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Wonseok Kim(김원석),Sungmin Park(박성민),Kihong Kim(김기홍),Gun Yong Sung(성건용),Sung Jae Kim(김성재) 대한기계학회 2015 대한기계학회 춘추학술대회 Vol.2015 No.11
This paper reported a rigorous experimental analysis of ion concentration distributions near a nanoporous membrane in a micro/nanofluidic platform. The distribution was highly polarized due to ion concentration polarization (ICP) phenomenon. While previous studies had reported most of co- and counter-ions were rejected from ICP layer, we showed that, for the first time, most of cations were transported through a cathodic side and anions were consumed by electrode reactions. From this complete picture, we discretionarily collected samples from (1) the brine stream for inkdesalter without the loss of ink molecules, (2) the purified stream for recycling a used dialysate, or (3) the buffer stream for collecting small cationic species.
목질계 Biomass로부터 강산 당화 공정에 의한 Bioethanol 생산 공정의 물질 및 열수지
김희영(Hee-young Kim),이의수(Eui Soo Lee),김원석(Wonseok Kim),서동진(Dong Jin Suh),안병성(Byoung Sung Ahn) 한국청정기술학회 2011 청정기술 Vol.17 No.2
연구에서는 바이오에탄올 생산을 위한 목질계 바이오매스의 전처리, 당화, 당/산 분리, 발효, 정제에 이르는 전 공정을 조합하고, 상용공정모사기(PRO/II)를 사용하여 공정모사를 수행하였다. 주요 공정으로 강산에 의한 전처리 및 당화, SMB(simulated moving bed)를 사용한 당/산 분리, 그리고 증류 및 투과증발법(Pervaporation)을 이용한 에탄올 탈수 공정을 사용하였다. 열회수 공정을 이용하여 전 공정의 에너지 소비가 최소화 되도록 하고 강산당화공정에 의한 바이오에탄올 생산 공정의 물질수지 및 열 수지를 확인하였다. 공정모사 결과, 1 kg의 에탄올을 생산하는데 필요한 바이오매스는 4.07 kg, 소요된 열량은 3,572 kcal로 계산되었다. 기존 묽은 산 당화공정(SRI 자료)에 비해 26%의 수율 증가와 30% 정도의 에너지 절감이 가능할 것으로 예상되었다. 이러한 수율을 얻기 위해서는 강산당화공정에 의한 전처리 및 당화공정에서 셀룰로오스 및 헤미셀룰로오스의 전환율이 90% 정도에 이르러야한다. 또한 5탄당 발효공정이 개발되어야 한다. 효율적 에너지 절감을 위해서는 SMB 공정에서 분리된 황산수용액의 농도가 20% 이상되어야 하며, SMB 공정에 의한 당/산분리 공정이 실용화되어야 강산당화공정에 의한 목질계 바이오에탄올 생산공정이 상용화될 것이다. The process for bioethanol production from lignocellulosic biomass was studied through process simulation using PRO/II. Process integration was conducted with concentrated acid pretreatment, hydrolysis process, SMB (simulated moving bed chromatography) process and pervaporation process. Energy consumption could be minimized by the heat recovery process. In addition, material and energy balance were calculated based on the results from the simulation and literature data. A net production yield of 4.07 kg-biomass and energy consumption value of 3,572 kcal per 1 kg ethanol were calculated, which is indicating that 26% yield increase and 30% energy saving compared to the bioethanol production process with dilute-acid hydrolysis (SRI report). In order to make it possible, sugar conversion yield of cellulose and hemi-cellulose is to be reached up to 90% and fermentation of xylose needs to be developed. In order to reduce the energy consumption up to 30%, the concentration of acid solution after being separated by SMB should exceed 20%. If acid/sugar separation by SMB process is to be practical, the bioethanol process designed in this study can be commercially feasible.
이성명(Lee, Sungmyung),김철환(Kim, Cheolhan),유근종(Yoo, Gunjong),김원석(Kim, Wonseok) 한국신재생에너지학회 2011 한국신재생에너지학회 학술대회논문집 Vol.2011 No.11
Flow with suction to water turbine must be in stable state at small hydraulic power plant. But because of water level fluctuation and water gate effect according to irregular supply of cooling water, it would happen to produce bubble and vortex and finally lead to problems in power-plant system. With utilizing the concept design of double size gate, surface water overflowed the overhead of gate for stable flow at suction. We developed the overflow condition and analyzed the design factor with existed one such as water level(overflow amount) and overhead of water gate(overflow figure). Flow test and CFD simulation say that flow have stable state around suction and 20% of wave reduction effect at surface layer after surface water overflow.