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홍기훈,박영안,이광우,Hong, Gi Hoon,Park, Yong Ahn,Lee, Kwang Woo 한국해양학회 1983 韓國海洋學會誌 Vol.18 No.2
Sediments were collected from eight stations in JJJJinhae Bay and heavy metals were fractionated into the adsoibed reducible, oxidizable and residual fractions. Cd, Cu, Pb and Zn in each fraction were determined by atomic absorption spectriphotmetry. Cd was shown to be mainly in the adsorbed form, Cu in the oxidizable and resedual fractions, and Pb and Zn mainly in the seducible fractions. The total concentrations of Cu, Pb and Zn in sediments decreased gradually with increasing distance from the heak of the bay, and the relationship of linear segression was obtained.
홍기훈,김경태,배세진,김석현,이수형,HONG, GI HOON,KIM, KYUNG TAE,PAE, SE JIN,KIM, SUK HYUN,LEE, SOO HYUNG The Korean Society of Oceanography 1991 韓國海洋學會誌 Vol.26 No.3
The annual cycles of plant major nutrients and dissolved oxygen in a nutrients-rich semi-enclosed coastal inlet, chinhae Bay, of the southern coast of the Korean Peninsula are first presented. The water column of the bay is stratified during summer (April-late September) and well0mixed during winter (October-March). During the summer stratification period, dissolved oxygen contents exceed 400uM in the surface but diminish to less than 50uM in the near bottom waters, which often results in an anoxic environment in the inner part of Chinhae Bay. After the breakdown of the stratification in October, dissolved oxygen concentration remains undersaturated until February. The evidence of allochthonous input of N-nutrients throughout the year is readily seen in the water column: however. crude budget calculations show that the nutrients are efficiently utilized within the bay ecosystem, and that export of the nutrients from the bay to the shelf must be negligible. There is no sign of the enrichment of the nutrients in the water column. The eutrophication phenomenon sensu stricto is not observed in chinhae Bay. Using the standing stock of dissolved oxygen and estimation of the oxygen fluxes across the air-sea boundary, a benthic oxygen respiration rate during winter is estimated conservatively at 21-24 mmol Cm/SUP -2/d/SUP -1/. this oxygen respiration rate accounts for about 20% of the total phytoplankton production in winter.
LED가 결합된 야간풍력발전 활용을 포함한 해상환경 바이오매스 생산시스템의 최적 설계
홍기훈(Gi Hoon Hong),조성현(Sunghyun Cho),강훈(Hoon Kang),박정필(Jeongpil Park),김태옥(Tae-Ok Kim),신동일(Dongil Shin) 한국가스학회 2015 한국가스학회지 Vol.19 No.2
최근 화석연료의 사용증가에 따라 대량으로 배출되는 이산화탄소는 지구 온난화 현상을 일으키는 온실가스 중 하나로 지정되어 국제협약을 통하여 온실가스의 배출을 저감하도록 규제하고 있다. 본 연구에서는 이산화탄소를 저감하는 방법 중의 하나로, 3세대 바이오매스 생산시스템인 해조류를 활용한, 지속가능한 신 개념의 FPSO로서 해상환경 바이오매스 생산시스템의 최적구조를 설계하였다. 이를 위해 격자로 구조물을 설치한 후 해조류의 주변에 LED 조명을 비추어 성장을 최대화 시키는 시스템을 구상하였다. 그리고 기존 해조류의 성장자료를 통하여 해조류의 성장 모델을 만든 후 풍력발전기와 LED 조명을 포함하는 바이오매스 생산시스템을 모델링하여 최적화 도구인 GAMS 프로그램을 이용하여 본 시스템이 환경적 관점뿐만 아니라 경제성 측면에서도 타당성을 가질 수 있는 최적구조를 설계하였다. 또한 기존의 해상환경 바이오매스 생산시스템과 비교하여 최적구조를 제안하였다. Carbon dioxide was designated as one of greenhouse gases that cause global warming. Among various ways to solve the CO<SUB>2</SUB> emission issue, the 3rd-generation biomass (algae) production is considered as a viable method to reduce CO<SUB>2</SUB> in the atmosphere. In this research, we propose a design of an innovative sustainable production system by utilizing the 3rd generation biomass in the environment of floating production storage and offloading (FPSO). Existing biomass production systems depend on the solar energy and they cannot continue producing biomass at night. Electricity produced from offshore wind farms also need an efficient way to store the energy through energy storage system (ESS) or deliver it real-time through power grid, both requiring heavy investment of capital. Thus, we design an offshore grid structure harnessing LED lights to supply the necessary light energy, by using the electricity produced from the wind farm, resulting in the maximized production of biomass and efficient use of wind farm energy. The final design integrates the biomass production system enhanced by LED lights with a wind power generation. The suggested NLP model for the optimal design, implemented in GAMS, would be useful for designing improved offshore biomass production systems combined with the wind farm.