KR102054860B1 - Modification method of reclaimed land using Kenaf - Google Patents

Abstract

The method of improving the soil quality of the reclaimed land by injecting kenaf in the reclaimed land according to the present invention does not need a separate production cost by directly injecting kenaf grown in the reclaimed land into the corresponding area, and solves the logistics cost by directly solving it on site. There is a very good effect of sustainable soil remediation method because it can save and no additional boiling point pollution occurs unlike other manure compost.

Description

Modification method of reclaimed land using Kenaf

The present invention relates to a method for improving reclaimed land, and more particularly, to a method of cultivating subtropical herbaceous plant kenaf in reclaimed land and using it for the reclaimed land.

According to the '2017 Intellectual Statistics Yearbook' published by the Ministry of Land, Infrastructure and Transport, Korea's land has increased by 15 times the area of Yeouido in one year. The main reason is the newly registered reclaimed land to secure industrial land. As such, the ratio that can be used as agricultural land is not high in preparation for the annual increase of the area. Reclaimed land is very acidic and has a low pH, which prevents microorganisms from growing and has unfavorable physical properties for crop cultivation.

Gypsum (CaSO ₄ ) and livestock manure are commonly used to improve reclaimed soil. Ca in gypsum is effective to improve Na and soil properties by separating Na from the soil, and livestock meal compost not only supplies nutrients but also makes suitable conditions for the growth of microorganisms.

Patent document 1 is related with the salt improvement agent which mixed organic, inorganic, etc. with waste gypsum and paper sludge, and a top soil manufacturing method. Dihydrate gypsum (CaSO ₄ , 2H ₂ O) was prepared by heating the material discharged by lime and neutralization of sulfuric acid, a pollutant generated from factories scattered throughout the country, within 100 to 150 ° C. As organic materials, organic compost was mixed and used.

Patent document 2 relates to granular soil improvement agent for reclaimed soil using gypsum and organic sludge, and it is a waste gypsum (Gypsum, CaSO ₄ , 2H ₂ O) that is generated as a large amount of by-product during the production of phosphate (P ₂ O ₅ ) fertilizer. Other wastes, paper pulp mill sludge and coal-fired power plant incinerator fly-ash, are granulated and dried by granulation of food plant sludge such as seasoning plant fermentation waste (Amino acid) as an adhesive.

Patent document 3 is a granular soil improving agent manufacturing method using slag and gypsum, the raw material crushing step of crushing the slag and gypsum to the appropriate size; Between slag storage, between gypsum storage, between auxiliary and undersized, storage tanks, respectively, containing and crushing slag powder and crushed gypsum powder, auxiliary additives as raw material additives, and granulating agent as fermentation by-products. A preparation step; Transferring the coarse agent in the storage tank to the control tank and mixing water, sulfuric acid, hydrochloric acid, nitric acid, phosphoric acid, ammonia, etc. to adjust moisture, viscosity, pH, etc. of the coarse agent; Putting the stored slag powder 5 to 95% and the gypsum powder 5 to 95% into a mixer, followed by mixing with spraying water and a diluted granule; Putting the raw materials mixed in the mixer into a granulator, and adding auxiliary agents such as zeolite, bentonite, magnesite, borax and the like, and spraying the diluted granules to form spherical particles into the raw powder; Putting the soil improving agent granulated in the granulator into a drier and drying it within 10% of a water content at a temperature of 100 to 350 ° C .; The dried soil modifier is added to a sorter to sort only particles having a size of 1 to 5 mm, and particles of less than 1 mm are supplied between undersizes, and over sizes of more than 5 mm are crushed in a crusher. Transported between the undersizes and re-inserted into the granulator; Transferring the sorted particles of 1 to 5 mm to a cooler and cooling them to a temperature of 50 ° C. or less; It relates to a granular soil improver manufacturing method using slag and gypsum consisting of the step of packing the cooled soil modifier through a sorter and sorting by unit size to the particle size required by the buyer.

Patent Document 4 relates to a planting method using a soil conditioner Chloride resin composition and the soil conditioner composition using one light, one light for powder from 20 to 50% by weight, and yisuseok (CaSO ₄ .2H ₂ O) 20 to 50 parts by weight It relates to a salt improver composition for salt removal using an illite containing%, vermiculite 5 to 20% by weight, Xantan gum (XANTAN GUM) 1 to 10% by weight.

Patent document 5 relates to a functional fertilizer using a sludge produced by the organic waste is a quick lime hydration reaction and a method for producing the same, organic waste and food waste consisting of food waste, food by-products, pig meal, boiled powder, fallen leaves, golf course grass, sewage sludge, etc. The present invention relates to a method for producing a functional fertilizer from sludge produced by the quicklime hydration reaction.

Patent documents 1 to 5 are soil modifiers using organic wastes including gypsum or livestock meal, and because gypsum is used to remove salts through chemical action, a very large amount of gypsum is needed to improve wide reclaimed land. There is a problem. On the other hand, organic waste not only supplies nutrients, but also has an effect of creating conditions suitable for the growth of microorganisms, but recently, it has been pointed out as a cause of non-point pollution of the environment including surrounding reclaimed land.

Patent document 6 relates to a soil improver using an ion exchange resin and a method for producing the same, wherein an ion adsorption ion exchange resin and an adsorbent are mixed. However, in order to improve a wide reclaimed land as in the above-mentioned gypsum, there is a problem that a huge amount of expensive ion exchange resin should be used.

Patent document 7 relates to a complex microbial agent for improving the reclaimed soil and a method for promoting plant growth using the same. Rhodobacter sp. Strain that promotes plant growth, Mesorhizobium sp. Strain, which has excellent nitrogen fixation ability, helps the roots of plants to grow. However, the microbial agent has a problem that it is difficult to apply to the initial reclaimed land without salt removal as a method that can promote the growth of plants in a state in which the salinity conditions are somewhat improved.

As mentioned above, the improvement method of the environmentally friendly reclaimed land which does not raise the salinity of the reclaimed land and the physical and chemical properties of the soil and does not cause the nonpoint pollution has not been proposed until now.

Republic of Korea Patent Publication No. 1996-0022938 (published: July 18, 1996) Republic of Korea Patent Publication No. 2001-0002046 (Published: 2001.01.05.) Republic of Korea Patent Publication No. 2006-0012861 (Published: 2006.02.09.) Republic of Korea Patent Publication No. 10-1317889 (Registration date: September 26, 2013) Republic of Korea Patent Publication No. 10-1533430 (Registration Date: 2015.06.26.) Republic of Korea Patent Publication No. 2014-0148030 (Published: 2014.12.31.) Republic of Korea Patent Publication No. 10-0982114 (Registration Date: 2010.09.07)

The present invention is to solve the above problems, and to improve the physical and chemical properties of the salt and soil of reclaimed land, and to provide a method for improving environmentally friendly reclaimed land that is sustainable and does not cause boiling. do.

The present invention for solving the above problems provides a method for improving the soil quality of reclaimed land by injecting kenaf into reclaimed land. Kenaf is preferably cultivated in reclaimed land to be improved. This offers the great advantage that it can be produced and supplied on site, unlike other soil modifiers. In addition, plants grown on-site are directly supplied with organic matter on site, so no additional point pollution occurs.

Kenaf is a subtropical herbaceous herbaceous plant native to Malvaceae, native to Africa and India. Kenaf has already been used to make products such as fiber pulp and biocomposites in foreign countries, and in Korea, it is currently being tested and cultivated due to its economical efficiency as a feed for livestock.

Kenaf has more than 300 species around the world. It is already considered one of the world's top three fiber crops, and is widely regarded as a plant resource for various biomaterials. In Korea, varieties have been studied since the early 2000s through the Rural Development Administration and the Korea Atomic Energy Research Institute. In some areas, such as Jeollabuk-do, Gyeongsangnam-do, and Pohang-si, Korea has also been actively researching varieties.

Kenaf, in particular, has high feed value and rapid growth. Unlike corn, it is a resource that does not damage wild boar or wild animals.

In Korea, Kenaf is sown around early May and harvested around early October. The harvest time of Kenaf is collectively set and harvested around early October can be put into the reclaimed land immediately that year. Alternatively, it is possible to sequentially harvest the kenaf harvested from the end of July by harvesting sequentially.

Kenaf can be cultivated in abundant water such as rice fields and reclaimed land, but it has the advantage of growing in reclaimed land that is difficult to fallow or grow. In addition, the well-grown kenaf is 4-5 meters tall and 6-7 centimeters in diameter, yielding more than 50% more corn per unit area and 15% crude crude protein, 3-4% higher than corn. It is also regarded as an excellent feed crop in terms of value.

Kenaf is a herbaceous plant, but the strength of its stem is very high, unlike ordinary herbaceous plants. When the dense stems are cut or crushed into reclaimed land, the soil is improved.

Unlike the chemical action of the gypsum of Patent Documents 1 to 5, kenaf has a high density, and when water is supplied by rainfall or the like, it is expanded by water. This expansion effect was found to increase the porosity and improve physical properties in the soil. In particular, the increased porosity facilitates the penetration of moisture by rainfall and the like, resulting in washing the salts from the soil surface. This has the effect of deepening the soil layer, that is, the soil depth, in which the crop can grow. This effect is not found in conventional improvement agents such as gypsum. Especially, in the present invention, it is very simple in the present invention that the salt of the reclaimed land is very dense as a single structure and the salt of the soil surface is not easily washed by many years of rainfall. But it solves effectively.

To this end, kenaf is preferably added in a cut or crushed state, and it is preferable to add a process of mixing with conventional soil after the addition.

Kenaf is desirable to improve the soil quality of reclaimed land where 2 to 10 tonnes per 10 a (ares, 100 m 2) are charged. In general, the improvement of reclaimed soil quality was shown to be large depending on the amount of kenaf input. However, in order to improve a large area at the same time, kenaf that can be produced in the area can be added to the area. At this time, the kenaf can be added by cutting or crushing as produced without drying separately. In this case, kenaf has a weight moisture content of 9 to 12%.

In addition, Kenaf may be added with additional organic fertilizers and gypsum. The organic fertilizer added at this time is preferably a compressed pellet type compost that can exhibit a similar effect to kenaf. Pellet-type compost is similar to kenaf because it expands due to rainfall, etc., so it can be used as an auxiliary means to increase the porosity.

The method of improving the soil quality of the reclaimed land by injecting kenaf in the reclaimed land according to the present invention does not need a separate production cost by directly injecting kenaf grown in the reclaimed land into the corresponding area, and solves the logistics cost by directly solving it on site. There is a very good effect of sustainable soil remediation method because it can save and no additional boiling point pollution occurs unlike other manure compost.

In addition, the method for improving the soil quality of the reclaimed land according to the present invention is a herbaceous system using a kenaf having a density similar to that of the woody system, thereby improving the porosity of the land due to the expansion effect of the cut kenaf due to precipitation, and the salinity due to precipitation. There is an effect of washing, improving the soil depth.

As described above, the method for improving the soil quality of the reclaimed land according to the present invention is an environmentally friendly improvement method that improves the physical and chemical properties of the salt and the soil, and does not cause sustainable and non-point pollution.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention may be easily implemented by those skilled in the art. However, in describing in detail the operating principle of the preferred embodiment of the present invention, if it is determined that the detailed description of the related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Throughout the specification, when a part is connected to another part, this includes not only the case where it is directly connected, but also the case where it is indirectly connected with another element in between. In addition, the inclusion of any component does not exclude other components unless specifically stated otherwise, it means that may further include other components.

<Test 1> Analysis of Annual Effects of Cutting Kenaf Input for Reclaimed Soil Improvement

end. Test variety: Pole (domestic breed), red horse 300 (live species)

I. Test Place: Saemangeum Reclaimed Land (Kimje Mankyung), Wonnae (Daejo-gu)

All. Treatment details: Kenaf cutting organism (control: no input, animal compost)

la. Input: 3ton / 10a ※ 3ton / 10a input in March 2016

hemp. Cultivated crops after summer: Summer-Kenaf, Winter-IRG

bar. Survey items: soil physicochemical properties, growth and quantity of input crops, etc.

Test 2 Establishment of Shear Kenaf Dose to Improve Reclaimed Soil

end. Test Place: Saemangeum Reclaimed Land (Kimje Mankyung), Wonnae (Daejo-gu)

I. Treatment content (input volume): 2 tons, 3 tons, 4 tons, 5 tons, 6 tons / 10a

All. Cultivated crops: Summer-Kenaf (pole), Winter-IRG

la. Survey items: soil organic matter content, salt concentration, soil physicochemical properties, growth and yield of input crops, etc.

Test 3 Establishment of Kenaf Cutting Timing to Improve Reclaimed Soil

end. Test Place: Saemangeum Reclaimed Land (Kimje Mankyung), Wonnae (Daejo-gu)

I. Treatment details (input time): late July, late August, late September, late October

All. Input Method: Inserting shredder cutting after Kenaf planting

la. Input volume: 3 tons / 10a

hemp. Survey items: soil organic matter content, salt concentration, soil physicochemical properties, growth and yield of input crops, etc.

<Test 1> Analysis of Annual Effects of Cutting Kenaf Input for Reclaimed Soil Improvement

end. Meteorological characteristics: Average temperature and maximum temperature were 2.2 ℃ higher than average, average rainfall was 343.23㎜ less than average, and 182.4 hours of sunshine.

I. Changes in Soil Physicochemical Properties of Annually Reclaimed Land Organic Matter

Decomposition in the soil occurs over two years after the introduction of organic matter, and soil organic matter concentration and effective phosphoric acid are gradually increasing, and soil porosity depends on the degree of organic matter remaining. The plowed soil tends to increase, and the most effective soil improvement effect is the organic compost of pellet compost〉 rice straw〉 cutting kenaf

* Soil analysis was conducted in May 2016 and May 17 after the introduction of organic materials in April 2016.

All. Annual Changes in Kenaf Growth and Yield with Organic Sources

-Growth of Kenaf by Inputting Reclaimed Organics (Date of Research: September 20, 2017)

Overall growth improvement was observed in the second year of organic input, and good organic growth was achieved by pellet compost (16% increase)> cut kenaf (14% increase)> rice straw (13% increase).

-Kenaf yield according to the input of reclaimed organic matter (Date of survey: September 20, 2017)

The high rate of decomposition in the soil was observed, resulting in the largest increase in yield at 8% in the second year of organic matter input in the cut kenaf, which has high soil physical properties.

Yield of good organic material (2nd year synthesis): pellet compost (10,848㎏ / 10a, 148% increase compared to untreated), rice straw (9,621㎏ / 10a, 120% increase)> cut kenaf (8,528㎏ / 10a, 95% increase) )

Test 2 Establishment of Cut Kenaf Dose to Improve Reclaimed Soil

end. Changes in Physicochemical Properties of Reclaimed Soil with the Kenaf Feed

The overall reclaimed soil chemistry was improved by the Kenaf input treatment, and the soil organic matter was increased 1.8 times compared to the no input (6 g / 10 kg increase from 8.9 g / kg to 25.1 g / kg). It is approaching the range (25 ~ 35g / ㎏), and soil salt concentration tends to decrease due to improved physical properties as the input amount increases.

Soil physics showed that the porosity increased and the volume density decreased with increasing cutting kenaf input.

Porosity (%): No input increased from 49 to 51.5 with Kenaf 2 tons / 10a, and to 55 with Kenaf 6 tons / 10a.

Volume density (g / cm 3): from 1.35 at no input, to 1.28 at 2 to 10/10 of Kenaf, and to 1.19 at 6 to 10/10 of Kenaf.

The soil hardness (hardness) decreases and the soil depth increases with increasing cutting kenaf input.

Soil hardness (mm) decreased from 22 without input to 20.9 with Kenaf 2ton / 10a and Kenaf 6ton / 10a to 18.0.

The soil depth (cm) increased from 9.6 at no input to 14.5 at Kenaf 2 ton / 10a and to 19.2 at Kenaf 6 ton / 10a.

I. Kenaf Growth and Yield According to Kenaf Input

Kenaf growth (irradiation date: Oct. 13, 2017) was investigated according to the cutting amount of kenaf. Growth increased with increasing cutting kenaf dose. 6 ton height was increased by 24.7% compared to 2 tons, and the ratio of reclaimed / non-reclaimed land was increased with the increase of cutting kenaf input. Increased to 91.8% with a 6ton / 10a input from 80.6% no input.

The amount of dry matter increased as the amount of cut Kenaf organic material input increased. 6ton / 10a of reclaimed land increased to 3,778kg / 10a, 42% more than that of no input, and as the amount of cut kenaf increased, reclaimed land productivity improved (reclaimed land / non-reclaimed land). Increased from 59.8% to 2tons to 70.1% to 6tons.

Test 3 Establishment of Kenaf Cutting Timing to Improve Reclaimed Soil

end. Cutting Kenaf Inputs by Input Time

4324, 8592, 10159 and 10929 kg / 10a were added at the end of July, the end of August, the end of September and the end of October, respectively.

I. Changes in Soil Physicochemical Properties of Reclaimed Land According to Input Time

The earlier the longer the decomposition period, the greater the improvement in soil chemistry.

In addition, the earlier the input, the longer the decomposition period, the greater the improvement in soil physical properties.

Although the embodiments of the present invention have been described above, those skilled in the art will be able to perform various applications and modifications within the scope of the present invention based on the above contents.

Claims (9)

In the method of improving the soil quality of reclaimed land by injecting kenaf into reclaimed land ,
The kenaf is grown and harvested in the reclaimed land to be improved immediately in the year,
The kenaf is a method for improving the soil quality of reclaimed land that is introduced into the cutting or crushed state . delete delete The method of claim 1,
How to improve the soil quality of the reclaimed land will be introduced before July the Kenaf. delete The method of claim 1,
Kenaf is a method for improving the soil quality of reclaimed land is 2 to 10 tons per 10a. The method of claim 6,
Kenaf is a method for improving the soil quality of reclaimed land having a water content of 9 to 12%. The method of claim 1,
A method for improving the soil of reclaimed land, where additional organic fertilizers are added when Kenaf is added. The method of claim 8,
The organic fertilizer is a method of improving the soil quality of reclaimed land is a compressed pellet type compost.