Resource Utilization of Red Mud from the Solid Waste of Aluminum Industry Used in Geothermal Wells

石英 水泥 雪硅钙石 赤泥 材料科学 固化(化学) 响应面法 硅酸盐水泥 矿物学 复合材料 冶金 地质学 色谱法 化学
作者
Zhiqiang Wu,Lihua Li,Fei Gao,Gaoyin Zhang,Jingxuan Cai,Xiaowei Cheng
出处
期刊:Materials [Multidisciplinary Digital Publishing Institute]
卷期号:15 (23): 8446-8446 被引量:12
标识
DOI:10.3390/ma15238446
摘要

It is difficult for the commonly used Class G oil well cement to withstand the high-temperature environment of geothermal wells, and it is easy to deteriorate the mechanical properties and damage the integrity of the cement sheath. Industrial solid waste red mud can be used as supplementary cementing materials (SCMs) to improve its mechanical properties at high temperatures. In addition, compared to Class G oil well cement, high belite cement (HBC) has lower energy consumption and better mechanical properties at high temperatures. In this study, the mechanical properties of HBC as a gel material and quartz sand and red mud as SCMs were studied at high temperatures. The ratio of HBC to SCMs and the ratio of quartz sand to red mud in SCMs were optimized using the response surface method (RSM). The response surface was established using the three-level factorial design model, which fit well with the experimental data. The optimization results show that the best mass ratio of SCMs/HBC is 37.5% and that the best quality ratio of quartz sand/red mud is 9 under the curing conditions of 180 °C. However, the best mass ratio of SCMs/HBC is 49.3%, and the best quality ratio of quartz sand/red mud is 7 under 220 °C. With the addition of SCMs, the silicon-to-calcium ratio of HBC hydration products decreases, and high-temperature-stable xonotlite and tobermorite can be formed. After adding SCMs, the cement sample is denser without obvious cracks.
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