Manufacturing of Ultra-light Ceramsite from Slate Wastes in Shangri-la, China |
Li, Zhen
(Faculty of Environmental Science and Engineering, Kunming University of Science and Technology)
Zhang, Haodong (Faculty of Environmental Science and Engineering, Kunming University of Science and Technology) Zhao, Pengshan (Faculty of Environmental Science and Engineering, Kunming University of Science and Technology) He, Xiaoyun (Yuntou Sci. & Tech. Ecological Co., Ltd. of Yunnan) Duan, Xiaowei (Yunnan Jingtai Science and Technology Co., Ltd.) |
1 | J. Malaiskiene, M. Vaiciene, and R. Zurauskiene, "Effectiveness of Technogenic Waste Usage in Products of Building Ceramics and Expanded Clay Concrete," Constr. Build. Mater., 25 [10] 3869-77 (2011). DOI |
2 | Y. He, X. Zhang, Y. J. Zhang, and Y. Zhou, "Effects of Particle Characteristics of Lightweight Aggregate on Mechanical Properties of Lightweight Aggregate Concrete," Constr. Build. Mater., 72 [15] 270-82 (2014). DOI |
3 | H. T. He, P. Zhao, Q. Y. Yue, B. Y. Gao, D. T. Yue, and Q. Li, "A Novel Polynary Fatty Acid/Sludge Ceramsite Composite Phase Change Materials and its Applications in Building Energy Conservation," Renewable Energy, 76 45-52 (2015). DOI |
4 | Y. W. Zhou, X. M. Liu, F. Xing, H. Z. Cui, and L. L. Sui, "Axial Compressive Behavior of FRP-confined Lightweight Aggregate Concrete: An Experimental Study and Stress-Strain Relation Model," Constr. Build. Mater., 119 1-15 (2016). DOI |
5 | T. Bao, T. H. Chen, C. S. Qing, J. J. Xie, and R. L. Frost, "Development and Application of Palygorskite Porous Ceramsite in a Biological Aerated Filter (BAF)," Desalin. Water Treat., 57 [4] 1790-803 (2016). DOI |
6 | Y. S. Liu, F. Du, L. Yuan, H. Zeng, and S. F. Kong, "Production of Lightweight Ceramisite from Iron Ore Tailings and its Performance Investigation in a Biological Aerated Filter (BAF) Reactor," J. Hazard. Mater., 178 [1-3] 999-1006 (2010). DOI |
7 | S. Z. Yuan, H. Lu, J. Wang, J. T. Zhou, Y. Wang, and G. F. Liu, "Enhanced Bio-decolorization of Azo Dyes by Quinone-functionalized Ceramsites under Saline Conditions," Process Biochem., 47 [2] 312-18 (2012). DOI |
8 | J. J. Wan, X. M. Liu, P. G. Kerr, C. X. Wu, and Y. H. Wu, "Comparison of the Properties of Periphyton Attached to Modified Agro-waste Carriers," Environ. Sci. Pollut. Res. Int., 23 [4] 3718-26 (2016). DOI |
9 | X. Xie, D. Wang, D. Liu, X. Zhang, and M. Oeser, "Investigation of Synthetic, Self-sharpening Aggregates to Develop Skid-resistant Asphalt Road Surfaces," Wear, 348 52-60 (2016). |
10 | D. T. Yue, Q. Y. Yue, B. Y. Gao, H. T. He, H. Yu, S. L. Sun, Q. Li, Y. Wang, and Y. Zhao, "Preparation and Bloating Mechanism of Porous Ultra-Lightweight Ceramsite by Dehydrated Sewage Sludge and Yellow River Sediments," J. Wuhan Univ. Technol., 29 [6] 1129-35 (2014). DOI |
11 | I. Merino, L. F. Arevalo, and F. Romero, "Preparation and Characterization of Ceramic Products by Thermal Treatment of Sewage Sludge Ashes Mixed with Different Additives," Waste Manage., 27 [12] 1829-44 (2007). DOI |
12 | L. H. Li, C. W. Hu, X. L. Dai, W. J. Jin, C. Hu, and F. Ma, "The Performance of a Biological Aerated Filter Loaded with a Novel Non-Sintered Fly-Ash Ceramsite as Pretreatment for Dual Membrane Processes," Environ. Technol., 36 [16] 2024-34 (2015). DOI |
13 | C. Wang and F. S. Zhang, "Zeolite Loaded Ceramsite Developed from Construction and Demolition Waste," Mater. Lett., 93 380-82 (2013). DOI |
14 | Y. L. Wei, J. C. Yang, Y. Y. Lin, S. Y. Chuang, and H. P. Wang, "Recycling of Harbor Sediment as Lightweight Aggregate," Mar. Pollut. Bull., 57 [6-12] 867-72 (2008). DOI |
15 | J. Qin, C. M. Yang, C. Cui, J. T. Huang, A. Hussain, and H. L. Ma, " and Release of Ceramsites Containing Anorthite and Gehlenite Prepared from Waste Lime Mud," J. Environ. Sci., 47 91-9 (2016). DOI |
16 | X. L. Guo, Y. D. Yao, G. F. Yin, Y. Q. Kang, Y. Luo, and L. Zhuo, "Preparation of Decolorizing Ceramsites for Printing and Dyeing Wastewater with Acid and Base Treated Clay," Appl. Clay Sci., 40 [1-4] 20-6 (2008). DOI |
17 | C. M. Riley, "Relation of Chemical Properties to the Bloating of Clays," J. Am. Ceram. Soc., 34 [4] 121-28 (1951). DOI |
18 | I. J. Chiou, K. S. Wang, C. H. Chen, and Y. T. Lin, "Lightweight Aggregate Made from Sewage Sludge and Incinerated Ash," Waste Manage., 26 [12] 1453-61 (2006). DOI |
19 | H. J. Chen, S. Y. Wang, and C. W. Tang, "Reuse of Incineration Fly Ashes and Reaction Ashes for Manufacturing Lightweight Aggregate," Constr. Build. Mater., 24 [1] 46-55 (2010). DOI |
20 | X. R. Wang, Y. Y. Jin, Z. Y. Wang, R. B. Mahar, and Y. F. Nie, "A Research on Sintering Characteristics and Mechanisms of Dried Sewage Sludge," J. Hazard. Mater., 160 [2-3] 489-94 (2008). DOI |
21 | I. Merino, L. F. Arevalo, and F. Romero, "Characterization and Possible Uses of Ashes from Wastewater Treatment Plants," Waste Manage., 25 [10] 1046-54 (2005). DOI |
22 | "Lightweight Aggregates and its Test Methods-Part2: Test Methods for Lightweight Aggregates," PRC National Standard NO. GB/T17431.2 (2010). |
23 | Y. F. Qi, Q. Y. Yue, S. X. Han, Y. Min, B. Y. Gao, H. Yu, and T. Shao, "Preparation and Mechanism of Ultra-lightweight Ceramics Produced from Sewage Sludge," J. Hazard. Mater., 176 [1-3] 76-84 (2010). DOI |
24 | G. R. Xu, J. Z. Zou, and G. B. Li, "Stabilization of Heavy Metals in Sludge Ceramsite," Water Res., 44 [9] 2930-38 (2010). DOI |
25 | J. Qin, C. Cui, X. Y. Cui, A. Hussain, and C. M. Yang, "Preparation and Characterization of Ceramsite from Lime Mud and Coal Fly Ash," Constr. Build. Mater., 95 10-7 (2015). DOI |
26 | G. R. Xu, J. Z. Zou, and G. B. Li, "Ceramsite Obtained from Water and Wastewater Sludge and its Characteristics Affected by (+CaO+MgO)/()," Water Res., 43 [11] 2885-93 (2009). DOI |
27 | "Lightweight Aggregates and its Test Methods-Part1: Lightweight Aggregates," PRC National Standard NO. GB/T17431.21 (2010). |