http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
매립지반 지하공동구의 수평이동원인에 대한 수치해석적 분석
윤우현 ( Woo Hyun Yoon ),황철성 ( Chul Sung Hwang ) 한국안전학회(구 한국산업안전학회) 2013 한국안전학회지 Vol.28 No.5
Recently reclamation land is largely developed to utilize the land according to economic growth. The soil of landfill is soft, low shear strength, which makes it difficult to use the equipment. A large movement is occurred on the utility tunnel under construction. The inclined land with high water level and underground facilities arc widely distributed and the excess pore water pressure may occur under construction similarly to this study. Some different conditions are made to design result, such as 4m of soil piling near the construction area, heavy rainfall during 2nd excavation that may cause flow liquefaction. To analyze the cause of transverse lateral movement, Three dimensional analysis are performed to four load cases, which is original design condition, flow liquefaction by heavy rainfall, unsymmetric lateral soil pressure, and both of them simultaneously. Then steps of full construction stage, 1st excavation for utility tunnel, construction of utility runnel, 1st refill, piling soil from 1m to 4 m, 2nd excavation for drainage culvert, liquefaction around the utility tunnel, construction of drainage culvert and 2nd refill, are take into account to investigate the cause of movement.
윤우현(Woo-Hyun Yoon),김현갑(Hyun-Kab Kim),이태진(Tae-Jin Lee) 유기성자원학회 2006 유기물자원화 Vol.14 No.1
본 연구는 혐기성 발효를 이용한 수소생산과정에서 pH를 일정하게 유지한 상태에서 안정적인 수소를 생산하기 위한 최적 pH를 찾고자 하였다. 실험결과 pH 6이었을 때 최적의 조건이었으며 이때 수소생산량은 1175.87 mL/L 이고, 이론적 수소 전환율은 22.51 %였다. pH 5는 901.77 mL/L의 수소가 발생되었으며, 수소 전환율은 17.48 %, pH 7은 454.26 mL/L의 수소생산량과 8.74 %의 수소 전환율을 나타내었다. 그리고 pH 7과 8에서는 각각 452.08 mL/L와 82.25 mL/L의 저조한 수소 생산량을 나타내었다. 자당의 혐기성 발효를 통한 유기산 생성에 있어서 pH가 7과 8에서는 propionate가 주로 관찰되었으나 pH가 5와 6인 영역 에서는 butyrate의 생성이 두드러지는 결과가 나타났다. In this study, the optimum condition of pH was investigated on the hydrogen gas production under anaerobic fermentation process. The results of the experiment showed that the optimum condition was observed at pH 6, resulting in 1175.87 mL/L of hydrogen gas production rate and 22.51% theoretical hydrogen conversion ratio. Hydrogen gas production rate and theoretical hydrogen conversion ratio were 901.77 mL/L and 17.48 % respectively at pH 5. At pH 7 and 8, the production rate of hydrogen gas was little low as 82.15 mL/L. Among the organic acids from the sucrose fermentation, propionate was observed as the dominant acid at pH 7 and 8 but butyrate was the dominant at pH 5 and 6.