본 연구에서는 Water Gas Shift (WGS) 반응이 일어나는 분리막 반응기 (MR) 대상공정에 대해서 동적모사 (dynamic simulation)를 실시하고 시간과 위치에 따른 온도 및 수소 농도 변화 등을 살펴보았다. 모사 결과에 의하면 도입부에서 반경방향으로의 수소 농도, 수소 분압 및 온도차가 가장 컸으며 출구에서 가장 작았다. 또한, 수소분압의 차이가 가장 큰 도입부에서 수소의 flux가 가장 크게 나타나며 출구에서 일산화탄소의 전환률은 0.65였다.

We determined the precise three dimensional WGS84 Coordinates and the sea level height of Seoul Radio Astronomy Observatory (SRAO). In this study, we performed the simultaneous GPS observations at SRAO and Seoul GPS Reference Station(SGRS) of Korea Astronomy Observatory(KAO) for 3.5 hours from 17KST on October 27, 1999. We employed two different antennas, i.e., chokering antenna at SGRS of KAO and L1/L2 compact with groundplane antenna at SRAO. But we employed same type of receivers, i.e., Trimble 4000SSI at both observing places. The observed data were processed by GPSURVEY 2.30 software of Trimble with L1/L2 ION Free technique and broadcasting ephemeris of GPS Satellites because of very short baseline between SGRS of KAO and SRAO. We determined WGS84 latitude, longitude, height and the sea level height of SRAO with 37∘27′15.′6846N±0.′0004,126∘57′19.′0727E±0.′0002,204.89m±0.02m,181.38m±0.17m 37∘27′15.′6846N±0.′0004,126∘57′19.′0727E±0.′0002,204.89m±0.02m,181.38m±0.17m , respectively.

본 연구는 Bessel 측지계에서 WGS-84 측지계로 좌표변환할 경우 발생할 수 있는 우리나라 지형정보의 변동을 고찰한 것이다. 고찰 대상은 우리나라 지형형태와 독도와 일본의 오끼제도 사이의 거리로 하였다. Bessel 측지계에서 WGS-84 측지계로 좌표변환한 결과는 다음과 같다. 1). Mercator 도법에서, 임의로 선정한 정사각형의 우리나라 주변 지형은 고위도에서 축소되면서 부채꼴 모양으로 변형되는 결과를 나타내었다. 2). UTM 도법에서, 우리나라 남동부근 연안의 52S 지역중에서 임의로 선정한 정사각형 지형은 가로가 2m 축소되고, 세로는 1m 축소되었다. 3). Mercator 도법을 이용한 한국의 독도와 일본의 오끼제도 사이의 거리를 비교한 결과 오끼제도가 독도쪽으로 약 25.3m 근접하게 되는 결과를 나타내었다.

Mitochondria are essential organelles of eukaryotic cells and plant cells contain varying numbers of mitochondrial genome sequences. Sizes and shapes of mitochondria differ within a tissue or in the same cells. Previously sequenced complete mitochondrial genome (NC_016118) of Brassica oleracea size was 360,271 bp, where segmental duplication (repeat block) was 141,800 bp. In this study, we resequenced this whole mitochondrial genome by using WGS (whole genome sequencing) and assembled organelles genome method (unpublished). Newly sequenced mitochondrial genome length was 219,975 bp and circle form. A new sequence segment of approximately 4,800 bp was obtained compared to the previous genome sequence without any large repeat block. Newly obtained mitochondria genome sequence was compared with recently reported mitochondria genome sequences of various species (B. oleracea, B. juncea, B. rapa, B. napus and B. carinata) and subspecies (cabbage, cauliflower, brussels sprouts, kohlrabi, broccoli and kale) by PCR using primers specifying different region of genome sequences. PCR analysis results have also confirmed the variation between previous and newly sequenced mitochondrial genome circles form. Thus, the results suggest new B. oleracea mitotype, including evolutionary events such as inheritance, rearrangement, genome compaction, and diversity

Simulated waste-derived synthesis gas has been tested for hydrogen production through water gas shift (WGS) reaction in the temperature range of 240oC ~ 400oC over supported Pt catalysts prepared by an incipient wetness impregnation method. MG30, MgO, ZrO2, Al2O3 and CeO2 were employed as supports for WGS reaction in this study. 1 wt.% Pt/ CeO2 catalyst exhibited the highest CO conversion as well as 100% CO2 selectivity. This is due to easier reducibility of Pt/CeO2 and high oxygen mobility and oxygen storage capacitiy of CeO2. Pt/CeO2 catalyst can be a promising catalyst for WGS reaction from waste-derived synthesis gas.