KR20010035406A - A method for producing compost containing magnesium and calcium by using slaked dolomite and organic waste materials - Google Patents

Abstract

PURPOSE: A method for manufacturing magnesium and calcium containing fertilizer using hard dolomite and organic wastes is provided which does not need any separate process for pulverizing the organic wastes as using the hard dolomite having a diameter of 30-50 millimeters and shortens its reaction times to 1-2 hours. CONSTITUTION: The method comprises steps of: (i) pouring organic wastes such as agriculture and fisheries wastes, food garbage, stockbreeding wastes, butchering wastes, human waste and sludge accumulated in filtration plants and sewage disposal plants and hard dolomite in a weight ratio of 3:1-2:1 in a mixer having a stirring unit and an outlet; and (ii) reacting the organic wastes and hard dolomite with stirring using the stirring unit for about 1-2 hours.

Description

A method for producing magnesium and calcium-containing fertilizers using light small dolomite and organic waste {A METHOD FOR PRODUCING COMPOST CONTAINING MAGNESIUM AND CALCIUM BY USING SLAKED DOLOMITE AND ORGANIC WASTE MATERIALS}

The present invention relates to a method for producing magnesium and calcium-containing fertilizers using organic waste and light dolomite, and more particularly, organic waste such as agricultural and marine waste, food waste, animal husbandry waste, slaughter waste, manure, and sewage sludge deposition sludge. And a small amount of dolomite in a mixer comprising a stirring device and an outlet in a weight ratio of 3: 1 to 2: 1; And reacting the injected organic waste with light dolomite for about 1 to 2 hours while stirring using a stirring device.

Conventional Korean Patent Registration No. 0156010 relates to a method for producing a calcium-rich fertilizer using waste organic matter, finely processed oily waste such as food waste, phosphorus manure, livestock manure, slaughter waste, fish and shellfish waste, After adjusting the content to 50%, put it in the treatment tank which becomes the steam discharge facility, add quicklime, which is about 30-50% of the total amount of the treated product, and react it for at least 24 hours, and leave the treated product for 2-3 days. There was disclosed a method for preparing calcium fertilizer using waste organic materials prepared by stabilizing and then withdrawing and pulverizing with a grinder.

However, in the prior art as described above, the step of processing the oil quality finely and the reaction step are separate, resulting in a high facility cost and equipment cost, and the pretreatment time of the oil quality requires at least 24 hours or more, and a long treatment for treating organic waste. Time is required, and quicklime is mainly contained in the calcium component, so if there is a need for other nutrients, there is a problem in that it should be mixed with other plant fertilizers, and there is a problem in that the cost of quicklime is rather high.

In order to solve the problems of the prior art as described above, by using a small size of the dolomite of a constant size, the step of pulverizing the organic waste and the reaction step at the same time, and also the reaction temperature is maintained high can shorten the treatment time It is an object of the present invention to provide a method for producing magnesium and calcium-containing fertilizers using light dolomite and organic wastes, which are excellent in the price of raw materials as well as fertilizers contained in the final product.

1 is a view schematically showing the configuration of a mixer used in one embodiment of the present invention.

* Explanation of symbols in the drawings

M: Mixer

1: Inlet 2: Geared motor

3: shaft 4: blade (stirring blade)

5: air vent 6: blower

7: temperature sensor 8: safety valve

9: dustproof retainer 10: bearing

12: Hydraulic switch 13: sight glass

14: Conveyor 16: Outlet

The method for producing magnesium and calcium fertilizers using organic waste and light dolomite of the present invention comprises organic waste and light dolomite such as sludge waste, food waste, livestock waste, slaughter waste, manure and sewage sludge sediment sludge. Input to a mixer comprising a stirring device and an outlet in the range of ˜2: 1; It characterized in that it comprises the step of reacting the injected organic waste and light dolomite for about 1 to 2 hours while stirring using a stirring device.

In the step of adding to the mixer, the organic waste refers to waste containing a large amount of organic matter, such as agricultural and fishery waste, food waste, animal husbandry waste, slaughter waste, phosphorus manure and sewage and sewage deposit sludge. The agricultural and fishery waste may include fruit, fish and shellfish waste. The food waste may include waste of rice, noodles, and bread discarded in a restaurant. The livestock waste may include livestock manure. The slaughtered waste may include treatments generated during slaughtering and processing in the slaughterhouse. In addition, the sewage sludge sewage sludge is a sewage sludge produced in a water purification plant or a sewage plant, and contains less heavy metals harmful to animals and plants, and contains a large amount of various organic substances and minerals. This may include sludge generated in eutrophiced sewage, microbial sludge generated in a well and sewage plant using microorganisms, sludge generated in a purified water and sewage plant using activated carbon, and the like. These sludges contain many nutrients and thus are not only good fertilizers, but they are also relatively bulky because they contain 80 to 90% of water when they are landfilled and are in suspension because they are fine particles. There was a problem that it is impossible to embed other materials.

In the step of introducing into the mixer, the minor dolomite means that the dolomite which is a carbonate mineral is slaked. The composition contains about 32 to 35% by weight of magnesium oxide (MgO) and about 50 to 55% by weight of calcium oxide (CaO). It is preferable that the said small dolomite used for this invention sorts out and uses the lump about 30-50 mm in diameter. In the case of using fine powder small size dolomite with a diameter of 30 mm or less, the reaction takes place in a short time due to excessive specific surface area, so that complete hydrolysis of organic waste does not occur, and when the small size small size dolomite having a diameter of 50 mm or more is used, Small reactions not only occur for a long time but also cause a strong collision with the mixer wall in the mixer, which may cause damage to the mixer. The hardened dolomite in the lumped state acts to pulverize the organic waste while being differentiated during the reaction by stirring described below. Therefore, no separate organic waste decomposition process is necessary.

In the step of adding to the mixer, the amount of the organic waste and light dolomite introduced into the mixer is preferably in the range of 3: 1 to 2: 1 by weight. If the amount of organic waste added is less than 2: 1 by weight, that is, when the input ratio of light dolomite is higher, the economical efficiency of the treatment may be lowered. It is difficult to maintain the temperature required for hydrolysis and the reaction time is long, resulting in reduced productivity. In addition, the moisture content of the manufactured product is increased, which causes a deterioration in physical properties.

In the step of introducing into the mixer, the mixer may be any one including a stirring device and a discharge port. For example, the mixer shown in FIG. 1 may be included. As shown in FIG. 1, the mixer M is rotated around the bearing 10 by receiving the power of the geared motor 2 at the center of the body, and is dust-proof wrapped around the bearing 10. The retainer 9 is equipped with a shaft 3 that absorbs rotational vibration, and an upper part of the body includes a blower 6, an air compressor, an exhaust port 5, an air discharge line, and an inlet 1, a raw material supply pipe, respectively. And, the outlet 16 is opened and closed through the door that rotates to the center point at one point in the operation of the hydraulic switch 12 in the lower body.

Of course, the shaft 3 is equipped with a plurality of blades 4 which stir the raw materials introduced through the inlet 1 along the circumferential surface thereof in the state accommodated in the internal space of the mixer M.

In addition, the body of the mixer (M) is equipped with a safety valve (8) that opens and closes according to the internal pressure and a temperature sensor (7) for sensing the internal temperature and a sight window (13) for observing the inside of the mixer, respectively. On the lower side of the outlet 16 is mounted a conveyor 14 which carries the product produced in the stirring process of the shaft 3 to another place.

The mixer allows the organic waste and the light dolomite to be mixed to form a cake, and at the same time, it functions to treat water vapor generated in the reaction and high-temperature, high-pressure gas generated after the reaction is completed. The mixer and its attachment are preferably made of acid and alkali resistant materials and capable of withstanding temperature and pressure changes.

In the step of reacting the fertilizer manufacturing method of the present invention, the injected organic waste and light dolomite is reacted for about 1 to 2 hours while stirring using a stirring device to make a cake state.

In the step of reacting, the agitation induces proper mixing of the organic waste and light dolomite, while at the same time inducing the reaction heat to be uniformly distributed in the mixer, and stirring so that a proper physical grinding action between the light dolomite and the organic waste can occur. Adjust the speed.

In the step of reacting, the reaction time is preferably in the range of about 1 to 2 hours. When the reaction time is less than 1 hour, the water content is high and the hydrolysis of the organic waste may not proceed sufficiently. When the reaction time exceeds 2 hours, the organic waste is sufficiently hydrolyzed, and thus there is no benefit of the progress of the reaction.

Withdrawal of the product is discharged when the temperature is lowered below 60 ℃ in consideration of the safety of the operator, and the water content is less than 30% by weight.

The fertilizer containing magnesium and calcium discharged at this time may be dried or used by various artificial drying or natural drying methods in consideration of the crop, soil environment, application time, etc. to be applied.

Hereinafter, the present invention will be described in more detail with reference to Examples. This embodiment is for illustrative purposes only, and the present invention is not limited thereto.

Example

Example 1

This example is intended to find the effect of the method of the present invention using the mixer of FIG. 1 and using food waste and light dolomite.

Food waste and the average particle size 40mmdls light dolomite was added through the inlet (1) with a weight ratio of about 3: 1. After the operation, the geared motor 1 was operated, and the shaft 3 equipped with the stirring blade was rotated to carry out the reaction while stirring for 1 to 2 hours. The temperature during the reaction was confirmed through a temperature sensor (7), the reaction state was confirmed through a see-through window (13). Moisture loss steam during the reaction is passed through the exhaust port (5), and after completion of the reaction, the high-temperature high-pressure gas in the reactor through the exhaust port (5) to the air introduced from the blower (6) (not shown) ). After the reaction was completed, the product was dropped through the outlet 16 and then passed through the conveyor 14 to prepare a fertilizer in a cake state. The fertilizer in the cake state can be used as a fertilizer through an additional artificial drying process or natural drying.

In this example, the food waste and light dolomite were maintained at a temperature of about 150 to 170 ° C., accompanied by a high temperature exothermic reaction. In addition, the reaction proceeded in the strong alkaline state under the influence of two constituents of light dolomite, and physical collision phenomenon occurred as the hardened light dolomite with an average particle diameter of 40 mm was differentiated during stirring.

Glucosides, peptides, ester bonds, etc. in natural polymers were decomposed by high temperature and strong alkaline conditions of about 150-170 ° C., resulting in food waste being in a low-molecular state that can be absorbed by crops.

As a result of this, the food waste is produced by the hydrolysis reaction accompanied by the exothermic reaction to reduce the water, and to produce a fertilizer useful for crops by physical grinding action by hydrolysis in the strong alkali state and the differentiation of light dolomite. Could.

Example 2

In this example, the reaction was carried out in the same manner as in Example 1 except that the amount of food waste and light dolomite added was different.

The results according to this example are shown in Table 1.

Table 1. Input ratio of food waste and result of item

Input ratio (food waste: light bovine dolomite) 1: 1 2: 1 3: 1 4: 1 5: 1 Reaction temperature (℃) 180-230 160-180 150-170 110-130 80-110 Reaction time (minutes) 40 60 80 120 240 Pure content after the reaction (% by weight) 20 or less 20-25 22-30 35-50 50 or more

As can be seen from Table 1, the amount of organic waste and light dolomite introduced into the mixer was preferably in the range of 3: 1 to 2: 1 by weight. When the amount of the organic wastes introduced is less than 2: 1 by weight, that is, when the input ratio of light dolomite is higher, the economical efficiency of the treatment decreases, and when the weight ratio exceeds 3: 1, the hydrolysis of organic wastes is exceeded. It was difficult to maintain the required temperature and the reaction time was long, resulting in a decrease in yield. In addition, the moisture content of the manufactured product was increased, which caused a deterioration in physical properties.

What is described in Examples 1 and 2 relates to a method for producing a fertilizer of the present invention by mixing food waste with light bovine dolomite, but very similar in other agricultural and fishery waste, animal husbandry waste, slaughter waste, phosphorus urine, and sewage and sewage sludge Since the result is obtained, the description is omitted here.

According to the present invention, by using 30-50 mm of light dolomite, the organic waste can be simultaneously pulverized during the stirring reaction without a separate grinding step.

Moreover, according to this invention, by using small dolomite which makes temperature rise at the time of reaction to a relatively high temperature, reaction time can be shortened to 1 to 2 hours which takes at least 24 hours previously.

In addition, according to the present invention, since small dolomite is used as compared with the conventional technology, it contains not only calcium but also magnesium, so that it is possible to more faithfully carry out the soil improvement effect and a large amount of essential elements of the crop.

Claims (2)

Organic wastes such as agricultural and marine waste, food waste, livestock waste, slaughter waste, manure and sludge sewage sludge and light dolomite are added to a mixer comprising a stirring device and an outlet in a weight ratio of 3: 1 to 2: 1. Doing; A method for producing magnesium and calcium-containing fertilizer using the organic waste and light dolomite, comprising the step of reacting the injected organic waste and light dolomite for about 1 to 2 hours while stirring using a stirring device. The method for producing magnesium and calcium-containing fertilizer using organic waste and light dolomite according to claim 1, wherein the light dolomite has a diameter of 30 to 50 mm.