the weight by removing the moisture and organic matter remaining in the sludge. The water content of the sludge collected from the water purification plant is more than about 70% and the average distribution of particles is maintained at about 4.28 ㎛. Secondary particles composed of the particle flocculant contained in the water purification plant sludge play an important role in naturally forming the pores by performing the first heat treatment (calcination) process (1), and therefore, perform separate grinding or dehydration processes. If the first heat treatment step (1) is performed at 550 to 750 ° C., preferably 600 to 700 ° C., the moisture contained is evaporated and the remaining organic matter is incinerated to reduce the weight by 70% or more.

     FIG. 2 shows a primary heat treatment sludge 11 in which water purification sludge is heat-treated (calcined) by a first heat treatment process (1) to remove moisture and residual organic matter, thereby reducing the amount of sludge continuously without filtration and dehydration. In order to simplify the process by calcining in a conventional rotary kiln capable of sludge treatment, it is possible to use waste heat more efficiently if waste heat is used to evaporate the moisture adsorbed on the sludge itself. Preferably, when the drying using waste heat as described above, it is possible to improve the drying efficiency and effect than the state such as natural left to dry.

     The organic material addition mixing step (2) is a step of adding and mixing the organic material to the primary heat treatment sludge having reduced weight by performing the first heat treatment step (1).

     The first heat treatment sludge 11 obtained by performing the first heat treatment step (1) is mixed with chaff or organic matter in a ratio of 1: 0.5 to 2, preferably 1: 0.7 to 1.5, and the organic material is added to the sludge. When the mixture is added and mixed using a mixer such as a conventional zero gravity mixer, it is possible to obtain an effect of dispersing organic matter between the pulverized aggregate and the sludge. This contributes to the formation of porosity by the oxidation of organic matter dispersed between the sludge and the porosity by the oxidizing gas of the organic matter in the second heat treatment step (4) in the future.

     As mentioned above, the primary heat-treated sludge which the organic substance was added-mixed by the organic substance addition-mixing process (2) performs a compression molding process (3). This is a process for imparting a topsoil shape to the primary heat treatment sludge mixed with the organic material, and the organic matters contained in the molding are subjected to the multi-pore by the carbonization gas of the organic material in the carbonization process when the secondary heat treatment step (4) is performed. It is contributed to the formation of, the extrusion hole formed in the compression die of the extruder to the diameter of 3 to 7 mm extruded at a pressure of 50 ~ 100 kg / ㎠ to form a sludge molded body, thus installed in the extruder Depending on the diameter of the extrusion hole of the extrusion die can be molded while varying the size (thickness) of the sludge molded body, the sludge molded body is formed to a predetermined thickness cut to a length of 40 ~ 60 mm to form a round shape Devices such as rotary kilns or stirrers may be used for round molding or for free fall rounding.

     Secondary heat treatment step 4 is performed to heat-treat the molded body of primary heat treatment sludge 11 obtained by the extrusion molding step 3 again. In the secondary heat treatment step (4), the molded article obtained through the extrusion molding process (3) is subjected to secondary heat treatment in a conventional rotary kiln maintained at 550 to 750 ° C, preferably 600 to 700 ° C, and subjected to the second heat treatment. When the carbonization process is carried out by the carbonization gas of the organic material is formed porous, it is possible to obtain a porous porous soil having a residual carbon of 10% or more, that is, the porous porous soil 10 as the final target.

     3 is an enlarged view of the organic material such as rice bran or sawdust added to the first heat-treated sludge and mixed in a zero gravity mixer. At this time, the sludge agglomerate generated during the first heat treatment was not considered, because the agglomerated mass naturally dispersed (crushed) during the gravity-free mixing process.

     The invention will be understood more clearly by the following examples, it is to be clear that the claims of the present invention is not limited or reduced by the following examples.

<Example>

     A water purification plant with a water content of 70% or more and an average distribution of particles of about 4.28 μm was filled in a rotary kiln, followed by primary heat treatment by applying heat at 650 ° C.

     As organic matter, the first heat-treated sludge was filled with a sawdust in a weightless mixer at a ratio of 1: 1, and then mixed by stirring.

     The primary heat treatment sludge mixed with organic sawdust was added and extruded while maintaining the diameter (thickness) of 5 mm and the pressure of 70 kg / cm 2. A sludge molded body was obtained.

     The sludge molded body extruded at a predetermined thickness (5 mm) and pressure (70 kg / cm 2) was cut into a size of 50 mm, refilled in a rotary kiln, and subjected to secondary heat treatment by applying heat at 650 ° C.

     The secondary heat treated sludge molded body was taken out and then cooled to obtain a final porous material (10).

     The porous porous soil 10 obtained as described above has physical and chemical homogeneity characteristics, such as similar exhaust properties, air permeability, and ion exchange ability, similar to ferrite, which is a kind of pearlite.

     As described above, the present invention not only has the value of resource recycling through the relatively simple process, but also prevents secondary pollution such as landfill cost and ocean dumping. In addition, mitigation of sludge disposal costs will ultimately reduce the country's cost of losses.

     In addition, carbonized topsoil is suitable for quality control of horticulture seedlings including affinity organic materials such as carbon with porous structure, and the unit price is much cheaper than existing ferrite tops. In addition to being able to control agricultural and agricultural quality, price competitiveness will ultimately contribute to the agricultural industry.

     1 is a process chart showing the manufacturing process of the top soil for crops using water treatment plant sludge according to the present invention.

     Figure 2 is an enlarged photograph of the primary heat treatment sludge obtained by the first heat treatment (calcination) of water purification plant sludge having a water content of 80% at 600 ~ 700 ℃.

     Figure 3 is a microstructure photograph showing an enlarged carbonized sludge after the second heat treatment to increase the adsorption of water after the addition of organic matter such as rice hull to the primary calcined sludge.

     Figure 4 is a photograph showing an enlarged, extracted top soil for crops produced by the process of the present invention.

           Explanation of symbols on the main parts of the drawings

     1. First heat treatment process 2. Organic substance addition and mixing process

     3. Extrusion process 4. Secondary heat treatment process

    10. Porous topsoil 11. Primary heat treatment sludge

    12. Secondary heat treatment sludge

Claims (6)

     The first heat treatment by heating the heat of 550 ~ 750 ℃ to a predetermined amount of water treatment sludge, the organic material is mixed in the ratio of 1: 0.5 ~ 2 to the first heat treatment sludge, the first heat treatment sludge mixed with the organic material is extruded The diameter of the 3 ~ 7 mm and extruded to a pressure of 50 ~ 100 kg / ㎠ to form a sludge molded body, and the second heat treatment after the second heat treatment by adding a heat of 550 ~ 750 ℃ to the extruded primary heat treatment sludge Crop tops using water purification plant sludge, characterized in that.      The method according to claim 1,      Secondary heat-treated sludge is a crop soil using a water treatment plant sludge, characterized in that the carbon residue 10% or more.      A first heat treatment (calcination) step (1) of applying heat to the water purification plant sludge to evaporate moisture and carbonizing the remaining organic material to reduce the weight; An organic substance addition mixing step (2) of adding and mixing the organic substance to the primary heat treatment plant sludge to crush the aggregates; An extrusion molding process (3) for extruding the sludge in which the organic material is added and mixed to an extruder having a diameter of 3 to 7 mm and maintained at a pressure of 50 to 100 kg / cm 2 to form a sludge molded body; A method for producing crop tops using water purification sludge, characterized in that it comprises a second heat treatment step (4) in which heat is applied to the extruded water purification sludge so that the organic material is formed by the carbonization gas.      The method according to claim 3,      The primary heat treatment process (1) and the secondary heat treatment process is a method for producing a top soil for crops using a water treatment plant sludge, characterized in that carried out in the range of 550 ~ 750 ℃.      The method according to claim 3,      The organic substance added in the organic substance addition-mixing process (2), The manufacturing method of the topsoil for crops using the water purification plant sludge characterized by including at least one or more of rice bran, rice husk, sawdust.      The method according to claim 3,      A method for producing crop topsoil using a water treatment plant sludge, characterized in that the sludge and organic matter are mixed in a ratio of 1: 0.5 to 2 in the organic matter addition mixing step (2).