1) full dump leaching
全堆浸工艺
1.
According to lab and pilot test results and the situation of capital construction progress,the development thinking,full dump leaching and half dump leaching to treat oxidized ore,flotation to treat sulphide ore,developing oxidized ore and sulphide ore together early,and strengthening test study of Yulong Copper Mine were expounded.
根据实验室和半工业试验的研究成果和基建进展的实际情况,就玉龙铜矿总体开发的思路,处理氧化矿采用全堆浸工艺、半堆半浸,硫化矿处理采用浮选工艺的产品方案,早日实现氧化矿和硫化矿共同开采以及强化玉龙铜矿试验研究的必要性进行了论证。
2) Heap leaching process
堆浸工艺
1.
Study on the infiltration saturated area in ore heap and its guiding significance to heap leaching process;
堆浸工艺中渗流饱和区研究及意义
2.
The infiltration models of leach solution in heap leaching process;
堆浸工艺中溶浸液的渗透模型
3) heap leaching technology
堆浸工艺
1.
Application of two-stage adsorption in heap leaching technology;
两段吸附在堆浸工艺中的应用
2.
The infiltrating problem of leaching solution in heap leaching technology;
论堆浸工艺中溶浸液的渗透问题
4) pad-batch technique,pad-store technique
浸轧-堆放回苏工艺
5) soaking
[英]['səʊkɪŋ] [美]['sokɪŋ]
浸泡工艺
1.
The result showed that the longer time of soaking takes and the higher soaking temperature is, the more nourishment material of potato loses, but the affect of the feed ratio is insignificant.
对马铃薯在水中浸泡过程中淀粉与VC含量的变化趋势以及最佳浸泡工艺条件进行了研究。
2.
The results showed that the longer time of soaking takes and the higher soaking temperature is, the more nourishment material of potato loses, but the effect of the feed ratio is insignificant.
本实验研究了在马铃薯在清洗切片后到上灶烹调前,在水中浸泡过程中淀粉和VC含量的变化趋势和最佳浸泡工艺条件。
6) infiltration process
浸渗工艺
1.
The influence of wetting angle, capillary force, infiltration pressure, infiltration temperature, infiltration time and interface on the infiltration process for RC-MMCs was also introduced.
综述了润湿角、毛细力、浸渗压力、浸渗时间和浸渗温度以及界面对网络陶瓷增强金属基复合材料浸渗工艺的影响,提出下一步需要改善浸渗行为的措施。
补充资料:堆浸
分子式:
CAS号:
性质: 即堆积浸取。湿法冶金处理矿石的经典方法之一,广泛应用于从低品位矿石或难选氧化矿中提取铀、金和铜。其原理为基于毛细作用和化学反应,基本过程是将矿石适当破碎,按一定要求在合适的场地上堆成矿堆,从矿堆上部喷洒浸取剂溶液,对铀矿石一般为稀硫酸,对金矿则为氰化物溶液。从矿堆下部收集浸取液。现代堆浸常与细菌浸取相结合。堆浸的设备和操作都较常规浸取方法简单,但浸取速度慢,浸取周期长。
CAS号:
性质: 即堆积浸取。湿法冶金处理矿石的经典方法之一,广泛应用于从低品位矿石或难选氧化矿中提取铀、金和铜。其原理为基于毛细作用和化学反应,基本过程是将矿石适当破碎,按一定要求在合适的场地上堆成矿堆,从矿堆上部喷洒浸取剂溶液,对铀矿石一般为稀硫酸,对金矿则为氰化物溶液。从矿堆下部收集浸取液。现代堆浸常与细菌浸取相结合。堆浸的设备和操作都较常规浸取方法简单,但浸取速度慢,浸取周期长。
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