This research deals with carbon dioxide utilization using amino acid salt solution. Energy-efficient CCU (carbon capture and utilization) technology in which no thermal desorption step is required was suggested. Waste concrete was considerd as Ca2+ source. (1.5 M potassium glycinate + 0.15 M piperazine) was used. After solution is saturated with carbon dioxide, 25wt% 100 ml of calcium chloride solution to replace Ca2+ from waste concrete in experiment was added. And then, precipitated calcium carbonate (PCC) was formed. As a result of absorption experiments of (1.5 M potassium glycinate + 0.15 M piperazine), CO2 loading value for the first absorption and reabsorption step was 0.7354 and 0.2848 mol CO2/ mol absorbent, respectively. Also, the yield of PCC formation of (1.5 M potassium glycinate + 0.15 M piperazine) was 43.63%. Based on these data, the amount of CO2 reduction was calculated. Calcium carbonate can be classified into calcite, vaterite, and aragonite according to their crystal structures and morphology. XRD and SEM analysis were performed and the result showed that the morphology of produced PCC salt was vaterite.

I. 서 론
II. 연구방법
III. 결과 및 고찰
IV. 결 론
사 사
References

• 유윤성(연세대학교 화공생명공학과) | Yunsung Yoo
• 조호용(연세대학교 화공생명공학과) | Hoyong Jo
• 강동우(연세대학교 화공생명공학과) | Dongwoo Kang
• 이민구(연세대학교 화공생명공학과) | Min-Gu Lee
• 이상엽(연세대학교 화공생명공학과) | Sang Yup Lee
• 홍범의(고등기술연구원) | Bum Ui Hong
• 최창식(고등기술연구원) | Chang Sik Choi
• 박진원(연세대학교 화공생명공학과, 국립환경과학원) | ·Jinwon Park Corresponding author