1.
Enhancement of the Acid Dissolution of Mechanically Activated Pangzhihua Ilmenite;
机械活化攀枝花钛铁矿强化浸出的研究
2.
Study on Mutagenizing Cultivation of Acidithiobacillus Ferrooxidans and Improved Bioleaching of Phosphate Ore;
嗜酸氧化亚铁硫杆菌的诱变育种及磷矿强化浸出研究
3.
Kinetics Research on Enhance Leaching Indium Tin from ITO Scrap under Mechanical Activation;
用机械活化方法从ITO废料中强化浸出铟锡的动力学研究
4.
Studies on Moderate Thermophile Intensifying Pentlandite Leaching;
中等嗜热菌强化镍黄铁矿浸出的研究
5.
Study of Microwave and Magnetic Field Comprehensive Bioleaching for Low Grade-Chalcopyrite;
微波和磁场强化细菌浸出低品位黄铜矿的研究
6.
Study on Bacterial Leaching for Low-grade Chalcopyrite Intensified by Static Magnetic Field;
稳恒磁场强化细菌浸出低品位黄铜矿研究
7.
Study on Technology and Mechanism of Mechanical Activation Enhancing Leaching of Gold Concentrate Containing Arsenic;
机械活化强化含砷金精矿浸出的工艺及机理研究
8.
The Screening and Breeding of High Effective Bacteria and Mechanism of Bioleaching of Copper Sulfide Minerals;
铜硫化矿生物浸出高效菌种选育及浸出机理
9.
A Study of the Extracting Rate of Gold & Silver from Immersed Copper Sediment Influenced by Cyaniding Conditions;
氰化条件对浸铜渣中金银浸出率的影响研究
10.
The Ways to Increase the Recovery Rate of Gold Leaching From Heap Leaching of the Earth's Surface Oxidation Ore in Jinshan Gold Mine
提高金山地表氧化矿堆浸金浸出回收率的措施
11.
Study on the Production Process of Rice Fortified with Nutrients by the Leaching and the Adsorption;
浸吸式营养强化大米生产工艺的研究
12.
Industrial Study on Pressure Leaching of High-ferrous Zinc Sulphide Concentrate;
高铁硫化锌精矿加压浸出工业化研究
13.
Research on Leaching Gold from Complex Sulfuration Mine with Chlorine Dioxide;
二氧化氯浸出复杂硫化金精矿的研究
14.
Study on Chloride Leaching New Technology for PbS Concentrate
硫化铅精矿三氯化铁浸出新工艺研究
15.
Electrochemistry and Application on Intensification of Gold Cyanidation by Heavy Metal Ions;
重金属离子强化氰化浸金电化学及应用研究
16.
Julian N. Hartt. The Lost Image of Man. Louisiana State University Press, 1963.
黄志强,《人生的真义》,香港:浸信会出版社,1970。
17.
Compared with conventional agitation acid leaching method,this process decreases the acid consumption by 21 % and manganese dioxide by 29%,the extraction rate of uranium reduces by 1. 86%.
与搅拌浸出比较,淋滤浸出省酸21%、省二氧化锰29%,铀提取率降低1.86%。
18.
Research on Bioleaching Three Sulfide Minerals by Mixed Bacteria and the Microbial Diversity in the Bioleaching Process;
混合细菌浸出三种硫化矿及浸出过程中微生物多样性分析