1) in-situ leach uranium mining
原地溶浸采铀
1.
An example of in-situ leach uranium mining using H_2SO_4 and oxidant as lixiviant is presented.
以用硫酸和氧化剂配制的溶液作溶浸剂的原地溶浸采铀为例,数值模拟结果表明,无论是在均匀孔隙岩石中还是在非均匀孔隙岩石中都可产生复杂形态的反应前锋运动,反应前锋的运动特征和形态稳定性与流体流速和模拟区域大小有关。
2) Uranium mining with dissolving and saturating
溶浸采铀
1.
Suggestions on improving jam due to calcium and solid particle settlement caused by physical and chemical reaction during drilling, dissolving and saturating process of Uranium mine, in allusion to particular conditions of Uranium mining with dissolving and saturating in Xinjiang.
针对新疆溶浸采铀的具体情况,对溶浸采铀法钻凿、溶浸过程中,由于物理、化学变化产生的固相颗粒及钙沉淀堵塞问题提出改进建议。
3) in-situ leach of uranium
原地浸出采铀
1.
Generally, oxygen or hydrogen peroxide, as leaching oxidant, and sodium chloride solution ,as elutriant of saturated resin, have been applied to in-situ leach of uranium so far.
结果表明 ,在酸性条件下 ,硝酸盐溶液能满足原地浸出采铀工艺的要
4) in-situ leaching of uranium
地浸采铀
1.
Discussion on technological problems of in-situ leaching of uranium;
地浸采铀技术中的几个问题
2.
Discussion on thickness of borehole casing for in-situ leaching of uranium;
地浸采铀钻孔套管壁厚的讨论
3.
Environment pollution problems in in-situ leaching of uranium and protection measures to be taken;
地浸采铀中的环境污染及保护
5) in-situ leaching uranium
地浸采铀
1.
Predicting the migration of uranium in groundwater of a in-situ leaching uranium mine;
某地浸采铀矿山采区井场地下水中铀迁移预测
2.
Hydrogeological conditions for in-situ leaching in Shihongtan sandstone-type uranium deposit are analyzed,the favorable and unfavorable factors for in-situ leaching uranium are evaluated.
分析了十红滩砂岩型铀矿床地浸采铀水文地质条件,对浸铀的有利和不利因素进行了评价,并运用地球化学模式证明传统的酸法和碱法浸铀试验不适合十红滩铀矿床,并对浸铀的方法提出了一些建议和设想。
6) in situ leaching of uranium
地浸采铀
1.
The circunstance and results of field test for in situ leaching of uranium are discussed in this paper.
详细介绍了 5 1 1矿床 1 6号线地段地浸采铀现场试验情况 ,讨论了试验结果 ,并对井场抽注状态、抽出井降水漏斗形状等问题进行分析 ,对下阶段工业性试验提出建议。
2.
The terminology of"leaching solution"used in the domain of in situ leaching of uranium is discussed in the view of scientific rationality.
对我国地浸采铀中所使用的术语“溶浸液”的科学性提出了看法 ,供探讨。
补充资料:原地
1.原来的地点;起始点。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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