基于奥尔特曼法试验分析尾砂沉降规律
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摘要
通过对云南某磷石膏尾矿库全尾砂进行室内沉降规律的研究,得到不同粒径全尾砂的沉降高度和时间的关系曲线,发现其与奥尔特曼法图解沉渣量和时间的关系曲线大致相同,应用奥尔特曼法可以计算出不同粒径尾砂的单位扩散面积。基于尾矿库均匀排矿的方式,将计算不同粒径尾砂单位扩散面积的方法推广到库内尾砂扩散范围的理论计算公式,推算出尾砂流动距离。该研究思路较为准确地探索了尾砂的流动规律,可以避免等距离取样研究的经验性和偶然性,为尾矿库坝体稳定性研究提供了借鉴。
Based on the lab.test on the sedimentation regularity of the whole tailing of a phosphorus-gypsum tailing reservoir in Yunnan,the relation curves of the sedimentation height and time of the tailings with different particle sizes are obtained,and the relation curves of the relation curves of the sediment amount and time are found to be roughly the same as that graphed by the Altman method,and the unit diffusion area of the tailings with different particle sizes is calculated by the Altman method.Based on the method of uniform discharge of tailings in the dam,the method of calculating the unit diffusion area of tailings with different particle sizes is extended to the theoretical calculation formula of the diffusion range of tailings in the dam,and the flow distance of tailings is calculated.This research approach has explored the flow rule of tailings accurately,which can avoid the experience and contingency of equal-distance sampling research,and provides a reference for the study of tailings dam stability.
Based on the lab.test on the sedimentation regularity of the whole tailing of a phosphorus-gypsum tailing reservoir in Yunnan,the relation curves of the sedimentation height and time of the tailings with different particle sizes are obtained,and the relation curves of the relation curves of the sediment amount and time are found to be roughly the same as that graphed by the Altman method,and the unit diffusion area of the tailings with different particle sizes is calculated by the Altman method.Based on the method of uniform discharge of tailings in the dam,the method of calculating the unit diffusion area of tailings with different particle sizes is extended to the theoretical calculation formula of the diffusion range of tailings in the dam,and the flow distance of tailings is calculated.This research approach has explored the flow rule of tailings accurately,which can avoid the experience and contingency of equal-distance sampling research,and provides a reference for the study of tailings dam stability.
引文
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[14]彭乃兵,吴爱祥,王洪江,等.全尾砂絮凝沉降工艺研究[J].矿业研究与开发,2015,35(7):35-38.
[2]张力霆.尾矿库溃坝研究综述[J].水利学报,2013,44(5):594-600.
[3]赵怀刚,王光进,许志发,等.多因素影响下尾矿库坝体沉积特性的试验研究[J].中国安全生产科学技术,2018,14(5):95-101.
[4]张东明,郑彬彬,尹光志,等.高浓缩分级尾矿上游法堆坝及模型试验研究[J].岩土力学,2016,37(7):1832-1838+1 867.
[5]巫尚蔚,杨春和,张超,等.尾矿浆沉积室内模拟试验[J].工程科学学报,2017,39(10):1485-1492.
[6]田莉梅,屈春来,张景华.上游式尾矿库颗粒沉积规律及坝体渗流场分析[J].金属矿山,2017(5):60-64.
[7]梁冰,吕志强,金佳旭,等.排浆速度对尾矿沉积影响的模型试验研究[J].实验力学,2017,32(6):880-887.
[8]成词峰,徐颖,郑庭.混合式堆坝尾矿料的基本性能及沉积规律分析[J].青岛理工大学学报,2018,39(2):36-41.
[9]K.R.萨特尔,何燧生.通用浓缩机的新发展[J].国外金属矿山,1991(10):104-110+87.
[10]张光烈.根据澄清试验结果计算浓缩机面积的方法[J].中国矿业,1994(2):56-59.
[11]张钦礼,周登辉,王新民,等.超细全尾砂絮凝沉降实验研究[J].广西大学学报(自然科学版),2013,38(2):451-455.
[12]任海锋,白贤武,程光华,等.分级尾砂料浆输送性能及流变特性试验研究[J].有色金属(矿山部分),2015,67(4):49-53.
[13]王松阳,张亮,王小宇,等.新型浓缩机的选型计算[J].现代矿业,2013,29(6):160-161.
[14]彭乃兵,吴爱祥,王洪江,等.全尾砂絮凝沉降工艺研究[J].矿业研究与开发,2015,35(7):35-38.
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