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Kafe 바로가기주관연구기관 | 국립원예특작과학원 National Institute of Horticultural and Herbal Science |
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연구책임자 | 여경환 |
참여연구자 | 최경이 , 이중섭 , 이재한 , 박경섭 , 김진현 , 강점순 , 김영식 , 김일섭 , 손병구 , 이규빈 , 최윤의 , 이진아 , 윤종수 , 이세이 , 조익래 , 강석우 , 정명석 , 최기영 , 장동철 , 김시홍 |
보고서유형 | 최종보고서 |
발행국가 | 대한민국 |
언어 | 한국어 |
발행년월 | 2018-02 |
과제시작연도 | 2017 |
주관부처 | 농촌진흥청 Rural Development Administration(RDA) |
등록번호 | TRKO201800043111 |
과제고유번호 | 1395050626 |
사업명 | FTA대응경쟁력향상기술개발 |
DB 구축일자 | 2018-11-24 |
키워드 | 순환식 수경재배.표준 배양액.유기배지재활용.전기살균소독.배액 재활용.펠렛비료.유기배지 재활용.코이어.배양액 재활용.증기소독.살균.전기충격.전극.배양액 처리.순환식 수경.순환식.전용 배양액.유기배지.살균소독.수경재배.재활용.closed hydroponics.standard nutrient solution.organic substrate reuse.Electric Shock Disinfection.drainage solution reuse.pelleting fertilizer.coir.nutrient solution reuse.steam disinfection.disinfection.electric shock.electrodes.nutrient solution treatment.recycling hydroponics. |
DOI | https://doi.org/10.23000/TRKO201800043111 |
○ 파프리카 순환식 유기배지경 재배시 생육단계별 배양액 조성
○ 신조성 양액의 기존 양액 대비 생육 및 생산성 검증
○ 친환경 순환식 수경재배기술의 현장 적용 및 경제성 평가
○ 유기배지 사용년수에 따른 증기 소독 기술개발
○ 과채류 유기 폐배지의 채소류 토경배지 재활용 처리기술
○ 유기 폐배지를 활용한 토양개량제 펠렛 비료 생산기술 개발
○ 배액의 친환경 전기살균소독시스템 실용화 기술 개발
○ 순환액 알고리즘 및 순환식 배양액관리프로그램의 개발
○ 코이어 배지 사용년수별 배액 재사용 급액
○ 파프리카 순환식 유기배지경 재배시 생육단계별 배양액 조성
○ 신조성 양액의 기존 양액 대비 생육 및 생산성 검증
○ 친환경 순환식 수경재배기술의 현장 적용 및 경제성 평가
○ 유기배지 사용년수에 따른 증기 소독 기술개발
○ 과채류 유기 폐배지의 채소류 토경배지 재활용 처리기술
○ 유기 폐배지를 활용한 토양개량제 펠렛 비료 생산기술 개발
○ 배액의 친환경 전기살균소독시스템 실용화 기술 개발
○ 순환액 알고리즘 및 순환식 배양액관리프로그램의 개발
○ 코이어 배지 사용년수별 배액 재사용 급액체계 확립
○ 배액 재사용 기술 현장 적응시험 및 배액 재사용 기준설정
(출처 : 보고서 요약서 3p)
■ 제1세부 : 주요 수출과채류의 순환식 유기배지경 양액조성
□ Purpose & Contents
○ Development of nutrient solution formulations with growth stages for paprika cultivation in the closed hydroponic system with a coir substrate and evaluation of the developed nutrient solution formulations
○ Field experiment of the de
■ 제1세부 : 주요 수출과채류의 순환식 유기배지경 양액조성
□ Purpose & Contents
○ Development of nutrient solution formulations with growth stages for paprika cultivation in the closed hydroponic system with a coir substrate and evaluation of the developed nutrient solution formulations
○ Field experiment of the developed environment-friendly closed hydroponic system
○ Evaluation of productivity and economic feasibility in the developed closed hydroponic systems compared to the open systme
○ Evaluation of the developed standard nutrient solution compared to traditional nutrient solutions
□ Results
○ Analysis of the nutrition absorption pattern with growth stages of paprika in the closed hydroponic system
○ Development of nutrient solution formulations with growth stages and evaluation on applicability of the developed nutrient solution formulations
○ Field experiment and economic evaluation of the developed environment-friendly closed hydroponic system
○ Evaluation of physiological responses of paprika plants as affected by the developed standard nutrient solution
○ Establishment of details for nutrient solution management
○ Evaluation of productivity and economic feasibility in the developed closed hydroponic systems
○ Evaluation of the developed standard nutrient solution in the closed system compared to traditional solutions in the open or closed system
□ Expected Contribution
○ Less contamination of soil & water and saving water resources as well as fertilizers by the environment- friendly closed hydroponics
○ Technical supports (preparations for nutrient solution composition, nutrient solution management, etc.) for application of the closed hydroponic system with an environment-friendly substrate
○ Manual for the nutrient solution management with growth stages for paprika cultivation in the closed hydroponic system with organic substrates
○ Policy suggestion for the installation support of environment friendly closed hydroponic system
○ Import substitution of closed hydroponic systems and export enhancement of the closed hydroponic system to developing nations
■ 제1협동 : 친환경 유기배지 재활용 기술
□ Purpose& Contents
○ Standardization of organic medium recycling applicable for farming industry
○ Recycling methods for different organic media and disposed media
□ Results
○ Solved the problems related to wastes of organic aquaculture media through recycling methods
○ Reduced costs by recycling used media and improved farmers’ income
○ Established a vegetable production system based on recycling of organic aquaculture media
□ Expected Contribution
○ Making assessment standards for organic aquaculture media and utilizing it as a policy data for technique transferring to farmers
○ Suggesting techniques for recycling and disposing the organic aquaculture media and utilizing it as a policy data for improving farmers’ income
○ Utilizing as a guide for developing horticultural bed soils and organic fertilizers using organic culture media wastes.
○ Utilizing the results of the study for academic publication, policy suggestions, and patent application for industry property right
■ 제2협동 : 배액의 친환경 전기살균소독시스템 개발
□ Purpose& Contents
It is the purpose of this research to develop eco-friend disinfection system using electricity for recycling hydroponic system. To fulfil the purpose the experiments were conducted to establish the conditions of the components consisting of the disinfection system, to set the appropriate necessities such as electrodes, electric current, electric intensity, frequency, and so on. The reactor was designed and tested in pilot scale. Thereafter, the components were connected to the recycling system to test, of which its economic feasibility was evaluated. The managing program was developed as well.
□ Results
The developed disinfection system using electricity has several desirable points. It is very economical in price, less of maintenance efforts, out of any changes in nutrient composition of treated solution, no need of any chemicals for the disinfection as well as cleaning of the reactor, even though it has excellent disinfection abilities towards fungi and bacteria.
□ Expected Contribution
To have original technology for electric disinfection system
To substitute import and enhance export the disinfection system for hydroponics with high competitiveness
To less contamination of soil and water
To save water resources as well as fertilizers
■ 제3협동 : 환경친화형 배액 이용기술
□ Purpose& Contents
○ Development of environment-friendly circulating organic delivery system suitable for domestic conditions
○ Setting of drainage reuse technology and application of drainage reuse
○ Analysis of constituents of feed and drainage by stages of paprika growth
○ Analysis of paprika inorganic ion components at 40% reuse
○ Establishment of reusable water distribution system by year number of coarse paper used
○ Drainage reuse technology field adaptation test
□ Results
○ Growth and yield of paprika according to the mixing ratio of reusable drainage
○ Change of inorganic ion component according to dilution concentration during drainage reuse
○ Comparison of Growth and Inorganic Ion Content of Slab with Different Moisture Content
○ Establishment of appropriate standards for reusing media in non-recycling hydroponic cultivation
□ Expected Contribution
○ The farmers and universities maintain a close cooperation system in order to analyze the basic data such as the drainage recycling ratio, the range of stabilization of the rhizosphere according to the coarse medium, and the growth and yield.
○ Increase of the psychological stability of the farmers and the selection range of individuals when environmentally friendly hydroponic cultivation is set by setting the concentration of diluted raw water to 0.8-1.2 and the range of elimination of ion imbalance due to the increase of supply amount when reusing drainage
○ Application of nutrient solution for paprika circulation hydroponic cultivation using environmentally friendly medium
○ By presenting recycling technology and processing technology for hydroponic organic substrates, it is used as policy data for farm income improvement
(출처 : Summary 5, 8, 10, 13p)
과제명(ProjectTitle) : | - |
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연구책임자(Manager) : | - |
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총연구비 (DetailSeriesProject) : | - |
키워드(keyword) : | - |
과제수행기간(LeadAgency) : | - |
연구목표(Goal) : | - |
연구내용(Abstract) : | - |
기대효과(Effect) : | - |
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