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Review on the water-gas shift process for a coal SNG project
김영도(Kim, Youngdo),신용승(Shin, Yongseung) 한국신재생에너지학회 2011 한국신재생에너지학회 학술대회논문집 Vol.2011 No.11
Coal gasification is considered as one of the most prospective technologies in energy field since it can be utilized for various products such as electricity, SNG (Synthetic Natural Gas or Substitute Natural Gas) and other chemical products. Among those products from coal gasification, SNG is emerging as a very lucrative product due to the rising prices of oil and natural gas, especially in Asian countries. The process of SNG production is very similar to the conventional IGCC in that the overall process is highly dependent on the type of gasifier and coal rank. However, there are some differences between SNG production and IGCC, which is that SNG plant requires higher oxygen purity from oxygen plant and more complex gas cleanup processes including water-gas shift reaction and methanation. Water-gas shift reaction is one of the main process in SNG plant because it is a starting point for the latter gas cleanup processes. For the methanation process, syngas is required to have a composition of H₂/CO = 3. This study reviewed various considerations for water-gas shift process in a conceptual design on an early stage like a feasibility study for a real project. The factors that affect the design parameters of water-gas shift reaction include the coal properties, the type of gasifier, the overall thermal efficiency of the plant and so on. Water-gas shift reaction is a relatively proven technology compared to the other processes in SNG plant so that it can reduce technological variability when designing a SNG project.
낙동강 - 남강 합류부 대하천 규모 수리학적 혼합특성 연구
최수인,김동수,김영도,류시완,Choi, Suin,Kim, Dongsu,Kim, Youngdo,Lyu, Siwan 한국수자원학회 2023 한국수자원학회논문집 Vol.56 No.-
하천의 합류부는 본류와 지류가 만나 복잡한 혼합거동을 보이는 지역으로 두 하천이 혼합되지 않은 채 하류로 이동하는 현상이 발생하기도 한다. 하천이 혼합되지 않고 유지되면 하천의 수질 관리에 어려움을 주거나 남강 합류부 인근 취수장(칠서)에서 취수되는 수체의 특성이 모호할 수 있다. 본 연구에서는 드론 영상과 수질 인자 전기전도도, 수리 인자 2차류를 통해 낙동강과 남강 합류부에서의 혼합거동을 면밀하게 분석하였다. 2차류의 분석은 Rozovskii 방법을 기반으로 2중 나선형 구조의 확인이 용이하게 하였다. 연구 결과 만곡의 영향으로 인해 혼합이 방해 받고 있음을 2차류 분포와 전기전도도 분포의 비교 분석을 통해 확인하였으며, 낙동강-남강 합류부 하류의 칠서 정수장은 해당 시기 혼합되지 않은 남강 수체를 취수하고 있음을 확인하였다. The confluence of rivers, where rivers meet, is a place known for complex water mixing dynamics. Sometimes, these rivers flow downstream without mixing. While this non-mixing can pose challenges for water quality management, it also offers the potential for improved water extraction in nearby water intakes (Chilseo). In this study, we analyzed the mixing dynamics at the confluence of the Nakdong River and the Nam River using drone imagery, water quality indicators like Electrical Conductivity, and hydraulic factor Secondary Flow. We found that meandering effects hindered mixing, as shown by the comparison of Secondary Flow and Electrical Conductivity distributions. Additionally, the Chilseo Water Purification Plant downstream of the Nakdong River-Nam River confluence extracted unmixed Nam River water during certain periods.
기울어진 수조에 액적 충돌로 발생한 최대 공동 예측 모델
이예완(Yeawan Lee),김영도(Youngdo Kim),김형수(Hyoungsoo Kim) 한국가시화정보학회 2019 한국가시화정보학회지 Vol.17 No.2
In this study, we show the maximum cavity radius prediction model that a droplet impacts an inclined bath. Surface tensions, viscosities, inclination angles of a bottom substrate, droplet diameters, falling heights of the droplet are varied for the experiment. We experimentally observe that the cavity grows in hemispherical shape like the cavity formed in a deep bath although the depth of the bath is non-uniform due to an inclined bottom substrate. We derive two theoretical models to predict the experimental results of the fully developed cavity. Although each model has error, we observe that qualitatively theoretical model predicts the trend of experiment results well.