|
|
|
Search / Korean Journal of Chemical Engineering
|
| Total 39 articles [ 키워드: Tar ] |
| No. |
Article |
| 1 |
Korean Chemical Engineering Research, 61 (2), pp.240-246 (2023)
광촉매 코팅한 모르타르를 이용한 대기 중 NOX의 광화학적 변환
Photochemical Conversion of NOX in Atmosphere by Photocatalyst Coated Mortar
진현, 윤경구, 최하진, et al. |
| 2 |
Korean Chemical Engineering Research, 60 (1), pp.12-19 (2022)
Cathode 개방형 고분자연료전지 스택 내구성 평가
Durability Evaluation of Cathode Open-type Proton Exchange Membrane Fuel Cells Stacks
유동근, 김현석, 오소형, et al. |
| 3 |
Korean Chemical Engineering Research, 59 (3), pp.443-449 (2021)
전분-구연산을 기반으로 한 생분해성 비산방지용 소재의 제조 및 특성 분석
Manufacturing and Characteristics of Biodegradable Materials Based on Starch-Citric Acid for Anti-Particulate Scattering
이지성, 이원규 |
| 4 |
Korean Chemical Engineering Research, 59 (2), pp.232-238 (2021)
Steam Reforming of Toluene Over Ni/Coal Ash Catalysts: Effect of Coal Ash Composition
Jang JY, Oh GU, Ra HW, et al. |
| 5 |
Korean Chemical Engineering Research, 57 (6), pp.874-882 (2019)
미이용 산림바이오매스 및 폐목재의 기포 유동층 Air 가스화 특성 연구
Air Gasification Characteristics of Unused Woody Biomass in a Lab-scale Bubbling Fluidized Bed Gasifier
한시우, 서명원, 박성진, et al. |
| 6 |
Korean Chemical Engineering Research, 57 (3), pp.321-330 (2019)
정보 융합 나노하이브리드 시스템의 이해
A Review on Info-Convergence Nanohybrid System
김문희, 박대환 |
| 7 |
Korean Chemical Engineering Research, 57 (1), pp.142-147 (2019)
Energy Stability Analysis on the Onset of Buoyancy-Driven Convection in a Horizontal Fluid Layer Subject to Evaporative Cooling
Kim MC |
| 8 |
Korean Chemical Engineering Research, 55 (6), pp.807-815 (2017)
파클리탁셀의 잔류 펜탄 제거를 위한 회전증발의 동역학 및 열역학에 관한 연구
Study on Kinetics and Thermodynamics of Rotary Evaporation of Paclitaxel for Removal of Residual Pentane
한장훈, 지성빈, 김예솔, et al. |
| 9 |
Korean Chemical Engineering Research, 55 (5), pp.629-637 (2017)
식료품 분진의 발화 및 폭발 위험성
Hazards of Explosion and Ignition of Foods Dust
한우섭 |
| 10 |
Korean Chemical Engineering Research, 54 (1), pp.44-51 (2016)
반응표면분석법을 이용한 전도성물질의 절연코팅 프로세스의 최적화
Optimization of Process Variables for Insulation Coating of Conductive Particles by Response Surface Methodology
심철호 |
|
|
