Status Quo of Comprehensive Utilization of Red Mud

10.6919/ICJE.202205_8(5).0102

Mingpu Li

Red Mud ； Comprehensive Utilization ； Valuable Metals ； Building Materials ； Environmental Protection ； Agriculture

International Core Journal of Engineering

8卷5期（2022 / 05 / 01）

797 - 801

英文

Red mud is a solid waste in the aluminum industry. It has the characteristics of complex material composition, small particle size, high alkalinity and radioactivity, and high heavy metal content. Large piles of red mud are prone to cause major environmental safety issues. At the same time, red mud also has a high use value. This article will examine the use of red mud in the recovery of valuable metals, construction, environmental protection, and agriculture, as well as its shortcomings. Conduct an overview.

1. Wanchao Liu et al. Environmental assessment, management and utilization of red mud in China[J]. Journal of Cleaner Production, 2014, 84: 606-610.
   連結：
2. Xiao-feng Zhu, Ting-an Zhang, Yan-xiu Wang, Guo-zhi Lü, Wei-guang Zhang. Recovery of alkali and alumina from Bayer red mud by the calcification–carbonation method[J]. International Journal of Minerals Metallurgy and Materials, 2016, 23(03): 257-268.
   連結：
3. Ma Hongkun, Yu Qizheng, Zhong Jingbo, Chen Yuexian, Shen Weiguo, Chen Min. Comprehensive utilization of red mud in building materials [J]. Building Materials World, 2012, 33(05): 9-12.
4. Kuang Chaohui. Experimental study on recovery of iron and aluminum by sodium roasting of red mud [J]. Engineering Construction, 2021, 53(03): 64-69.J. Liu, E.L. Chen and Z.T. He: Journal of Shi Jia Zhuang Railway Institute (Natural Science), Vol. 22 (2009) No. 4, p.40-42.
5. He Pingbo, Zhou Yanfei, Hu Yuehua. Experimental study on the separation of red mud from Pingguo aluminum by selective hydrophobic flocculation method [J].
6. Wang Liming, Liu Tao, Bai Chunxia, Guan Di, Jia Jia, Li Hongjing. Experimental study on iron extraction from a red mud in Shandong [J]. Modern Mining, 2019, 35(11): 8-10.
7. Wang Lu, Hao Yanzhong, Hao Zengfa. Progress in the extraction and comprehensive utilization of valuable metals in red mud [J].
8. Zhang Jiangjuan, Deng Zuoguo, Xu Tinghua. Extraction of scandium from red mud hydrochloric acid leaching solution [J]. Light Metals, 2006(07):16-18.
9. Yue Yunlong, Lu Lingchao, Chang Jun, Cheng Xin. Research on red mud alkali slag cement and its products [J]. Bulletin of Portland, 2001(01):46-49.
10. Yan Zuxing. Research on the development and application of cement red mud concrete [J]. Concrete, 2000 (10):18-20.
11. Zhang Ning, Gao Yifan, Li Zhaofeng, Zhang Jian. Experimental study on filling materials of high content red mud foundation roadbed [J]. China Comprehensive Utilization of Resources, 2020, 38(11): 10-13.
12. Liang Xu, Liang Naixing, Zeng Jianmin, Mei Yingjun, Yu Wei. Research on the performance of cement red mud stabilized graded gravel base [J]. Journal of Chongqing Jiaotong University (Natural Science Edition), 2008, 27(06): 1086-1089.
13. Shi Lizheng, Chen Huikang, Wu Chuan, Huang Liu, Cui Mengqian, Xue Shengguo. Stabilization effects of red mud and its composite passivators on soil lead, cadmium and arsenic [J]. Journal of the University of Chinese Academy of Sciences, 2018,35(05) :617-626.
14. Li Dong, Pan Lixiang, Zhao Liangqing, Shi Lifang, Wu Xuan. Research progress on comprehensive utilization of red mud [J]. Environmental Engineering, 2014, 32(S1): 616-618+625.
15. Lu Aihua. Study on the adsorption properties of red mud on copper-containing wastewater [J]. Shandong Chemical Industry, 2017, 46(14): 178-181.
16. Lei Xiaoli, Wu Youe, Zeng Wei, Yang Di, Qian Wenmin, Li Bin. Research progress of typical heavy metals in modified red mud adsorption wastewater [J]. Environmental Science Guide, 2021, 40(04): 1- 8.
17. Li Bin, Zhang Baohua, Ning Ping, He Liwei, Zuo Xiaolin. Current Situation and Prospects of Red Mud Resource Utilization and Safe Treatment [J]. Progress in Chemical Industry, 2018,37(02):714-723.
18. Zhu Tao, Wang Ruonan, Jin Xinrui, Song Yuhan, Lv Yirong, Zhang Gengyuan. Treating Waste with Waste: Application Research on the Treatment of Industrial Waste Gas Sulfur Dioxide with Solid Waste Red Mud from Aluminum Plants [J]. Nonferrous Metals Engineering, 2019,9( 07):109-114.
19. Li Yanjun, Zhang Hao, Han Yuexin, Liu Xiao, Yuan Shuai, Gao Peng. Red mud resource recycling research progress [J]. Journal of metal mine, 2021 (04) : 1-19. DOI: 10.19614 / j.carol carroll nki JSKS. 202104001.
20. Li Yiwei, Fu Xianghui, Li Li, Zeng Juan. Research progress and prospect of comprehensive recycling of red mud [J]. Rare Earth, 2020,41(06):97-107.
21. Liu Qingling, Jin Xiuqi, Yang Yujia, Liu Jin, Zhang Junjun. Research progress on the application of red mud in environmental pollution remediation [J]. Environmental Science and Technology, 2019, 25(05): 56-60.
22. Jiang Wenyan, Zhang Linye, Long Jianyan, Zhou Changxi, Liao Zhifei, Wei Guangtao. Advances in the preparation and application of red mud-based environmental remediation materials [J]. Modern Engineering, 2018, 38(05): 29-33.
23. Yang Jiakuan, Hou Jian, Qi Bo, Liu Wei, Guo Huaisheng, Xiao Bo. Pilot production and industrialization of red mud unburned bricks for aluminum industry [J]. Environmental Engineering, 2006(04):52-55+4.
24. Wang Yue. Preparation of BaZrO_3/red mud catalyst and its catalytic oxidation of NO in flue gas [D]. Beijing University of Chemical Technology, 2013.