Utilization of Green Cement (CSA) with CFBC Coal Power Plant Byproducts for 3D Printing Construction Materials for Sustainable Society Jiwhan Ahn1; Thenepalli Thriveni1; Ramakrishna Chilakala2; 1KIGAM (KOREA INSTITUTE OF GEOSCIENCE AND MINERAL RESOURCES), Daejeon, Republic of South Korea; 2HANIL CEMENT CO LTD.,, Daejeon, South Korea; PAPER: 378/Non-ferrous/Plenary (Oral) SCHEDULED: 14:50/Mon./Pontal (50/2nd) ABSTRACT: Global warming caused by the use of extensive fossil fuels and pollutants generated in several industrial facilities reduced the quality of our lives and gives a cloud to the sustainable development of society [1]. In South Korea, the yearly emissions are 749 Mt CO<sub>2</sub>e/a. The BAU of greenhouse gas in the goal year of 2020 is 776 million tons of CO<sub>2</sub>, which will be reduced to 543 million CO<sub>2</sub> if the reduction goal of 30% is reached [2]. Furthermore, core technologies will be developed and demonstrated in the fields of CCS and CCUS for CO<sub>2</sub> reduction technology, which has high development potential and energy efficiency. This sustainable development is fundamentally based on resource recycling [3]. The green cement with circulating fluidized bed combustion (CFBC) coal power plants by products and it utilizes this green cement for 3D printing construction materials. 3D printing technology is the 4th industrial revolution technology and fabrication of 3D printing is compass of the new digital transformation and the key to the future of the global manufacturing economy [4,5]. 3D printing makes it possible to construct buildings in a short period of time and at low cost contributing to the construction of eco-friendly, low-carbon self-reliance by utilizing the rapid hardness, high strength, and eco-friendliness of Green Cement (CSA) References: [1] Jim Krane, MRS Energy and Sustainability: A Review Journal 4(2017)1-12. [2] Ministry of Environment, Korea, Greenhouse Gas reduction Road Map. [3] A.P. M. Velenturf, Phil Purnell, Sustainability 9(9) (2017), 1603-1619. [4] D.E.Editors, History of 3D Printing Timeline. Digital Engineering, 29 Apr. 2016, www.digitaleng.news/de/history-of-3d-printing-timeline/. [5] M.Gebler, A. J.M. Schoot Uiterkamp, C.Visser, Energy Policy 74 (2014) 158-167. Energy Policy 85 (2015) 511. |