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| Total 29 articles [ 키워드: Capture ] |
| No. |
Article |
| 1 |
Korean Chemical Engineering Research, 61 (4), pp.555-560 (2023)
3-메틸아미노프로필아민과 N-메틸-2-피롤리돈을 포함한 저수계 흡수제의 CO2 포집 특성
Absorption Characteristics of Water-Lean Solvent Composed of 3-(Methylamino)propylamine and N-Methyl-2-Pyrrolidone for CO2 Capture
왕슈아이, 홍정현, 유정균, et al. |
| 2 |
Korean Chemical Engineering Research, 59 (1), pp.60-67 (2021)
순환 유동층 보일러와 초초임계 증기 사이클을 이용한 500 MWe급 순산소 화력발전소의 건식 재순환 흐름의 열 교환 및 경제성 분석
Heat Integration and Economic Analysis of Dry Flue Gas Recirculation in a 500 MWe Oxy-coal Circulating Fluidized-bed (CFB) Power Plant with Ultra-supercritical Steam Cycle
김세미, 임영일 |
| 3 |
Korean Chemical Engineering Research, 58 (1), pp.150-162 (2020)
KEPCO-China Huaneng Post-combustion CO2 Capture Pilot Test and Cost Evaluation
Lee JH, Kwak NS, Niu H, et al. |
| 4 |
Korean Chemical Engineering Research, 57 (5), pp.589-595 (2019)
CCU 기술 국내외 연구동향
Brief Review on Carbon Dioxide Capture and Utilization Technology
김학민, 나인욱 |
| 5 |
Korean Chemical Engineering Research, 57 (4), pp.539-546 (2019)
해수 농축수 내 금속 이온 농도에 따른 이산화탄소 전환 생성물의 특성연구
Characteristic of Precipitated Metal Carbonate for Carbon Dioxide Conversion Using Various Concentrations of Simulated Seawater Solution
최은지, 강동우, 유윤성, et al. |
| 6 |
Korean Chemical Engineering Research, 57 (3), pp.400-407 (2019)
100 kWth 급 순환유동층 시스템에서 무연탄 순산소연소 특성 연구
Oxy Combustion Characteristics of Anthracite in a 100 kWth Circulating Fluidized Bed System
문지홍, 조성호, 문태영, et al. |
| 7 |
Korean Chemical Engineering Research, 57 (2), pp.149-163 (2019)
입자 이동 제어를 위한 유전영동: 이론, 전극 구조 및 응용분야
Dielectrophoresis for Control of Particle Transport: Theory, Electrode Designs and Applications
이민지, 김지혜, 구형준 |
| 8 |
Korean Chemical Engineering Research, 57 (2), pp.253-258 (2019)
연소 후 이산화탄소 포집용 흡수제의 비활성화 원인 규명
Deactivation causes of dry sorbents for post-combustion CO2 capture
조민선, 채호진, 이수출, et al. |
| 9 |
Korean Chemical Engineering Research, 55 (3), pp.419-425 (2017)
벤치급 CO2 포집공정에서 흡수반응기의 내부구조에 따른 K-계열 고체흡수제의 성능평가
Performance Evaluation of K-based Solid Sorbents Depending on the Internal Structure of the Carbonator in the Bench-scale CO2 Capture Process
김재영, 임호, 우제민, et al. |
| 10 |
Korean Chemical Engineering Research, 55 (1), pp.60-67 (2017)
CO2 흡착 충전제 제조를 위한 microcrystalline cellulose (MCC) 입자 표면개질연구
Surface Modification of Microcrystalline Cellulose (MCC) Filler for CO2 Capture
양여경, 박성환, 김한나, et al. |
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