• 물과 미래
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• 제29권4호
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• pp.187-198
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• 1996

난류전단 흐름에서의 비정상 수평 선오염원의 확산에 관한 수치모형을 개발하였다. 계산기법으로는 비정상 이송확산 방정식을 종방향 이송 및 연직방향 확산으로 분리하고, 이들 방정식을 방시간 간격에 대하여 번갈아 계산하는 단계분리 유한차분기법을 사용하였다. 종방향 이송방정식에 대해서는 Holly-Preissmann 기법을, 연직방향 확산방정식에 대해서는 Crank-Nicholson 기법을 각각 적용하였다. 개발된 모형을 난류전단 흐름에서의 정상 수평 선오염원의 확산 문제에 적용하여 계산결과를 반해석해와 비교함으로써 모형을 검증하였다. 또한 난류전단 흐름내로 순간적으로 방류된 면오염원의 확산문제에 계산모형을 적용하였다. 마찰계수에 대한 민감도 분석 결과, 동일한 무차원 시각에서의 혼합 정도는 마찰계수에 관계없이 거의 일정한 것으로 나타났다. 또한 동일한 정도의 혼합상태에 도달하는 데 소요되는 유하거리는 마찰계수의 제곱근에 반비례함을 알 수 있었다.

• Journal of the korean society of oceanography
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• 제37권3호
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• pp.125-133
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• 2002

Water and salt budgets in the Yellow Sea and Bohai are analyzed based on the historical data and CTD data collected recently using box models. The amounts of volume transport and of water exchange across the boundary between the Yellow and East China Seas are estimated to be 2,330-2,840 $\textrm{km}^3$/yr and 109-133 $\textrm{km}^3$/yr, respectively, from the one-layer box model. Corresponding water residence time is 5-6 years. In the Bohai, water residence time is twice as long as that in the Yellow Sea, suggesting that the Yellow Sea and Bohai cannot be considered as a single system in the view of water and salt budgets. The results indicate that water and salt budgets in the Yellow Sea depend almost only on the water exchange between the Yellow and East China Seas. The computation with the coupled two-layer model shows that water residence time is slightly decreased to 4-5 years for the Yellow Sea. In order to reduce uncertainties for the budgeting results the amount of the discharge from the Changjiang that enters into the Yellow Sea, the vertical advection and vertical mixing fluxes across the layer interface have to be quantified. The decreasing trend of the annual Yellow River outflow is likely to result that water residence time is much longer than the current state, especially for the Bohai. The completion of the Three Gorges dam on the Changjiang may be change the water and salt budgets in the Yellow Sea. It is expected that cutting back the discharge from the Changjiang by 10% through the dam would increase water residence time by about 10%.

• 한국환경과학회지
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• 제14권11호
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• pp.1063-1069
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• 2005

2004년 12월 2일부터 8일까지 한국 남해의 표층 부유물질의 분포를 초겨울의 해황과 관련하여 조사하였다. 쓰시마와 제주도를 잇는 지선을 중심으로 전선이 형성되었으며, 이 전선을 중심으로 한국 남해의 연안수와 외양의 쓰시마난류수로 구분되었다. 연안역은 표층에서 저층까지 거의 균일한 수괴 분포를 보였으며, 외양은 성층이 형성되어 있었다. 그리고 부유물질은 연직혼합된 연안역에서는 5.0-6.5 mg/l였으며, 성층이 형성된 외양역은 4.5-5.0 mg/1의 분포를 나타내었다. 초겨울 한국 남해는 표면 냉각 효과와 바람에 의해서 저층의 부유물질이 충분히 재부유할 수 있는 환경이었음을 나타내고 있었다. 또한 관측 기간동안 비록 조류가 비교적 약한 소조기 이었음에도 불구하고 열플럭스에 의한 냉각효과와 바람에 의한 혼합 효과가 강하여 표층과 저층이 혼합하기에 용이하였음을 나타내었다. 이에 따라 수심이 얕은 연안역에서는 저층 퇴적물의 재부유에 의해서 부유 물질이 증가될 수 있음을 시사하고 있었다.

• 대기
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• 제17권1호
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• pp.69-86
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• 2007

The characteristics of the dual-Doppler wind retrieval method based on a three dimensional variational (3DVAR) conception were investigated from the following four points of view; the sensitivity of the number of iteration, the effect of the weak constraint term, the effect of the smoothness term, and the sensitivity of the error mixing ratio of the radial velocities. In the experiment, the radial velocities relative to the Gosan and Jindo radar sites of the Korea Meteorological Administration (KMA) were calculated from the forecasting of the WRF (Weather Research and Forecast; Skamarock, 2004) model at 1330 UTC 30 June 2006, which is the one and half hour forecast from the initial time, 1200 UTC on that day. The results showed that the retrieval performance of the horizontal wind field was robust, but that of the vertical wind was sensitive to the external conditions, such as iteration number and the on/off of the weak constraint term. The sensitivity of error mixing ratio was so large that even the horizontal wind retrieval efficiency was reduced a lot. But the sensitivity of the smooth term was not so large. When we applied this method to the real mesoscale convective system (MCS) between the Gosan and Jindo radar pair at 1430 UTC 30 June 2006, the wind structure of the convective cells in the MCS was consistently retrieved relative to the reflectivity factor structure. By comparing the vertical wind structure of this case with that of 10 minutes after, 1440 UTC 30 June 2006, we got the physical consistency of our method.

• Ocean Science Journal
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• 제41권3호
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• pp.125-137
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• 2006

Nutrients, chlorophyll-a, particulate organic carbon (POC), and environmental conditions were extensively investigated in the northern East China Sea (ECS) near Cheju Island during three seasonal cruises from 2003 to 2005. In spring and autumn, relatively high concentrations of nitrate ($2.6{\sim}12.4\;{\mu}mol\;kg^{-1}$) and phosphate ($0.17{\sim}0.61\;{\mu}mol\;kg^{-1}$) were observed in the surface waters in the western part of the study area because of the large supply of nutrients from deep waters by vertical mixing. The surface concentrations of nitrate and phosphate in summer were much lower than those in spring and autumn, which is ascribed to a reduced nutrient supply from the deep waters in summer because of surface layer stratification. While previous studies indicate that upwellings of the Kuroshio Current and the Changjiang (Yangtze River) are main sources of nutrients in the ECS, these two inputs seem not to have contributed significantly to the build-up of nutrients in the northern ECS during the time of this study. The lower nitrate:phosphate (N:P) ratio in the surface waters and the positive correlation between the surface N:P ratio and nitrate concentration indicate that nitrate acts as a main nutrient limiting phytoplankton growth in the northern ECS, contrary to previous reports of phosphate-limited phytoplankton growth in the ECS. This difference arises because most surface water nutrients are supplied by vertical mixing from deep waters with low N:P ratios and are not directly influenced by the Changjiang, which has a high N:P ratio. Surface chlorophyll-a levels showed large seasonal variation, with high concentrations ($0.38{\sim}4.14\;mg\;m^{-3}$) in spring and autumn and low concentrations ($0.22{\sim}1.05\;mg\;m^{-3}$) in summer. The surface distribution of chlorophyll-a coincided fairly well with that of nitrate in the northern ECS, implying that nitrate is an important nutrient controlling phytoplankton biomass. The POC:chlorophyll-a ratio was $4{\sim}6$ times higher in summer than in spring and autumn, presumably because of the high summer phytoplankton death rate caused by nutrient depletion in the surface waters.

• 해양환경안전학회지
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• 제20권5호
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• pp.474-485
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• 2014

한국 남동해역 간절곶 주변 연안 20개 정점에서 2011년 1월, 4월, 8월, 11월에 조사한 수온 및 염분의 구조와 시공간적 변동 특성을 살펴보았다. 수온은 4월이 가장 낮고, 8월에 가장 높았으며, 염분은 1, 4월이 높고, 회야강의 영향으로 8월에 가장 낮았다. 수온 염분은 1, 4월 해면냉각으로 전 수심이 균일하였고 8월 하천수 유출에 의한 성층과 저층냉수 출현, 11월 표, 저층간 연직혼합에 의한 수온 염분의 균일화 구조를 보였다. 간절곶 주변은 지형적 용승에 의한 난류혼합으로 연중 낮은 수온과 높은 염분을 나타냈다. 표층수온은 간절곶을 중심으로 1~2일의 시간차를 가지고 변하였다. 수온은 내부조석파와 해저마찰, 비선형 천해조석 및 하천수 영향으로 해역에 따라 1/4~1.4일의 다양한 탁월주기 변동을 나타냈다. 수온변동은 간절곶 주변이 수층 간 동시성이 가장 컸고 회야강 주변에서 가장 작았다. 동 해역을 수온 염분구조와 그 시공간적 변동특성으로 볼 때, 간절곶 남쪽, 간절곶, 간절곶 북쪽이 각기 특징적 형태를 나타냄을 알 수 있었다.

• 대한공간정보학회지
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• 제5권1호
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• pp.57-70
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• 1997

전례적인 천문측량방법으로 연직선편차나 천문좌표를 결정하기 위해서는 별을 관측해야 하며 기상조건, 주변환경, 관측시간 및 측정기기 취급의 어려움 등 많은 제약조건이 수반되므로 좀더 효율적인 측정방법이 요구되고 있다. 본 연구에서는 WGS84좌표와 정표고를 이용하여 연직선 편차, 천문경도, 천문위도 및 천문방위각을 산정할 수 있는 프로그램을 구성하고 국내에 있는 10개의 천문점과 인접한 측점들에 대한 GPS 관측으로부터 천문성과를 산출하고 전통적인 천문측량방식 및 최신의 지구중력장모델(EGM96)에 의한 결과와도 비교 검토하므로서 GPS에 의한 연직선편차와 천문좌표의 산정법을 제시한 것이다.

• 한국해양학회지
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• 제29권1호
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• pp.50-63
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• 1994

두 가지의 서로 다른 난류 변수화를 삼차원적이고 시간의존적인 연안해역의 모델 실험으로 수행하였다. 난류 변수화 중의 하나는 일정한 와동복합화 한 것, C1이고 다 른 하나는 층화 의존적인 와동혼합화, C2이다. C2를 이용한 유체흐름은 강한 경압적 흐름이며 담수와 염수의 수직적인 혼합을 제한하고 있다. 하구언으로부터 방출되는 유 출류는 C2의 경우가 C1의 경우보다 훨씬 더 관성적이며 강한 플륨(plume) 전선을 형성 한다. C에서는 강한 유출류로 인하여 초림계적인 유체흐름의 상태, 즉 표층류의 유출 소도가 경압적 위상속도를 능가하는 상황이 하구언의 외해쪽에 존재할 수 있다. 담수 영역에서 의 유체의 조율과정은 C1의 경우와 C2의 경우가 상당이 바른 바, C에서 의 유체의 흐름은 강한 경압적인 특성을 보여준다.

• 환경생물
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• 제23권2호
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• pp.93-97
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• 2005

Zooplankton dynamics were investigated based on samples collected monthly during the period between November 1998 and October 1999 at 15 stations in Gwangyang and Sachon Bay. Zooplankters were quantitatively collected with horizontal towing through the surface and oblique hauling from the bottom to surface at each station, simultaneously. A total of 88 taxa of zooplankton were distributed and 60 taxa were identified to species. Copepods showed the prosperity in species number of 52 species. Number of taxa occurred in samples hauled obliquely always showed $2\~5$ more species than those captured in the surface except for stations near the Namhae bridge. In waters near Namhae bridge, fast current seemed to mix waters vertically. Seasonally these differences were more distinct in the spring and summer than those in other seasons possibly due to the stratification in warmer seasons. In quantitative aspects, differences between two layers seemed to be obscure. Spatial and temporal variations in species diversity of copepods showed more prosperity in pelagic realm than those in the surface. Our collection carrying out in day time might be one of the important reason to cause these differences in zooplankton dynamics between two layers.

• 한국대기환경학회지
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• 제21권6호
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• pp.689-697
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• 2005

Hydrogen peroxide is a reservoir of OH radical which is the powerful oxidant in the atmosphere. Therefore, the status of the oxidizing atmosphere could be reflected on the concentration of $H_{2}O_{2}$. In this study, the distribution of $H_{2}O_{2}$ was determined during the intensive aircraft measurements over the Yellow sea in March, December 2002, April, November 2003 and March, October 2004. Flights covered from $124^{circ}E\;to\;129^{circ}E\;and\;35^{circ}N\;to\;37^{circ}N$, and extending to 3,000 m. The flight patterns were set properly to assess the altitudinal and longitudinal distribution for $H_{2}O_{2}$. $H_{2}O_{2}$ was extracted onto aqueous solution using a continuously flowing glass coil and analyzed by a high performance liquid chromatography (HPLC) accompanied with a fluorescence detector using postcolumn enzyme derivatization. Mixing ratios of $O_{3},\;NO_{x}\;and\;SO_{2}$ were measured in real time by commercial analysis instruments. Along the heights, the maximum concentration of $H_{2}O_{2}$ appeared around 1,500 m then gradually decreased with increasing altitude. The vertical behavior of ozone showed the similar trend to $H_{2}O_{2}$. The mean mixing ratio of $NO_{x}$ was about 2 ppbv and not showed clear vertical distribution patterns. The mean value of was the same as $NO_{x}$ however $SO_{2}$ appeared extreme concentration in low altitude. $H_{2}O_{2}\;and\;O_{3}$ showed even longitudinal distribution however $NO_{x}$ mixing ratio in land ($127^{circ}E$) was much higher than over the sea. $SO_{2}$ rather decreased with increasing longitude. $H_{2}O_{2}$ was in inverse proportion to $NO_{x}$ in spring and summer and $SO_{2}$ in spring, which indicated its significant role to NO and $SO_{2}$ oxidation pathways.