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中文摘要:
为了确定适合工业应用的膏体浓度范围,从屈服应力角度完善了膏体定义:以屈服应力为(200±25) Pa时料浆中固相的质量分数为恰饱和质量分数,反推饱和率为101.5%~105.3%时料浆中固相的质量分数范围,即为工业应用膏体浓度.采用不同矿山的两种尾矿(1^#尾矿和2^#尾矿)对膏体定义分别进行室内实验和工程验证.结果表明:1^#尾矿室内动态压密实验获得的底流中固相的最大质量分数为73.71%,膏体定义预测的理论膏体浓度最大值为73.89%,二者相差0.18%;2^#尾矿通过深锥浓密机获得底流中固相的最大质量分数为68%,膏体定义预测的理论膏体浓度最大值为68.97%,二者相差0.97%.完善后的膏体定义对膏体浓度预测更可靠.
英文摘要:
In order to determine the suitable concentration of paste for industrial application, a further development of paste definition was proposed from the viewpoint of yield stress. The slurry saturation concentration is defined at the yield stress of (200 ±25) Pa. The suitable concentration of paste for industrial application is the slurry concentration range at the saturation ratio of 101. 5% to 105. 3% by back-stepping. Two tailings samples (named as Tailings 1 and 2) from different mines were used to testify the paste definition. Tailing 1 was used in laboratory experiment and Tailing 2 for engineering verification. The results show that the maximum concentration of Tailing 1 is 73. 71% by indoor dynamic consolidation experiment, and the maximum concentration of theoretic prediction by the paste definition is 73. 89%, which has the difference of 0. 18% compared with the laboratory experiment. The maximum underflow concentration of Tailing 2 can reach 68% by a deep cone thickener of some mine, and the maximum concentration is 68. 97% by prediction of the paste definition, a 0. 97% discrepancy in comparison with the underflow of the actual thickener. Hence, the paste definition proposed in the paper has high reliability for predicting the concentration of paste.
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