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        검색결과 6

        2.
        2015.03 KCI 등재 구독 인증기관 무료, 개인회원 유료
        Global warming has pressured companies to put a greater emphasis on environment management which allows them to reduce environmental impact and costs of their operations. In Korea, the coal-fired power plants take a large account of electricity generation at 31.7% of the total electricity usage in 2014. Thus, environmental impact of coal-fired power plants is significant. This paper illustrated how to compute environmental impact and costs in electricity generation at a coal-fired power plant using MFCA methodology. Compared to the traditional accounting, an advantage of MFCA is to provide information on electricity generation costs and environmental wastes incurring throughout the production process of electricity. Based on MFCA, the coal-fired power plant was able to reduce production cost of electricity by 52.3%, and environmental wastes by 47.7%. As a result, MFCA seemed to be an effective tool in environmental management for power plants.
        4,000원
        3.
        2018.12 KCI 등재 서비스 종료(열람 제한)
        본 연구는 우리나라의 1990-2014년 시계열 자료를 활용하여 물 효율성, 경제성장, 전력생산 및 이산화탄소 배출 간의 장·단기 인과관계를 실증적 으로 분석하였다. 기존 연구들이 경제성장, 이산화탄소 배출 및 전력 및 에너지에 국한되어 분석을 한 반면 본 연구는 기존 변수들과 더불어 물 효율성과의 관계를 설명하였다는 기여를 가지고 있다. 실증분석결과를 살펴보면, 네 변수들은 단기조정관계를 통해 장기적으로 균형상태에 도달한다는 것과 변수들 간의 인과관계에서 이산화탄소 배출과 경제성장은 물 효율성의 원인이 되고 이산화탄소 배출과 경제성장 및 물 효율성은 전력생산의 원인이 된다는 사실을 발견하였다. 또한 물 효율성에 대한 장기 영향계수 추정결과를 통해 전력생산의 증가와 경제성장 및 이산화탄소 배출의 감소는 물 효율성을 증가시키며, 일정 수준 이상의 경제성장은 물 효율성의 증가속도를 감소시킨다는 경제성장과 물 효율성의 역U자형 관계를 확인하였다.
        4.
        2014.03 KCI 등재 서비스 종료(열람 제한)
        This research performed physico-chemical analysis of MSW(municipal solid waste) for design and operation ofgasification generation system. The MSW sample was analyzed by proximate, ultimate, heat value method and sampledeach residential type classified apartment, house, urban and rural in by seasonal generation According to statistics of 2010MSW generation in Korea, On average, Namwon generated about 101.4 ton of trash and recycled almost 57.5 ton ofthis material per day, equivalent to a 56.7 percent recycling rate. It was recycled 0.73 kilograms out of individual wastegeneration of 1.29 kilograms per person per day. In 2011, On average, Namwon generated about 46.7 ton without recycledmaterial per day, and individual generation was 0.60 kilograms. It was virtually identical with statistics data in 2010. Inthe physico-chemical analysis results, it was composed of 84.1 percent of combustible and 15.9 percent of Non-combustible. On average, heat value was 2,529kcal per kilogram in condition of LHV and wet. The MSW sample wasincluded 32.0 percent of moisture, 21.9 percent of ash, 26.8 percent of carbon, 14.4 percent of oxygen, 3.7 percent ofhydrogen and 1.3 percent of others. Estimate of technical potential energy of MSW was 1,278 toe per year, equivalentto a 33.3 percent of total potential energy.
        5.
        2011.05 KCI 등재 서비스 종료(열람 제한)
        Sediment cell is renewable energy which produces electric energy using immanent ingredients or reducing power of marine sediment as natural resources. Also the cell has an advantage that environmental pollution can be reduced through conversion of organic and inorganic contaminants into inert matter with generation of the energy. In this paper, we compared characteristics of electricity generation of the two different sediment cells, and investigated the regeneration effect of the sediment cells with manipulation of the sediment such as mixing and re-positioning. The results showed that 14.1 W/m2 of power was obtained with the aluminum electrode, and the mixing of the sediment could increase the power by 4 W/m2 compared to the control. Also, mixing the sediment has kept electricity for 4 weeks at a relatively constant level, which implied ‘fuel regeneration effect'. Meanwhile, the sediment cell was proved to be effective in reduction of COD, which was up to 28.6%.
        6.
        2010.08 KCI 등재 서비스 종료(열람 제한)
        Sediment works as a resource for electric cells. This paper was designed in order to verify how sediment cells work with anodic material such as metal and carbon fiber. As known quite well, sediment under sea, rivers or streams provides a furbished environment for generating electrons via some electron transfer mechanism within specific microbial population or corrosive oxidation on the metal surfaces in the presence of oxygen or water molecules. We experimented with one type of sediment cell using different anodic material so as to attain prolonged, maximum electric power. Iron, Zinc, aluminum, copper, zinc/copper, and graphite felt were tested for anodes. Also, combined type of anodes-metal embedded in the graphite fiber matrix-was experimented for better performances. The results show that the combined type of anodes exhibited sustainable electricity production for ca. 600 h with max. 0.57 W/㎡ Al/Graphite. Meanwhile, graphite-only electrodes produced max. 0.11 W/㎡ along with quite stationary electric output, and for a zinc electrode, in which the electricity generated was not stable with time, therefore resulting in relatively sharp drop in that after 100 h or so, the maximum power density was 0.64 W/㎡. It was observed that the corrosive reaction rates in the metal electrodes might be varied, so that strength and stability in the electric performances(voltage and current density) could be affected by them. In addition to that, COD(chemical oxygen demand) of the sediment of the cell system was reduced by 17.5∼36.7% in 600 h, which implied that the organic matter in the sediment would be partially converted into non-COD substances, that is, would suggest a way for decontamination of the aged, anaerobic sediment as well. The pH reduction for all electrodes could be a sign of organic acid production due to complicated chemical changes in the sediment.