1.
Current status and existing problems of lithium extraction technology from salt lake
盐湖卤水提锂工艺技术现状及存在的问题
2.
Preparation of cryolite by two-step process to extract aluminum and fluoride from brine after lithium extraction(2)
两步法从提锂后卤水中提铝、氟制备冰晶石(2)
3.
Preparation of cryolite by two-step extracting of aluminum and fluoride from lithium free brine(1)
两步法从提锂后卤水中提铝、氟制备冰晶石(1)
4.
Extracting Lithium by Precipitation of Al(OH)_3 from Salt Lake;
氢氧化铝沉淀法从卤水中提取锂的研究
5.
Study on Quick Extraction of Lithium by Heating Carbonate-type Brine at a Series of Temperature Conditions
系列升温条件下碳酸盐型卤水快速提锂研究
6.
Progress on lithium and magnesium separation and recovery from the salt lake brines
盐湖卤水资源锂镁分离提取的研究进展
7.
Status quo of salt lake brine lithium resources and prospect of its exploitation and application
盐湖卤水锂矿资源开发利用及其展望
8.
Diverting Water and Reducing Pressure to Improve the Production Capacity of Brine Well and Reduce the Troubles of Brine Pump
分水降压提高卤井产能减少采卤泵故障
9.
Study on Extraction of High Purity Lithium Chloride by Freezing-adsorption from Brines of Salt Lakes;
冷冻—吸附法从精制卤水中制取高纯氯化锂的实验研究
10.
Temporal and Spatial Variation Characteristics of K,Mg,B and Li of Underground Brine in West Taijinar Mining Area
西台吉乃尔盐湖矿区地下卤水钾、镁、锂、硼的时空变化特征
11.
The Preliminary Study on the Equilibrium Solubility and Crystallization Laws of Lithium Carbonate Based on the Composition of Zhabuye Salt Lake Brine
扎布耶盐湖卤水碳酸锂恒温平衡浓度和结晶规律初步研究
12.
EXTRACTION OF BROMINE FROM BRINE BY STRONGLY BASIC ANION EXCHANGE RESIN PROCESS
强碱性阴离子交换树脂用于卤水提溴
13.
EXTRACTION METHOD MENTIONED IN THE SALT LAKE PROGRESS IN THE APPLICATION OF BORON
萃取法在盐湖卤水提硼中的应用进展
14.
The Present Status on Extracting Bromine from Brine of Industrialization in China and its Thoughts on Problems
我国工业化卤水提溴现状与问题思考
15.
Basic Studies on Process of Air Stripping by High Gravity in Technology of Extracting Bromine from Brine
卤水提溴工艺中超重力空气吹出基础研究
16.
Study on high gravity air stripping technology in the extraction of bromine from brine
卤水提溴工艺中超重力空气吹出技术研究
17.
It advances output and concentration of brine and acquires the economic effect.
经过两年的生产实践,提高了卤水的产量和卤水浓度,取得了较大的经济效益。
18.
Economic Analysis Research of Project of Ultra-ten-thousand Tons of Sea Water Extraction Bittern Comprehensive Utilization of Potassium Sulfate
超万吨海水苦卤提取硫酸钾及综合利用工程经济性分析研究