余杰, 田宁宁, 王凯军, 等. 中国城市污水处理厂污泥处理、处置问题探讨分析. 环境工程学报, 2007, 1(1): 82-86 Yu Jie, Tian Ningning, Wang Kaijun, et al. Analysis and discussion of sludge disposal and treatment of sewage treatm ent plants in China. Chinese Journal of Environmental Engineering, 2007, 1(1): 82-86(in Chinese)
朱伟, 李磊, 林城. 生物化学作用对污泥固化体渗透性的影响. 岩土力学, 2006, 27(6): 933-938 Zhu Wei, Li Lei, Lin Cheng. Biochemical effects on permeability of solidified sludge. Rock and Soil Mechanics, 2006, 27(6): 933-938(in Chinese)
[4]
Koenig A., Kay J. N., Wan I. M. Physical properties of dewatered wastewater sludge for landfilling. Water Science and Technology, 1996, 34(3-4): 533-540
[5]
Martínez-García C., Eliche-Quesada D., Pérez-Villarejo L., et al. Sludge valorization from wastewater treatment plant to its application on the ceramic industry. Journal of Environmental Management, 2011,
[6]
杨雷, 罗树琼, 张印民. 利用城市污泥烧制页岩陶粒. 环境工程学报, 2010, 4(5): 1177-1180 Yang Lei, Luo Shuqiong, Zhang Yinmin. Application of municipal sludge in firing shale ceramsite. Chinese Journal of Environmental Engineering, 2010, 4(5): 1177-1180(in Chinese)
[7]
王兴润, 金宜英, 杜欣, 等. 城市污水厂污泥烧结制陶粒的可行性研究. 中国给水排水, 2007, 23(7): 11-15 Wang Xingrun, Jin Yiying, Du Xin, et al. Feasibility research on sintering municipal sewage sludge for manufacturing haydite. China Water & Wastewater, 2007, 23(7): 11-15(in Chinese)
[8]
Tsai C., Wang K., Chiou I. Effect of SiO2-Al2O3-flux ratio change on the bloating characteristics of lightweight aggregate material produced from recycled sewage sludge. Journal of Hazardous Materials, 2006, 134(1-3): 87-93
[9]
Cheeseman C. R., Sollars C. J., Mcentee S. Properties, microstructure and leaching of sintered sewage sludge ash. Resources, Conservation and Recycling, 2003, 40(1): 13-25
[10]
金宜英, 杜欣, 王志玉, 等. 采用污水厂污泥制陶粒的烧结工艺及配方研究. 中国环境科学, 2009, 29(1): 17-21 Jin Yiying, Du Xin, Wang Zhiyu, et al. Research on technology and batch formula of sintering municipal sewage sludge for manufacturing haydite.China Environmental Science, 2009, 29(1): 17-21(in Chinese)
[11]
王兴润, 金宜英, 聂永丰, 等. 污泥制陶粒技术可行性分析与烧结机理研究. 环境科学研究, 2008, 21(6): 80-84 Wang Xingrun, Jin Yiying, Nie Yongfeng, et al. Sintering characteristics and cpplication research of sewage sludge in producing lightweight aggregate. Research of Environmental Sciences, 2008, 21(6): 80-84(in Chinese)
[12]
Xu G. R., Zou J. L., Li G. B. Ceramsite obtained from water and wastewater sludge and its characteristics affected by (Fe2O3 + CaO + MgO)/(SiO2 + Al2O3). Water Research, 2009, 43(11): 2885-2893
[13]
Zou J. L., Xu G. R., Li G. B. Ceramsite obtained from water and wastewater sludge and its characteristics affected by Fe2O3, CaO, and MgO. Journal of Hazardous Materials, 2009, 165(1-3): 995-1001
[14]
Bhatty J. I., Reid K. J. Moderate strength concrete from lightweight sludge ash aggregates. International Journal of Cement Composites and Lightweight Concrete, 1989, 11(3): 179-187
[15]
Glenn G. M., Miller R. M., Orts W. J. Moderate strength lightweight concrete from organic aquagel mixtures. Industrial Crops and Products, 1998, 8(2): 123-132
[16]
黄德志, 何少先, 江映翔. 污水处理厂脱水污泥制作轻质陶粒添加剂的研究. 环境科学学报, 2000, 20(增刊): 129-132 Huang Dezhi,He Shaoxian,Jiang Yingxiang, A lightweight aggregate additive made of de-watered sludge from city sewage plants. Acta Scientiae Circumstantiae, 2000, 20(Suppl): 129-132(in Chinese)
[17]
Teixeira S. R., Santos G. T. A., Souza A. E., et al. The effect of incorporation of a Brazilian water treatment plant sludge on the properties of ceramic materials. Applied Clay Science, 2011, 53(4): 561-565
[18]
郭玉顺, 丁建彤. 粉煤灰陶粒烧胀规律与膨胀机理研究. 粉煤灰, 2003, (3): 15-18 Guo Yushun, Ding Jiangtong. Study of fly ash regularity on lightweight synthetic aggregate sintering expansion and expansion mechanism. Coal Ash China, 2003, (3): 15-18(in Chinese)
[19]
王兴润. 生活污水污泥"干化-烧结"工艺研究. 北京: 清华大学博士学位论文, 2007 Wang Xingrun. Integrated technology of drying and sintering for the recycling of domestic sewage sludge. Beijing: Doctor Dissertation of Tsinghua University, 2007(in Chinese)
[20]
何品晶, 顾国维, 邵立明, 等. 污水污泥低温热解处理技术研究. 中国环境科学, 1996, 16(4): 254-257 He Pinjing, Gu Guowei, Shao Liming, et al. The study on the low-temperature pyrolysis process for sewage sludge. China Environmental Science, 1996, 16(4): 254-257(in Chinese)
Monteiro S. N., Alexandre J., Margem J. I., et al. Incorporation of sludge waste from water treatment plant into red ceramic. Construction and Building Materials, 2008, 22(6): 1281-1287
[23]
Xu G. R., Zou J. L., Li G. B. Effect of sintering temperature on the characteristics of sludge ceramsite. Journal of Hazardous Materials, 2008, 150(2): 394-400
[24]
闫振甲, 何艳君. 陶粒生产实用技术. 北京: 化学工业出版社, 2006.264
[25]
Favoni C., Minichelli D., Tubaro F., et al. Ceramic processing of municipal sewage sludge (MSS) and steelworks slags (SS). Ceramics International, 2005, 31(5): 697-702
[26]
Wang K., Tseng C., Chiou I., et al. The thermal conductivity mechanism of sewage sludge ash lightweight materials. Cement and Concrete Research, 2005, 35(4): 803-809
[27]
Mun K. J. Development and tests of lightweight aggregate using sewage sludge for nonstructural concrete. Construction and Building Materials, 2007, 21(7): 1583-1588
[28]
Karamanov A., Pelino M., Salvo M., et al. Sintered glass-ceramics from incinerator fly ashes. Part II. The influence of the particle size and heat-treatment on the properties. Journal of the European Ceramic Society, 2003, 23(10): 1609-1615
[29]
Klimesch D. S., Ray A. DTA-TGA of unstirred autoclaved metakaolin-lime-quartz slurries. The formation of hydrogarnet. Thermochimica Acta, 1998, 316(2): 149-154
[30]
陈烈芳. 烧胀粉煤灰陶粒的膨胀机理研究. 砖瓦, 2005, (11):7-11
[31]
Qi Y., Yue Q., Han S., et al. Preparation and mechanism of ultra-lightweight ceramics produced from sewage sludge. Journal of Hazardous Materials, 2010, 176(1-3): 76-84
[32]
Riley C. M. Relation of chemical properties to bloating of clays. American Ceramic Society, 1951, 34(4): 121-128
