某地浸采铀条件试验酸化前后同源示踪对比试验模拟分析

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英文篇名：Numerical Simulation Analysis of Homologous Tracing Data Before and After Acidification in the Conditional Experiment of an In-situ Leaching Uranium Mine 作者：谢廷婷 ; 丁叶 ; 周根茂 ; 胥国龙 ; 李宏星 ; 邓锦勋 ; 张翀 ; 许智慧 英文作者：XIE Ting-ting;DING Ye;ZHOU Gen-mao;XU Guo-long;LI Hong-xing;DENG Jin-xun;ZHANG Chong;XU Zhi-hui;Beijing Research Institute of Chemical Engineering and Metallurgy,CNNC; 关键词：地浸采铀模拟 ; 地浸采铀流场 ; 微酸酸化 ; 2次同源示踪 ; 溶浸范围 英文关键词：simulation of in-situ leaching uranium;;flow field of in-situ leaching uranium;;micro-acidification;;twice homologous tracer;;leaching range 中文刊名：YKYI 英文刊名：Uranium Mining and Metallurgy 机构：核工业北京化工冶金研究院; 出版日期：2018-02-01 出版单位：铀矿冶 年：2018 期：v.37;No.146 语种：中文; 页：YKYI201801001 页数：8 CN：01 ISSN：11-1969/TL 分类号：3-10

摘要

在某地浸采铀条件试验现场微酸酸化前后开展2次同源4元素示踪对比试验,通过构建酸化前后不同的溶质迁移模型,量化计算分析酸化对浸出的影响。模拟结果表明:地浸采铀条件试验采场酸化后,粒子有效对流域面积和溶浸范围分别比未酸化地层提高3.5和3.2倍;微酸酸化有利于提高地浸采铀效率。
        The twice 4 elements tracing contrast tests were conducted before and after micro-acidification at a testing site of in-situ leaching uranium.Through establishment different solute migration models before and after acidification,the influence of acidification on leaching is quantitatively analysed.Simulation results show that after acidification of the well site of in situation leaching of uranium,the effective area of convection and leaching range are increased 3.5 times and 3.2 times respectively compared with the un-acidified tests;micro-acidification is benefit to increase the efficiency of in-situ leaching uranium.

引文

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