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Conflict of Interest: In relation to this article, we declare that there is no conflict of interest.

Publication history: Received January 25, 2019
Accepted July 7, 2019

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

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CO2 capture and preparation of spindle-like CaCO3 crystals for papermaking using calcium carbide residue waste via an atomizing approach

Liang Ma^{1 2} Tingyu Yang^{2 3} Yu Wu^{2 3} Xiaoqing Yue^{2 3} Jinrong Yang^{2 3} Shuai Zhang^{2 3} Qiang Li^{2 3} Jianbin Zhang^{1 2†}

¹Key Laboratory of Coal-based CO2 Capture and Geological Storage, China University of Mining and Technology, Xuzhou, 221008, China ²College of Chemical Engineering, Inner Mongolia University of Technology, Hohhot 010051, China ³Inner Mongolia Engineering Research Center for CO2 Capture and Utilization, Hohhot 010051, China, China

tadzhang@pku.edu.cn

Korean Journal of Chemical Engineering, September 2019, 36(9), 1432-1440(9), 10.1007/s11814-019-0336-5

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Abstract

Spindle-like CaCO3 crystals with controllable sizes for papermaking were successfully prepared using CO2 (8% CO2/N2 mixture gas) and calcium carbide residue (CCR) waste, a by-product of acetylene gas and polyvinyl chloride production, as the raw materials by an atomization method at room temperature. The influences of solution concentration, reaction temperature, and gas/liquid flow rate ratios on the properties of the CaCO3 crystal were systematically investigated, and a possible atomization mechanism was proposed. The size of the as-prepared CaCO3 crystal with pure calcite phase was turned from 4.71×4.02 μm to 1.82×1.12 μm by adjusting the reaction conditions. The application of the as-prepared CaCO3 crystals from CCR waste as a filler for papermaking was explored. The R475 blue light whiteness of paper was increased from 77.3 to 80.6 with 11.4% CaCO3 crystals.

Keywords

Calcium Carbide Residue (CCR) Spindle-like CaCO3 Carbon Dioxide Capture Atomization Papermaking

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