• 산업기술연구
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• 제26권A호
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• pp.3-15
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• 2006

To determine the optimum ventilation systems during long tunnel excavation, the velocity vector profile and the contaminant's distribution at working place are studied using 2-D, 3-D numerical analysis. The main results can be summarized as follow; In case of long tunnels, blower-exhaust-mixture types which enable to use soft blast ducts is most appropriate in terms of ventilation and economical efficiency. Of the same ventilation types, ventilation efficiency has a difference according to blast ducts and the distance between fan and working place. The 3-D numerical result shows that arranging blower and exhaust ducts in the right and left corners of the tunnel respectively is effective to discharge contaminant. The result of the real measurement shows that CO concentration can be reduced to below 50 ppm, which is regulation value, as 16-minutes fan operation goes on.

• 화약ㆍ발파
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• 제24권2호
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• pp.9-22
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• 2006

길이가 대단히 짧은 터널을 제외하고는 터널을 시공하는 경우 일반적으로 인위적인 환기시스템이 필요하다. 특히 장대터널의 경우 굴착 진행에 따라 적절한 환기시스템을 조합해서 사용하는 것이 효과적이다. 터널 연장이 4,580m인 능동터널은 본래 송기식을 사용하는 것으로 설계를 했지만, 굴착이 진행됨에 따라 송기식만으로 환기하는 데에는 한계가 예상되어 별도의 방식 검토를 수행하였다. 굴착중 터널의 소요환기량을 산정하고 이 소요환기량과 선택가능한 여러 가지 경우의 환기조합방식을 사례볕로 구성한 뒤 환기량과 유동성을 해석하고 비교함으로써 경제적으로도 우수한 최적의 환기조합안을 도출하였다. 환기시스템을 결정하기 위하여 각 환기시스템에 대한 경제적 효율성 평가를 수행하였다.

• Agricultural and Biosystems Engineering
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• 제3권2호
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• pp.59-64
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• 2002

Odor generated during composting of livestock manure is mainly due to ammonia emission. Biofiltration is a desirable method to control composting odor. This study was conducted to analyze the efficiency of using fresh compost as a biofilter. A mixture of cattle manure and recycled compost was composted in a bin equipped with a suction-type blower. The exhaust gas was filtered through the fresh compost. Residence time was controlled by the flow rate of exhaust gas and the depth of filtering materials. At the aeration rate of 30 L/min(experiment I), ammonia reduction rate varied from 100% to -15% for biofilter A(residence time 56.5 s) and almost 100% for biofilter B(residence time 113 s). At the aeration rate of 30 L/min, the cumulative ammonia reduction rate was 80.5% for biofilter A and 99.9% for biofilter B. At the aeration rate of 50 L/min(experiment II), the lowest reduction rate showed a negative value of -350% on the 8th and 9th day for biofilter A(residence time 33.9 5), and 50% on the loth day for biofilter B(residence time 67.8s). At the aeration rate of 50 L/min, the cumulative ammonia reduction rate was 82.5% fur biofilter A and 97.4% for biofilter B. Filtering efficiency was influenced by residence time. The moisture content(MC) and total nitrogen(T-N) of the filtering material were increased by absorbing moisture and ammonia included in the exhaust gas, while pH was decreased and total carbon(T-C) remained unchanged during the filtering operation.