KR101320952B1 - Method for modifying the soil of desert - Google Patents

Abstract

The present invention relates to a method for improving desert soil, and more particularly, to a novel method for creating an environment in which plants can inhabit by improving desert soil.
Desert soil improvement method according to an aspect of the present invention comprises the steps of forming a base soil consisting of fine slag having a particle size of less than 150 mesh; And forming a fertilizer layer on the underlying soil.
According to the method of the present invention, since the slag that has been previously discarded is used for desert soil improvement, it is not only inexpensive but also has a high probability of success because the prevention of desertification or soil improvement does not depend solely on the survival of the plant. .

Description

How to Improve Desert Soil {METHOD FOR MODIFYING THE SOIL OF DESERT}

The present invention relates to a method for improving desert soil, and more particularly, to a novel method for creating an environment in which plants can inhabit by improving desert soil.

Much of the world is occupied by deserts. The desert means a place where vegetation rarely lives due to a dry climate, and a representative example is a place such as the Middle East, China, Mongolia, and Africa. In addition, due to the indiscriminate development of humans and climate change, the area of about 6 million ha is deserted every year in addition to the existing desert.

Desertification refers to a phenomenon in which land becomes a desert environment due to a combination of natural factors such as drought, drying, and artificial factors such as irrigation, deforestation, and environmental pollution. Forests disappear, increasing surface reflectivity, cooling down, reducing rainfall, leading to faster desertification.

In particular, the main factor for desertification is that the quantity of water entering the soil is less than the quantity of water flowing out of the soil. Increasing the proportion of deserts means a decrease in the environment in which not only humans but also living things can live, and therefore, efforts to stop the progress of desertification, or further, to convert existing deserts into fertile soil, are needed. .

To date, human-developed methods of preventing desertification include the use of artificial planting to improve the soil. This is to secure the soil moisture by using the water storage capacity of the tree and to improve the soil by using it, which is actively being performed in western China.

However, because the desert itself is an extreme environment in which trees are difficult to live in, even if planting trees, the survival rate is very low, so it is difficult to achieve the effect of preventing desertification, and a huge number of trees are planted each year, but desertification is still in progress. .

Also, as a method for preventing desertification, a method of dragging insufficient water in the desert can be used. This is a practice that is actually being done in some countries, with some effect. However, the use of this method actually requires a significant amount of water source to be drawn from a distance, which is expensive. In the case of the desert close to the sea may use seawater, but since the seawater can not be used directly, it is necessary to desalination facilities.

According to one aspect of the present invention, a desert soil improvement method may be provided that effectively prevents desertification at low cost or improves soil in an already deserted area into soil where plants can grow.

The object of the present invention is not limited to the above description. The problem of the present invention will be fully understood from the contents described throughout the specification.

Desert soil improvement method according to an aspect of the present invention comprises the steps of forming a base soil consisting of fine slag having a particle size of less than 150 mesh (mesh); And forming a fertilizer layer on the underlying soil.

At this time, the fine slag is preferably steelmaking slag.

In addition, the fertilizer layer, it is advantageous to include the organic fertilizer obtained by mixing the food waste and slag in the weight ratio of 1: 3 to 3: 1.

The organic fertilizer is preferably a mixture of 100 to 500 parts by weight of slag per 100 parts by weight of food waste.

In addition, it is effective to further comprise the step of mixing the fertilizer layer.

As described above, according to the method of the present invention, since the previously discarded slag is used for desert soil improvement, the cost is not only low, but also high success because the prevention of desertification or soil improvement does not depend solely on the survival of the plant. Can have a probability.

The invention is briefly described below.

The inventors of the present invention have studied in depth the cause of the desertification phenomenon, when the desert soil is reformed into a soil that can contain water for a long time, the amount of incoming water may be increased compared to the amount lost, thereby The present invention has been found to have the effect of preventing desertification or reforming of desert soil.

To this end, the present invention uses the fine slag for soil reforming to form a base soil. That is, according to the results of the inventors of the present invention, the fine slag has a high water absorption ability to prevent the loss of moisture, and can promote the basicization of the soil due to the components contained in the slag, It can promote growth.

For this purpose, the slag is preferably formed to a thickness of 20cm or more. If the amount of slag is too small, it is difficult to expect the effect of soil modification, it is preferable to add in the above thickness range. However, even if a lot of slag is formed, there is no particular disadvantage in terms of technology, so it is not necessary to put an upper limit on the slag thickness in particular in view of this point. However, if the amount of slag is too large, it can be a factor of cost increase, in view of this point, it is preferable to set the slag to a thickness of less than 1000cm. The base soil may be formed on the desert soil as it is, or may be partially removed from the desert soil. However, when some of the desert soil is removed, it may have an advantage that the desert soil may be used to form a fertilizer layer to be described later.

At this time, it is preferable that the slag used is steel slag, Especially, it is more advantageous that basicity is 2.5 or more. Steel slag contains less heavy metals and thus can be advantageously used because it does not adversely affect plant growth. Here, basicity refers to the weight ratio (CaO / SiO2) of CaO and SiO2 in the slag, and the higher the basicity, the higher the CaO activity, and as a result, the basicity of the soil may be promoted. Although the upper limit of basicity is not specifically determined, Usually, the basicity of steel slag is normally determined in 10 or less range. As the slag that satisfies the above conditions, it is advantageous to use the secondary refining slag of the steelmaking process, and among them, LF slag that has undergone the LF (Ladle Furnace) process is used. It is more preferable to do.

Since LF slag has a basicity not only in the above-mentioned range but also completely dissolved by the arc heat of LF, the components are uniform, which is advantageous because the variation in soil composition is not large. However, the present invention is not limited to the above-described LF slag, and may be used without being excluded as long as the favorable conditions of the present invention, such as blast furnace slag, converter slag, and electric furnace slag.

The slag mentioned above is advantageously ground into fine powder. In the present invention, the fine powder means that the original equivalent diameter is 150 mesh or less. If the particle size is too large, the surface area decreases, so that the soil absorption capacity is insufficient, and the soil reforming effect is also insufficient. More preferable particle size range is 1 mm or less. The slag of the particle size mentioned above can be obtained by a particle size classification method after being ground. In addition, of course, the above-mentioned slag pulverization can be used not only for mechanical pulverization but also for atomizing (pulverizing molten slag to a fine particle size using a blower air stream).

One preferred use of slag includes, but is not limited to, mixing mechanically ground slag and atomized slag in a ratio of 3: 7 to 7: 3. In addition, the ground may be formed not only at the bottom of the partition to improve the desert soil but also at the side walls. In this case, a space is formed to be accommodated by the bottom and the side wall made of the base soil, and the improved soil is formed therein, so that the inflow of the salinity which may be present in the bottom of the desert and the water supply water are lost. You can block more clearly.

After forming the base soil as described above, it is preferable to form a fertilizer layer on the soil. The fertilizer layer is intended to replenish nutrients in desert soil that lacks nutrients. If the base soil is formed to the side wall, the fertilizer layer may be formed inside the base soil. In other words, this is because the fertilizer layer is formed on the bottom soil. In the present invention, when referred to as "soil on" it should be noted that it includes even this form.

The fertilizer contained in the fertilizer layer may be any conventional alkaline organic fertilizer, but according to another preferred aspect of the present invention, it is preferable to use a fertilizer using a mixture of household food waste with slag. In other words, the normal household food waste contains a large amount of salt (for example, 2% or more). The household food waste containing a large amount of such salts contains many nutrients. This has the problem that it cannot grow.

However, according to the results of the present inventors, when the slag is added to the food waste, CaO included in the slag reacts with the salt in the food waste, and thus the Cl group included in the salt may be fixed by Ca. Not only can plants grow, but nutrients act as fertilizers to promote plant growth. Such, fertilizer can be obtained through the method described in the Republic of Korea Patent No. 0450718 and the Patent Publication No. 2009-0058708, etc. invented by the inventors, the details can be included in the specification of the present invention.

At this time, the slag used for fertilizing food waste, as included in the specification of the above-described invention, steelmaking slag having a basic degree of 2.5 or more is more preferable, and among them, secondary refining slag (also called ladle slag, and also includes the LF slag described above) Concept) and an electric furnace slag are more preferable. The slag is preferably included in a proportion of 100 to 500 parts by weight relative to 100 parts by weight of food waste (meaning that the water also includes the moisture when the food waste is included in the usual range). A sufficient amount of slag should be included to reduce the damage caused by the salt present in the food waste. On the contrary, when the amount of slag is too large, the supply of nutrients necessary for the growth of plants is insufficient, so that the function as a fertilizer is difficult, so it is limited to the above-mentioned range.

In addition, as described in Korean Patent Laid-Open Publication No. 2009-0058708, the fertilizer described above may further include a small amount of chicken manure (chicken feces).

In addition, the contents not described in detail in the present invention may be based on the contents described in the registered Patent No. 0450718 and the Patent Publication No. 2009-0058708, the part of the two inventions conflicting with each other described in the registered Patent No. 0450718 Content can be applied first.

The above-mentioned fertilizers may themselves be formed on the underlying soil, but also according to one preferred aspect, it is preferably formed on the later soil with desert soil or sand. That is, since it is advantageous to plant growth mixed in the soil rather than exist in the fertilizer itself, it is more preferable to modify the soil by mixing with the desert soil in advance. In this case, the weight ratio of desert soil or sand and fertilizer is preferably 1: 3 to 3: 1. In order to secure a sufficient amount of modified soil, it is preferable to include a certain amount of desert soil or sand, and to obtain a sufficient soil modification effect, it is preferable that a certain amount of fertilizer is included. The fertilizer alone or mixed with desert soil (or sand) is sprayed onto the underlying soil to form a layer, which in the present invention will be referred to as a fertilizer layer. The fertilizer and the desert soil or sand may be mixed in advance to form a fertilizer layer, or may be added individually within the range to meet the weight ratio.

The fertilizer layer is preferably formed at a rate of 200 kg or more per 1 m ² . The fertilizer also has no particular problem even if the amount is increased, but considering the cost, the upper limit can be set to ³ ton per square meter or less.

According to one preferred aspect of the present invention it is preferable to supply water to the soil after forming the base soil as described above. If it is a time point after the base soil formation, it does not specifically cover before or after the formation of the fertilizer layer. The water supply is not only possible by an artificial method, but also by a natural phenomenon such as rainfall or snowfall.

By the above water supply, the underlying soil can be prevented from losing water as a more solid soil layer.

According to another preferred aspect of the present invention, after forming the fertilizer layer on the base soil and the base soil by the above process, the process of mixing the fertilizer layer with each other may be followed. By the said mixing, the composition of a fertilizer layer can be controlled more uniformly. As the mixing method, any conventional soil mixing method can be used. For example, the soil may be mixed using plows, tillers, tractors, etc., but not necessarily limited thereto.

Claims (5)

Forming a base soil composed of fine slag having a particle size of 150 mesh or less; And
Desert soil improvement method comprising the step of forming a fertilizer layer on the base soil.
The method of claim 1, wherein the fine slag is steelmaking slag.
The method of claim 1, wherein the fertilizer layer,
1. A method of improving desert soil comprising organic fertilizer obtained by mixing food waste and slag with desert soil or sand in a weight ratio of 1: 3 to 3: 1.
The method of claim 3, wherein the organic fertilizer is a mixture of 100 to 500 parts by weight of slag per 100 parts by weight of food waste.
The method of claim 1, further comprising mixing the fertilizer layer.