• 한국지반공학회:학술대회논문집
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• 한국지반공학회 2002년도 가을 학술발표회 논문집
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• pp.553-560
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• 2002

The improvement effect of soft ground is estimated by unconfined strength mainly. The unconfined strength of solidification agent treated soil is likely to vary with ununiformed mixing ratio and water content change of in-situ ground place by place. So, it is unreasonable to apply a solidification agent mixing ratio obtained from laboratory test results on all over the soft ground. In this study, it was analysed how the unconfined strength would be effected by the water content of soft ground. For this study, a series of unconfined compressive tests are peformed on various water content soil samples. The test results showed that the strength was fallen to 30∼80% by two times increase of water content approximately, This means that strength of solidification agent treated soil is influenced greatly by water content of raw soft ground and mixing ratio of solidification agent. It was suggested that the method how to decide the mixing ratio with soft ground water content.

• 한국지하수토양환경학회지:지하수토양환경
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• 제11권6호
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• pp.28-34
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• 2006

자갈, 모래, 실트 및 점토의 입도분포가 다른 3종류의 토양시료(자갈모래/실트점토의 비율 : S-1 토양 24.5, S-2 토양 4.48 및 S-3 토양 0.4)에서 염소이온($C^{-1}$)을 이용한 실내주상실험이 수행되었다. 실내주상실험의 결과를 이용하여 3종류 토양의 입도와 수리분산기작의 상관성이 연구되었다. 실내주상실험에 의한 시간에 따른 염소이온의 농도이력은 가우시안 함수가 적합하였으며, 염소이온의 상대농도가 1.0으로 수렴하는데 경과된 시간은 S-1 토양에서 0.7시간, S-2 토양에서 6.3시간 및 S-3 토양에서는 389시간 이었다. 토양종류에 따른 농도이력곡선 함수에 의해 평균선형유속, 종분산계수 및 종분산지수가 산정되었다. 종분산계수는 S-1 토양에서 $1.20{\times}10^{-4}\;m^2/sec$, S-2 토양에서 $8.87{\times}10^{-7}m^2/sec$, S-3 토양에서는 $1.94{\times}10^{-9}\;m^2/sec$로 산정되었다. 염소이온의 분자확산계수와 토양평균입경에 의해 산정된 페클릿수는 S-1 토양에서 $2.59{\times}10^2$, S-2 토양에서 $6.27{\times}10^0$, S-3 토양에서는 $1.35{\times}10^{-4}$이었다. S-1 토양에서는 역학적인 분산이 지배적이며, S-3 토양에서는 분자확산이 지배적인 것으로 나타났다. S-2 토양에서는 역학적인 분산과 분자확산이 동시에 발생하지만, 역학적인 분산이 우세하였다. Bijeljic et al.(2004)에 의해 보고된 페클릿수 대 $D_L/D_m$의 그래프에 본 연구에서 산정된 값들을 도시하여 비교 분석한 결과, S-1 및 S-2 토양시료는 페클릿수에 대한 $D_L/D_m$의 값이 2.0 order 이상 높게 나타났으며, S-3 토양시료는 페클릿수가 $1.35{\times}10^{-4}$으로 매우 낮아 그래프에 표시되지 않았다.

• 현장농수산연구지
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• 제10권1호
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• pp.29-41
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• 2008

This research was conducted to develop a technology transfer and farmer's extension of newly released technology of Bokto seeding method for crop and vegetable production based on the theory of Asian and Pacific Center for Transfer of Technology(APCTT). This technology has recently transferred to not only Korea but also other countries like North Korea, China, Japan, Taiwan, Russia and Africa(Cameroon, Sudan and South Africa) since 2005. It has known as a highly reduction of production cost in terms of labors, chemical fertilizer and pesticides as well as environmental friendly due to a deep and side banded placement of chemical fertilizer at basal application. In addition this technology was proven to a precision farming on sowing depth and mechanism of chemical application method and also highly resistant against disasters like typhoon, flooding, low temperature, drought and lodging due to silicate application. It has improved a constraints such as a poor seedling establishment, weed occurrence, lodging, low yield and poor grain and eating quality in the previous direct seeding methods but still have a problem in occurrence of weedy rice and ununiformed operation of wet or flooded soil condition. Also this technology has a limit in marketing and A/S system. Based on a theory of APCTT evaluation and analysis this technology may be more concentrated on establishment of a special cooperation team among researcher and scientists, extension workers, industry sections and governmental sectors in order to rapidly transfer this technology to farmer's field. Also there will be needed to operate a web site for this newly released technology to inform and exchange an idea, experiences and newly improved information. A feed back system might be operated in this technology as well to improve a technology under way on users' operation. Also user's manual will be internationally released and provided for farmer's instruction and training at field site.