• 한국해양환경ㆍ에너지학회지
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• 제4권2호
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• pp.3-14
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• 2001

저질로부터 용출되는 영양염부하가 내만의 수질오염에 미치는 영향을 예측하기 위하여 수층과 저질간의 물질순환과정을 고려한 수-저질생태계모델(SWEM)을 개발하였다. SWEM모델은 유동을 예측하는 수리역학모델과 수층의 생태계순환 및 저질로부터의 영양염용출과정을 고려하여 수-저질간의 물질순환과정을 예측하는 생태계모델의 2개의 서브모델로 구성되어 있으며, 수치모형실험은 실시간에 의한 유동과 수질예측 계산을 실시하였다. 본 모델을 일본 博多灣에 적용하며 대상해역의 부영양화과정 및 영양염의 물질순환과정을 수치예측하고, 저질로부터 용출되는 영양염이 만내의 수질변화에 미치는 영향에 대하여 검토하였다. 모델에 의한 博多灣의 유통계산견과는 조류, 수온ㆍ염분의 관측치와 잘 일치하였으며, 물질순환예측의 계산치는 만내 수질관측치를 양호하게 재현하였다. 또한, 博多灣의 영양염 플럭스의 예측결과로부터 저질로 부터 용출하는 영양염 플럭스는 수질변화에 크게 영향을 미치고 있는 것 으로 나타났다.

• 한국유기농업학회지
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• 제13권1호
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• pp.1-22
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• 2005

This study was focused on the system of regional resource circulation(RRC) of Asan-Si as a case region. So 301 farmers(members of producer organization) who are managing environmental-friendly agriculture (EFA) are surveyed. The RRC system is focused on establishing the system of regional complex farming connected with the seedling fanning and the livestock. The main results surveyed are as follows : First, total cultivated acreage is 574ha. Second, the total quantity of by-products of rices, beans, wheats is 983M/T. Third, the total quantity of nutrient requirement for seeding fanning is 85,335.6kg This research shows how to develop the RRC system for EFA. The development model and strategies are as follows : The first model for the system of regional resource circulation can be called the scenario of the best output for the system of environmentally friendly resource circulation. It is considered to estimate the appropriate number of heads of Korean cattle and hen which can be bred simultaneously. And the second model can be called the scenario of the regional allotment for the appropriate number of heads of those. It is considered to estimate the appropriate number of heads of those which can be alloted by the individual farm or area.

• 동의생리병리학회지
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• 제24권5호
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• pp.779-783
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• 2010

Formation of nutrient qi is one of the most important functions in the human body. In medical classic such as "Hwangdineijing", it is described through several chapters. However, it is just focused on the first formation of the nutrient qi from water and food by digestion. I will mention how to get nutrient qi in human body and how to circulate and act in physiological phenomena through "Hwangdineijing". Human body should get nutrient qi from essense not only from water and food. Human body, because it is a live, must have had a nutrient material before he or she gets water and food by formation of nutrient qi. So he or she can have physiological functions.

• 한국유기농업학회지
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• 제17권2호
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• pp.151-170
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• 2009

The objectives of this study were to analysis the nutrient cycles of agricultural by-products. The region, in which agricultural by-products are circulated for use within the agroecosystem for minimizing the input of artificial nutrients as well as generation of wastes, and where ecologically industrial diversity is formed, was defined as the regional agriculture focused on eco-industrial approach. Plan in stages for promoting ahead with the regional agriculture focused on eco-industrial approach is as follows: First of all, "The Consultation Body for Circulating & Using By-products" should be formed. Secondly, usage of agricultural by-products is identified to select the facilities of recycling and its location including the type and amount. Thirdly, the facilities for recycling of resources and infrastructure are installed. Finally, the facilities for recycling and resource circulation system within the area are efficiently managed.

• Journal of Ecology and Environment
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• 제29권5호
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• pp.469-478
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• 2006

The composition changes of litters were investigated to figure out the effects of the decomposition of Humulus japonicus on nutrient circulation and decomposition process in the riverine wetlands: Tan stream and Amsa-dong. Litterbags (mesh size 1 mm and 5 mm) were installed to monitor mass and nutrient changes of 5 types of litters: H. japanicus only, Miscanthus sacchariflarus only, Phragmites communis only, mixed litters including H. japonicus, and mixed litters without H. japonicus for 7 months. It was shown that k (decay rate) of the H. japanicus ($2.68{\sim}3.12$) was higher than that of M. sacchariflorus ($1.83{\sim}2.16$) and P. communis ($0.02{\sim}1.18$). The mass and organic remainings of the mixed litters including H. japonicus at Tan stream were $47.0{\sim}55.1%\;and\;47.0{\sim}54.9%$ and those of the litterbags without H. japanicus were $49.2{\sim}65.4%\;and\;47.1{\sim}57.5%$, respectively. This result indicated that the nutrient circulation was faster at H. japanicus community than others. Ca, Na, Mg, K, P, C, N and H contents reduced to around $40{\sim}80%$ of original. However, Na concentration increased up to $407{\sim}584%$ at 100 days and decreased to $248{\sim}498%$ at the end of the experiment. Decomposition rates were similar between 1 mm and 5mm mesh size litterbags and this implies that plant litters in studied areas decomposed mainly by microbes rather than small animals. This study revealed that the fast growth of H. japonicus was resulted from fast decomposition in part: positive feedback of nutrient cycling.

• 대한한의학원전학회지
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• 제17권4호
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• pp.37-56
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• 2004

In the Circular flow of Meridians(經脈), the circulation of Nutrient Gi(營氣) is that the essence Gi(精氣) of food starts from Middle Cho(中焦), via heart and lung into the ring-type round of 12 Meridians(十二經脈) in turn of hand Meridians(水經) and foot Meridians(足經), Yang Meridians(陽經) and Eum Meridians(陰經). The circulation of Defensive Gi(衛氣) is that if going out from Eum part(陰分) into Yang part(陽分), is rounding on the Yang Meridians, if going out from Yang part into Eum part, is rounding on the five Jang(五臟) in order of Kidney(腎)-Heart(心)-Lung(肺)-Liver(肝)-Spleen(脾). Because the process of accumulating the essence Gi has a property of One-way flow, it flows from terminal to the direction of body trunk, has no distinct channel with its immaterial nature. and is concentrated on the lower part to that the five Jang belong.

• 대한한의학원전학회지
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• 제25권2호
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• pp.1-13
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• 2012

Objective : Zhang, Zhongjing(張仲景)'s Sanghanlun(傷寒論) is based on Six-channels system(六經) to classified a disease. But the notion of Six-channels system seems to be a very various angles. For example, Meridian and collateral theory(經絡說), Viscera and Bowels theory(臟腑說), Grade theory(段階說), Surface theory(地面說), Symptoms theory(症候群說), Six-disease theory(六病說), Eight principle pattern theory(八綱說) and all the rest of it. Above all things Meridian and collateral theory was very frequently quoted to explain the Six-channels system(六經). But it's true notion is not restrict to a meridian vessel(經脈). Method : I will try to describe the Sanghanlun's Greater yang disease(太陽病) through the Ke-qin(柯琴)'s Taiyangbingjie(太陽病解), and I would like to point out that the existing perception that Greater yang(太陽) is connected with Bladder meridian(足太陽膀胱經) is wrong. Result : Ke-qin's Taiyangbingjie explained the greater yang disease was connected with Heart(yang within yang), which was located in the top half and the outer layer of the body. In addition to the presence of the diaphragm or lungs are involved with. Conclusion : Practical meaning of greater yang disease is not connect with Bladder meridian, but it is related to the Heart and Lung for maintain the Nutrient and defense circulation (營衛循環).

• 한국전자통신학회논문지
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• 제9권2호
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• pp.231-242
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• 2014

지구 온난화로 인한 급격한 기후 변화로 인해 단위 면적당 작물의 생산성 향상 및 고품질 작물 재배에 관심이 고조되고 있다. 따라서 본 논문에서는 기존의 담액 수경방식이나 인공광원을 이용한 수경재배 방식이 아닌 광원 트래킹 기법을 적용한 양액 순환 방식의 수경재배기 제어 관리 시스템을 제안한다. 제안하는 수경재배기는 일정한 양의 양액과 물을 수로로 흘려보내 순환시키는 형태인 양액 순환 방식과 수경재배기 하단 부분의 작물도 지속적인 광합성 작용이 가능 하도록 피라미드 형태의 다단구조식으로 설계한다. 아울러 광원 트래킹 기법은 기존 2축, 4축 센서 방식이 아닌 태양광의 그림자를 추적하기 위한 중심축 센서 방식의 5축 센서 방식으로 설계한다. 본 논문에서 제안한 수경재배기를 통해 기존 연구에서 소개되지 않은 광원 트래킹 기법은 작물에 지속적인 광합성 작용으로 작물의 생장 속도를 단축시킬 수 있었으며, 피라미드형태의 다단식구조로 상, 하단 구분 없이 모든 작물이 동일한 형태의 생육환경을 제공받을 수 있어 단위 면적당 높은 작물 생산량이 예상된다.

• Archives of Reconstructive Microsurgery
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• 제7권1호
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• pp.54-61
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• 1998

Free vascularized fibular is the most usuful bony donor of the long bone reconstruction in reconstructive microsurgical field. It has many benifits such as very strong strut tubular bone, very reliable vascular anatomy with large vascular diameter with long pedicle, minimal donor site morbity too. In that situations of the huge long bone defects in distal femur or proximal tibia, the defective bony shape and strength of the transplanted fibular bone is not enough if only one strut of the fibula is transfered. The bony circulation of the fibula has two ways, one from nutrient artery via peroneal artery through nutrient foramen which makes endosteal arterial network inside of the fibula, another way is periosteal network through outside encircling vascular network of the bone which distributed in muscle sleeves of the fibular diaphysis. Authors modified free vascularized fibular bone graft with transverse osteotomy is made from the anterolateral aspect of the fibular shaft just distal to entry of the nutrient artery. This produces two vascularized bone struts that may be folded pararell to each other but that remain connected by the periosteum and muscle cuff surrounding the peroneal artery and veins. The proximal strut is vascularized by both a periosteal and endosteal blood supply, whereas the distal strut is vascularized by a periosteal blood supply alone. This procedure can call "doule barrel" free vascularized fibular graft. We performed 7 cases of doule barrel fashined fibular transplantation on distal femur and proximal tibial large defects. Average bone union time takes 7 months from that procedure. There were no significant bone union time differences between both proximal and distal struts. After solid union of the transfered double barrel fibular graft, there were no stress fracture in our series. We can propose double barrel free vascualized fibular graft is usuful method in that cases with very large bone defect on large long bones especially metaphyseal defects.

• 생물환경조절학회지
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• 제18권2호
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• pp.112-118
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• 2009

주요 엽채류 7종의 주년 안정생산을 위한 담액수경 재배 시 양액의 순환주기가 양액의 용존산소 농도, 엽채류의 생육, 그리고 식물영양소의 함량에 미치는 효과를 검토한 결과, 양액을 1일 10분 순환 처리구는 정식 13일 후 용존산소 농도가 급격하게 떨어지고 17일 후에는 2.8mg $L^{-1}$, 20일 후에는 최저 1.5mg $L^{-1}$까지 낮아졌다. 처리 20일 후 7가지 엽채류의 생체중은 1일 10분 처리구에서는 대조구인 10분 순환/110분 정지 처리구에 비해 $0{\sim}24%$ 범위에서 낮아졌으며, 10분 순환/10분 정지 처리구에서는 $-2{\sim}34%$ 증가하였다. 양액의 순환주기가 짧을수록 식물체 엽내 P의 함량이 증가하였으며, 식물체의 C/N율과 비타민 C 함량은 감소하였다. 이상의 결과, 담액수경 엽채류의 안정적인 생육과 식물영영소의 흡수를 위해서 2시간에 10분 정도의 양액 순환 처리가 효율적이었다.