KR100881638B1 - Method of manufacture and additive of matherial organic and inorganic fertilizer for Paddy rice soil - Google Patents

Abstract

The present invention relates to an additive manufacturing method and recycling technology for supplying evenly necessary ingredients for improving soil and growing rice as a sustainable natural circulation eco-friendly organic farming for the self-producing production of rice, which is a staple food of the people.

In preparation for the import of agricultural products in accordance with the recent WTO / FTA agreement, it is possible to produce high-quality rice by using pesticide-free and chemical-free fertilizers with eco-friendly organic farming methods by reflecting the competitiveness of cheap foreign rice and reflecting consumer's preference for high-quality rice. The demand for farmers to grow rice for the situation is increasing.

Therefore, the present invention is prepared for the development of eco-friendly organic materials of rice crops as an intelligence enhancement model for the development of self-sufficiency by improving quality competitiveness and reducing farming costs in terms of rice security, which is a staple food of the people.

The present invention recycles various industrial wastes and provides additive manufacturing technology that contains organic matter, silicic acid, lime, goto, and trace element fertilizer (NPK), which are necessary for improving soil and growing rice, and by-product fertilizer and general compost. It is characterized in that it is conveniently mixed with water to produce organic and inorganic gas ratio for water.

The present invention does not use organic matter, siliceous fertilizers, chemical fertilizers and pesticides separately for the production of high-quality rice by eco-friendly organic methods, compost and siliceous fertilizer, lime, goto, fertilizer (N + P ₂₎ at one time during rice field tillage O ₅ + K ₂ O) is used at the same time.

In addition, by improving the paddy soil and producing eco-friendly organic high-quality rice production, it saves manpower and production cost, improves the international competitiveness of rice farming, improves farmers' farming income, increases farm income, and is treated as an invention for protecting rice farming. It is a useful invention that contributes to the promotion of recycling and the reduction of resources by providing various recycling technologies.

Rice crops Organic and inorganic fertilizers, additives, eco-friendly organic farming, organic materials, high quality rice, waste, fly ash, combustibles, papermaking, pulp sludge.

Description

Method of manufacture and additive of matherial organic and inorganic fertilizer for Paddy rice soil}

1 is a manufacturing process diagram of the present invention
2 is a process diagram showing another embodiment of the present invention

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Conventional rice crops have cultivated rice farming as a method of using loam and compost to improve paddy soil and increase intellect.However, since the 1960s and 1970s, due to the lack of labor in rural areas, it was impossible to use land and compost. Mainly self-sufficiency and high yield, the soil is dying due to the abuse of chemical fertilizers and pesticides, and is a problem for sustainable eco-friendly agriculture due to lack of organic matter and water in rice fields.
The process standard for compost fertilizer compost produced so far is organically produced (25% or more) as the main ingredient, and it is not suitable for rice farming because it lacks minerals such as siliceous, lime and goto which are necessary for soil improvement and rice growth. It is mainly used for field crops.
As demand for electricity and paper pulp consumption increase in proportion to the improvement of people's living standards and civilization, the generation of coal ash, which is a coal-fired power plant waste, reached 5.53 million tons per year as of 2004. Although in Ilo, the recycling rate is only 65% and the remaining amount is buried in the waste treatment plant.
The amount of sludge, which is a by-product of the 150 paper and pulp mills in Korea, has been generated as a waste from 1.8 to 2.3 million tons for the past three years, and sludge production is increasing every year due to the increase in the use of paper and pulp, and the recycling rate is less than 10%. Most of the above 90% is treated by incineration or ocean dumping.
Coal ash generated from coal-fired power plants (the Ministry of Environment's waste statistics in 2004) recorded 1.18 million tonnes in 1990, with a recycling rate of 15%, and '18% to 2.76 million tonnes in 1995, 55% to 4.45 million tonnes in 2000 '. In 2004, the recycling rate was 5.35 million tons and the recycling rate was 65%.
The government has set a recycling target of 70% since 2008, is promoting a recycling promotion policy, and plans to dispose of the rest in landfills.
Coal is evenly distributed throughout the world, and cheaper than other fossil energy. The government has added many coal-fired power plants, and many imported coals are used.
Regarding the recycling status of coal ash, it is recycled as cement raw materials, ready mixed concrete, construction civil engineering materials, aggregates, and sediment materials. The amount of coal ash is increasing every year, which makes it difficult to secure landfills and secondary environmental pollution.
Sludge generation amounted to about 170-2.3 million tons (2005 Korea Federation of Paper Industry) in about 150 years in domestic paper and pulp mills. 25% is dumped at sea, 3% is landfilled, and about 10% is recycled.
In accordance with the Enforcement Regulations of the Marine Pollution Prevention Act and the London Dumping Convention, the amount of marine dumping waste has been reduced to about 500,000 tons, and since 2011, the total amount of land disposal resources has been regulated. There is a problem that pulp sludge is difficult to incineration.
In addition, the amount of incineration of paper pulp sludge increases, and the combustibles generated as waste after incineration also increase to about 300,000 tons per year, which causes problems in the treatment of the combustibles and development of recycling technology.
On the other hand, Amino acids generated from wastewater after fermentation of molasses from seasoning production plant and refined precipitation of seasoning are strong acidic high concentration (BOD 22,500 ~ 320,000mg / L. COD 40,000 ~ 165,000mg / L) wastewater with pH3. Since some of them are neutralized and used as liquid fertilizer or feed, most of them are disposed of at least 90% of about 500,000 tons per year by ocean dumping.
Coal ash, combustible ash, papermaking. Pulp sludge, seasoning fermentation wastewater, and food factory sludge are wastes with little or no harmful substances detected. However, when they are added to paddy soil without stabilization, organic minerals are imbalanced.
With the improvement of people's living standards, the consumption of livestock manure is increasing due to the increase of meat consumption, and the amount of livestock manure is increasing. As of 2005 (Ministry of Environment, 2005 waste statistics), 50 million tons per year (139 days a day) Thousand tons), composting 80.9%, liquefaction 5.9%, clarification effluent discharge 7.7%, ocean dumping method 5.5%.
The distribution of finished products produced at the annual composting facilities, which are processed by the composting method, was low at 6.9%, and sluggishness was caused by excessive compost production and limit of demand. Activation is pointed out as a problem.
According to the International Convention on the Prohibition of Marine Dumping, the manure disposal of marine manure is about 2.75 million tons per year, and the creation of demand for compost produced by the resource-treatment plan is a policy task, while suitable compost is suitable for paddy soils, which occupy 54% of the land area. Not developed.
Since 2005, food wastes, which have been prohibited from being directly buried at landfill facilities, generate about 4.15 million tons per year and are processed by feed composting methods at 262 resource-assisting facilities in Korea (133 feeds and 98 composts). Due to farmers' refusal to use, only 13% of the sale of recyclable products is a limited condition, and the government has limited conditions for commercialization. The government has strengthened quality control to create demand sources and promote distribution of food, develop food waste recycling technology and Promotion of recycling has become one of the challenges.
The government's intellect to improve the international competitiveness and to improve the quality of the soil by raising sustainable eco-friendly organic farming to the rice farming, which is the staple food of the nation, is to use compost, farming green manure crops, rice straw reduction, siliceous It uses three to four years of fertilizer, livestock manure, farmland spraying, and duck farming to produce soil and produce high-quality rice. It is pointed out.
The annual output of 1,240 organic fertilizers, by-product fertilizers, and composting factories is about 3.2 million tons, mostly used for field crops, horticulture, specialty crops, and orchards, and is suitable for paddy soil improvement and tap water crops, which occupy 54% of the land area. Due to the lack of manufacturing technology, organic materials are sluggish due to limited demand, and the sales are sluggish about 70%. The remaining amount is carried forward. By-product fertilizer plant is a recession and bankruptcy crisis. Promoting recycling, revitalizing compost plants and creating demand are important policy challenges.

보통 논에 부족한 성분을 보충하는 종래의 토양개량과 지력증진 방법은 유기물, 규산질비료, 석회 고토, 화학비료를 동시에 겸용하여야 함으로서, 정부는 녹비작물재배 농지주입 볏짚 농지환원 가축분뇨 액비 농지주입, 규산질비료 3∼4년 주기 사용등 흙 살리기운동을 전개하고 있다.
벼농사에 질소는 10a당 10∼12kg 필요로하며 규산은 질소의 8∼10배 이상인 10a당 80∼150kg을 필요하며 정부는 논토양개량에 규산질비료를 3∼4년 주기로 무상공급 살포하나 종래의 규산질비료에는 유기물, 비료삼요소가 적정량 함유하지 않아 별도로 퇴비와 화학비료를 동시 사용해야 됨으로 번거롭고 불편하였다.
또한 유기질비료, 부산물비료, 퇴비에는 논 토양 개량과 벼생육에 필요한 규산, 석회, 고토등 무기성분과 질소, 인산, 칼리 성분을 적정 함유하지 않아 논 토양개량과 벼농사에 사용시 경제성 부족으로 벼농사에는 수요가 없고, 주로 밭농사 전용으로 생산 판매 사용하여 왔다.
본 발명은 각종 폐기물을 적정량 배합하는 기술로 일반 퇴비에 논 토양개량과 벼생육에 필요한 성분인 유기물, 규산, 석회, 고토, 질소성분을 함유한 첨가제를 제조하여 유기질비료, 부산물비료, 일반 퇴비에 적정량 혼합 첨가제로 사용함에 그 목적이 있는 것이다.
이를 통해 벼는 염해에 내성이 강하고 환수(물갈이)로 염분이 용출, 염해 발생우려가 없으며, 수도작은 잠재 수요가 무한하여 논 토양의 개량과 벼 생육에 필요한 성분을 함유한 수도용 유ㆍ무기 복비를 제조 기술을 제공하여 음식물류 폐기물 퇴비의 염해문제 해결로 수요처 창출, 각종 폐자원의 재활용 촉진 등을 꾀할 수 있는 것에 그 목적이 있는 것이다.
WTO/FTA협정에 따른 저렴한 외국쌀 수입시판에 대비하여 국내 농경지 면적의 54％. 농업소득의 46％를 점유하는 우리나라 쌀 농사와 농민를 보호하고, 우리나라 쌀농사 국제 품질경쟁력 제고방법으로 주식량 안보차원에서 쌀농사의 자급기반 조성을 위한 지력증진과 지속가능한 친환경 유기농업에 생산비 절감으로 고품질 쌀 생산 영농방법 모델개발을 위한 유용한 발명이다.
부산물비료 퇴비에 첨가제로 사용하는 폐기물의 종류별 유효성분 함량은 [표 2][표 3]과 같으며 성분이 다른 폐기물을 적정량 배합하여 논토양개량 및 쌀맛을 내는 무기성분과 벼생육에 필요한 성분을 고루 함유한 첨가제와 보조재를 제조하여 폐자원의 효율적인 제활용으로 복합비료의 생산원가를 절감하였다.
[표 2] 첨가제 원료의 성분 함유량

[표 3] 보조재 원료의 성분 함유량

상기 [표 2][표 3]과 같이 석탄재, 연소재, 슬러지, Amino acids에는 논 토양개량과 벼 생육에 필요한 성분의 불균형으로 한가지만 계속 사용시 불필요한 성분이 토양에 집적되어 환경을 파괴하여 영양분의 불균형으로 결실율이 낮아지는 등 수량에 문제점이 있고, 쌀 맛을 내지 못하며 안전 농산물 생산에 위험 요소가 되고 있다.
본 발명기술은 각종 폐기물의 유효성분 함량에 따라 적정량 배합으로 유기물 25∼30％. 무기물(규산,석회,고토) 15-20％, 비료 삼요소(N.P.K) 2∼3％를 함유하는 수도용 유ㆍ무기 복비 첨가제 보조재로 재활용하여 결실율을 높이며 쌀맛을 내고 2차 환경오염원을 방지하게 되었다.
본 발명 첨가제를 유기질비료, 부산물비료, 일반퇴비에 적정량 배합으로 생산하는 수도용 유ㆍ무기 복비는 경운시 1회의 기비로 사용하여 논 토양 개량과 벼생육에 필요한 비료삼요소와 유기물, 무기성분을 함유하여, 벼를 건강하게 자라게하여 병충해 발생과 도복피해를 줄이고, 쌀 맛을 내는 무기물(규산, 석회, 고토, 철분, 미량원소)을 동시 사용 효과가 있으며 추비와 농약살포, 도복벼 손질 노동력과 인건비, 생산비 절감형 친환경 유기농업과 고품질쌀 생산에 기여하는 첨가제와 보조재의 제조기술로 폐기물의 재활용 촉진과 지속가능한 친환경 유기농업의 발전에 유용한 발명이다.The present invention is formulated with an appropriate ratio of active ingredients contained in coal ash, combustion ash, paper pulp sludge, sludge, etc., which is a waste, and economically recycled to evenly distribute the ingredients necessary for improving the paddy soil and growing rice and fruiting rice with unlimited potential. It is a method of manufacturing the inorganic additives contained and the technology of recycling.
The additives according to the present invention are formulated at an appropriate ratio for livestock manure and food waste compost, which are required to create demand sources due to sluggish sales, and evenly contain organic and inorganic fertilizer components required for rice paddy soil improvement and rice farming. Providing technology for manufacturing fertilizers will promote the development of eco-friendly organic materials that promote the recycling of various wastes and create economic demand for resources, and contribute to strengthening the international competitiveness of rice farming and producing organic high quality rice. There is a purpose.
The rice paddy soil of Korea is cultivated rice farming by chemical fertilizer farming method, which is mainly cultivated as shown in [Table 1], and it lacks organic matter, silicic acid, lime and goto.
[Table 1] Characteristics of Paddy Soil in Korea

Conventional soil improvement and intellect-promoting methods to replenish the lack of ingredients in rice fields should simultaneously use organic materials, siliceous fertilizers, lime clay and chemical fertilizers. The campaign is aimed at saving soil by using fertilizer for 3 to 4 years.
Nitrogen needs 10-12kg per 10a for rice farming and silicic acid needs 80-150kg per 10a, which is 8-10 times more than nitrogen, and the government distributes free siliceous fertilizer every three to four years for paddy soil improvement. Fertilizer did not contain an appropriate amount of organic substances and fertilizer three elements, so it was cumbersome and inconvenient to use the compost and chemical fertilizer simultaneously.
In addition, organic fertilizers, by-product fertilizers, and compost do not contain silicic acid, lime, and gourd minerals necessary for soil improvement and rice growth, and nitrogen, phosphoric acid, and cali- ble components, which are not suitable for paddy soil improvement and rice farming. It has not been produced and sold mainly for field farming.
The present invention is a technology that combines the appropriate amount of waste to produce organic fertilizers, by-product fertilizers, general compost by preparing additives containing organic substances, silicic acid, lime, clay, nitrogen, which are necessary for soil improvement and rice growth in general compost Its purpose is to use it as an appropriate amount of mixing additives.
Through this, rice is resistant to salt damage, and there is no possibility of salt elution or salt damage by returning water (water change) .There is infinite potential demand for tap water. The purpose is to provide manufacturing technology to solve the salt problem of food waste compost and to create demand source and promote recycling of various waste resources.
54% of the agricultural land in Korea in preparation for the import of cheap foreign rice under the WTO / FTA agreement. Protecting Korean rice farmers and farmers, which account for 46% of agricultural income, and improving the quality competitiveness of Korean rice farming by improving the quality of stocks. It is a useful invention for developing a rice production farming method model.
The contents of active ingredients for each type of waste used as an additive in compost fertilizer are shown in [Table 2] and [Table 3], and the inorganic ingredients to improve paddy soil and rice taste and the ingredients necessary for growing rice are formulated by appropriately mixing wastes with different ingredients. By manufacturing additives and auxiliary materials evenly contained, the production cost of composite fertilizer was reduced by efficient recycling of waste resources.
[Table 2] Component content of additive raw materials

[Table 3] Component Content of Auxiliary Materials

As shown in [Table 2] and [Table 3], coal ash, combustor, sludge, and amino acids are imbalances of ingredients necessary for paddy soil improvement and rice growth, but unnecessary ingredients are accumulated in soil and destroy the environment when continuously used. There is a problem in yield, such as the loss rate is lowered due to the imbalance, it does not taste rice and is a risk factor for the production of safe agricultural products.
The present invention is 25 to 30% organic matter in an appropriate amount combination according to the active ingredient content of various wastes. It is recycled with supplementary organic and inorganic fertilizer additives for water, containing 15-20% of minerals (silic acid, lime and koto) and 2-3% of fertilizer tri-urea (NPK) to increase fruition rate, to make rice taste and to prevent secondary environmental pollution.
Organic and inorganic fertilizer for water, which produces additives of the present invention in organic fertilizer, by-product fertilizer, and general compost in an appropriate amount, contains fertilizer, urea, organic matter, and inorganic components necessary for paddy soil improvement and rice growth by using it as a single fertilizer during tillage. In addition, by making rice grow healthy, it reduces the incidence of insect pests and dobok damage, and simultaneously uses rice flavoring minerals (silic acid, lime, goto, iron, trace elements). It is an invention that is useful for promoting the recycling of waste and the development of sustainable eco-friendly organic farming with the production technology of eco-friendly organic farming that reduces production costs and manufacturing additives and auxiliary materials that contribute to the production of high-quality rice.

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The present invention is an industrial waste coal ash (Fly ash) and pulp. By properly blending the active ingredient content of paper sludge and sludge combustion materials, additives containing evenly containing silicic acid, lime, koto, iron, kali, and trace elements such as minerals required for paddy soil improvement and rice growth were prepared.
When organic fertilizers, by-product fertilizers, and general compost that make up organic matter are supplemented with additives of 20 to 30% by weight, organic matter necessary for paddy soil improvement and rice growth is at least 25%, silicic acid at least 15%, lime 5%, lime 1% More than. A fertilizer for water and organic matter containing 2% or more of fertilizer triurea (nitrogen, phosphoric acid and kali) is evenly produced.
Fly ash 40 to 60% by weight and 40 to 60% by weight of the paper sludge combusting material are mixed evenly mixed in the form of powder or granules and described in more detail by process according to the manufacturing process of the present invention as follows.
Step 1: receipt of raw materials
Coal-fired power plant Fly ash is loaded as a bulk vehicle in the ash silo of the power plant and transported to prevent dust generation, and transported to the additive manufacturing plant and received in the ash ash silo as an air compressor.
Paper and pulp sludge combustors (Fly ash) are loaded as bulk vehicles or shipped in tonnage as bulk vehicles at the ash silo of the paper mill and transported to the additive manufacturing plant and received in the ash ash silo or warehouse.
Paper and pulp sludge is transported to dump truck arm rolls and placed in storage.
Second Step: Mixed Stirring
40 to 60% by weight of fly ash and 40 to 60% by weight of paper pulp sludge combustor are mixed evenly with a mixing stirrer and stored in an additive storage silo.
The mixture is mixed and agitated at 60 to 70% by weight of coal ash and 30 to 40% by weight of paper pulp sludge.
Third process; Shipping conveying supply
In the mixed powder ash silo, the bulk vehicle is transported to the loading demand source, or when loaded into the bulk vehicle, it is pulled by screw conveyor or air compressor at 40 ~ 60% ratio from fly ash silo and fly ash silo at the same time. Loaded or transported in bulk carriers in my bulk vehicle to supply to demand.

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[표 5] 수도용 유ㆍ무기 복비 비료성분 분석표(단위 ; ％)

수도용 유ㆍ무기 복비를 10a당 1,000kg을 경운시 기비로 시용하여 퇴비 256kg. 규산 157kg. 석회 52kg. 고토 15kg 복비 23kg을 동시 사용하는 효과가 있고, 비료성분이 경운시 1회의 기비로 사용하여 분얼기에서 유수형성기, 결실기까지 완효성으로 서서히 나타나며 별도 분얼비(가지거름) 수비(이삭거름) 실비(열매거름)를 시용할 필요가 없었다.
대조구(관행구)에는 질소, 인산, 칼리(9kg+4.5kg+5.7kg) 19.2kg/10a를 시비 하였으며 질소는 기비(50％)+분얼비(20％)+수비(20％)+실비(10％)를 분시하였고, 인산(용성인비) 칼리(염화칼리)비료는 전량 기비로 사용하고, 농약을 사용하였다.
수도용 유ㆍ무기 복비 시용구는 전량 기비로 10a당 500kg. 1,000kg. 2,000kg를 시용하고 화학비료와 농약을 사용하지 않은 시험재배 결과는 [표.6]과 같았다.
[표 6] 시험재배 결과 요약

Production examples of the additive prepared by the method as described above are shown in [Table 4] below, and the organic / inorganic fertilizer component for water prepared by mixing 20-30% of the additive of the present invention and 70-80% of general by-product fertilizer compost is As shown in [Table 5], soil and compost, siliceous fertilizer, lime fertilizer, goto fertilizer, and fertilizer (nitrogen, phosphoric acid, kali) are applied simultaneously with organic and inorganic fertilizer for water supply containing evenly required ingredients for improving soil and growing rice. It is effective.
The fertilizer component analysis results of the additive of the present invention are shown in [Table.4].
TABLE 4 Fertilizer component analysis table of additives (unit:%)

[Table 5] Analysis of Organic and Inorganic Fertilizer Fertilizer Components for Water (Unit:%)

The composting rate of oil and inorganic water for water is 1,000kg per 10a. 157 kg of silicic acid. 52 kg of lime. It is effective to use Goto 15kg Boil Ratio 23kg at the same time, and fertilizer ingredient is used as one time of tillage, and it appears gradually from the milling machine to the oil formation stage and the fruiting stage. Manure).
Nitrogen, phosphoric acid, and Kali (9kg + 4.5kg + 5.7kg) were fertilized 19.2kg / 10a in the control group (North control). 10%), and phosphoric acid (soluble phosphate) kali (cal chloride) fertilizer was used as a whole, and pesticides were used.
Water and organic fertilizer application equipment is 500kg per 10a at full cost. 1,000 kg. The results of the test cultivation with 2,000kg and no chemical fertilizer and pesticides were shown in [Table.6].
Table 6 Summary of Test Cultivation Results

Claims (2)

Mixing and stirring 40 to 60% by weight of fly ash and 40 to 60% by weight of paper pulp sludge combustion ash; Wearing an additive having undergone the stirring; Addition of the received additives to the organic fertilizer, by-product fertilizer, general compost for the effect of simultaneously using the three soils, compost, siliceous fertilizer, lime fertilizer, fertilizer in the rice crops; Manufacturing method. Mixing and stirring 60 to 70% of a fly ash weight ratio and 30 to 40% of a paper pulp sludge combustion ash weight ratio; Drying the additive after the stirring;  Addition of the above additives to organic fertilizers, by-product fertilizers, and general compost for the effect of simultaneously using three-component soil, compost, siliceous fertilizer, lime fertilizer, and fertilizer in rice crops; Way.

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