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고체산화물 연료전지용 디젤 자열개질기의 장기성능에 미치는 H<sub>2</sub>O/C와 O<sub>2/C</sub> 몰 비의 영향
윤상호,강인용,배규종,배중면,Yoon, Sang-Ho,Kang, In-Yong,Bae, Gyu-Jong,Bae, Joong-Myeon 한국전기화학회 2007 한국전기화학회지 Vol.10 No.2
고온형 연료전지인 고체산화물 연료전지(solid oxide fuel cell, SOFC)는 연료에 대한 유연성(fuel flexibility)이 높다. 따라서 높은 에너지 밀도를 가진 디젤을 개질하여 SOFC를 운전하는 것은 효과적인 방법이다. 하지만 디젤이 가지는 특성으로 인해 디젤 자열개질기(autothermal refromer)는 운전 시간에 따라 탄소 침적(carbon deposition) 현상이 발생하여 개질기의 성능이 쉽게 저감된다. 개질기 성능 저감 현상 때문에 개질 가스들 중에 탄화수소 생성량이 많아지며, 이는 SOFC 성능도 저감시킨다. 이러한 현상은 연료극에 공급되는 탄화수소가 야기하는 탄소 침적으로 사료된다. 본 연구에서는 탄화수소가 SOFC에 주는 성능 저감을 확인하였으며, 연료전지 성능 저감을 줄이기 위한 디젤 자열개질기 반응물들의 조건 선정($H_2O/C$와 $O_2/C$의 몰 비)을 통해 디젤 자열 개질기 특성을 살펴보았다. 특히 $H_2O/C=0.8$과 $O_2/C=3$인 디젤 자열개질 반응 조건에서 좋은 개질 성능을 확인할 수 있었다. Solid oxide fuel cell(SOFC) has high fuel flexibility due to its high operating temperatures. Hydrocarbonaceous fuels such as diesel has several advantages such as high energy density and established infrastructure for fuel cell applications. However diesel reforming has technical problems like coke formation in a reactor, which results in catastrophic failure of whole system. Performance degradation of diesel autothermal reforming (ATR) leads to increase of undesirable hydrocarbons at reformed gases and subsequently degrades SOFC performance. In this study, we investigate the degradation of SOFC performance(OCV, open circuit voltage) under hydrocarbon(n-Butane) feeds and characteristics of diesel performing under various ratios of reactants($H_2O/C,\;O_2/C$ molar ratios) for improvement of SOFC performance. Especially we achieved relatively high performance of diesel ATR under $H_2O/C=0.8,\;O_2/C=3$ condition.
안정적인 SOFC 운전을 위한 디젤 개질기 내 미반응 저탄화수소 제거법
윤상호(Yoon, Sang-Ho),배중면(Bae, Joong-Myeon),이상호(Lee, Sang-Ho) 한국신재생에너지학회 2009 한국신재생에너지학회 학술대회논문집 Vol.2009 No.06
In this paper, new concept of the diesel fuel processing is introduced for the stable operation of solid oxide fuel cells (SOFCs). Heavier hydrocarbons than CH₄, such as ethylene, ethane, propane, and etc., induce the carbon deposition on anode of SOFCs. In the reformate of heavy hydrocarbons (diesel, gasoline, kerosene, and JP-8), concentration of ethylene is usually higher than low hydrocarbons such as ethane, propane, and butane. So, removal of low hydrocarbons (over C1-hydrocarbons), especially ethylene, at the reformate gases is important for stable operation of SOFCs. New methodology as named post-reformer is introduced for removing the low hydrocarbons at the reformate gas stream. Catalyst of the NECS-PR4 is selected for post-reforming catalyst because the catalyst of NECS-PR4 shows the high selectivity for removing low hydrocarbons and achieving the high reforming efficiency. The diesel reformer and post-reformer are continuously operated for about 200 hours as integrated mode. The reforming performance is not degraded and low hydrocarbons in the diesel reformate are completely removed.
연료 미립화기를 이용한 디젤 자열개질기 내 탄소침적 억제
윤상호(Yoon, Sang-Ho),강인용(Kang, In-Yong),배중면(Bae, Joong-Myeon) 한국신재생에너지학회 2007 한국신재생에너지학회 학술대회논문집 Vol.2007 No.11
Diesel autothermal reforming has several problems such as carbon deposition in reforming reactor, sulfur poisoning of catalyst, difficulty of aromatics decomposition and mixing problems of reactants(diesel, steam, oxygen). Severe carbon deposition causes the rapid performance degradation of reformer. Carbon deposition is formed from ethylene, carbon precursor. Ethylene was generated at the homogeneous reaction zone of the reactor entrance. This phenomenon is closely linked to the mixing of reactants. In this investigation, we try to minimize the ethylene generation at the reactor entrance atomization technique.
난자공여시술의 결과에 영향을 미치는 임상적 인자에 관한 연구
윤상호 ( Sang Ho Yoon ),김진주 ( Jin Ju Kim ),민응기 ( Eung Gi Min ),김석현 ( Seok Hyun Kim ),최영민 ( Young Min Choi ),김정구 ( Jung Gu Kim ),문신용 ( Shin Yong Moon ) 대한산부인과학회 2008 Obstetrics & Gynecology Science Vol.51 No.9
Objective: Oocyte donation cycle has been a useful model for the assessment of potential factors affecting human pregnancy, such as uterine receptivity or oocyte quality. The purpose of this study was to investigate variable clinical factors affecting the outcomes of oocyte donation cycles. Methods: This study reviewed 109 cycles of 85 women who underwent oocyte donation in SNUH infertility clinic from March 1992 to February 2004. Variable clinical characteristics were compared between pregnant and non-pregnant group. Data was evaluated by student`s t-test, oneway ANOVA, and Chi-square test. Results: Clinical pregnancy rate was 38.5% per cycle and 48.2% per recipient. When pregnant and non-pregnant groups were compared, there was a significant difference in donor age between both groups. (30.2±3.6 vs. 32.1±4.3, P=0.017). On the other hand, there were no significant differences in mean age, BMI, gravidity of recipient, and peak estradiol level of donor. The number of oocytes retrieved, embryos transferred, fertilization rate, and cumulative embryo score were not different between pregnant and non-pregnant group. Among the various donor age groups, clinical pregnancy rate was significantly higher in <30 years group than ≥35 years (50.0% vs 18.2%, P= 0.015). There were no significant differences for both endometrial thickness and pattern in the pregnancy rate during the IVF-ET cycles by ovum donation. Conclusion: The most reliable predictive factor for pregnancy in oocyte donation cycles is the age of oocyte donor. The mid-cycle endometrial thickness and trilaminar patterns are insignificant predictors. The age of recipient and cumulative embryo score are also insignificant factors.
윤상호(Yoon Sang-Ho),무하마드 아야즈(Muhammad Ayaz),김현직(Kim Hyun Jig),이정태(Lee Jung-Tae),홍민영(Hong Min-Young),임은아(Lim Eun-A),임원빈(Lim Won-Bin),라팟오스만(Rafat Hamood Othman Saeed),조상(Zhao Xiang),윤달환(Yoon Dal-Hwan),이철호 대한전자공학회 2019 대한전자공학회 학술대회 Vol.2019 No.11
By developing the method of vacuum infusion construction on based on the boat manufacturing convergence system, which can be obtained for the safety and quality advancement of the boat. Especially, the precise mixing rate of resinoid and curingagent to inject in an inner ship and deck at short time is very important, which are the best fundamental conditions to decide the stronger boat in the water. So, in this paper, we propose the method of the vacuum infusion construction that applicable for the optimal condition to make a strengthen boat bottom by several components. This one can solve the post deformability of the strengthen structure and can control the precise mixing rate of resinoid and curingagent to the resinoid fluidity and flowing rate per time. Under these condition,
디젤 자열개질 가스 내 포함된 C<sub>2</sub>H<sub>4</sub> 제거를 위한 후개질기 촉매 활성 실험
윤상호(Yoon, Sang-Ho),배중면(Bae, Joong-Myeon),이상호(Lee, Sang-Ho) 한국신재생에너지학회 2009 한국신재생에너지학회 학술대회논문집 Vol.2009 No.11
Solid oxide fuel cells (SOFCs), as high-temperature fuel cells, have various advantages. In some merits of SOFCs, high temperature operation can lead to the capability for internal reforming, providing fuel flexibility. SOFCs can directly use CH4 and CO as fuels with sufficient steam feeds. However, hydrocarbons heavier than CH4, such as ethylene, ethane, and propane, induce carbon deposition on the Ni-based anodes of SOFCs. In the case of the ethylene steam reforming reaction on a Ni-based catalyst, the rate of carbon deposition is faster than among other hydrocarbons, even aromatics. In the reformates of heavy hydrocarbons (diesel, gasoline, kerosene and JP-8), the concentration of ethylene is usually higher than other low hydrocarbons such as methane, propane and butane. It is importatnt that ethylene in the reformate is removed for stlable operation of SOFCs. A new methodology, termed post-reforming was introduced for removing low hydrocarbons from the reformate gas stream. In this work, activity tests of some post-reforming catalysts, such as CGO-Ru, CGO-Ni, and CGO-Pt, are investigated. CGO-Pt catalyst is not good for removing ethylene due to low conversion of ethylene and low selectivity of ethylene dehydrogenation. The other hand, CGO-Ru and CGO-Ni catalysts show good ethylene conversion, and CGO-Ni catalyst shows the best reaction selectivity of ethylene dehydrogenation.