1)Phyto-mining植物冶金
2)bioleaching生物冶金
1.Besides Thiobacillus ferrooxidans, which can extract metal from metal sulfides, several other microorganisms such as silicate bacteria Bacillus mucilaginosus and fungi Aspergillus niger have been found to be progress in mineral bioleaching.作者在本研究中采用不同的方法分离筛选了以上三种类型的生物冶金微生物,并对它们的培养条件、浸矿生理及其与矿物作用效果进行了研究。
2.As a crucial bacteria in bioleaching,the environment conditions ,such as temperature,pH and so on,affect the activation of Acidithiobacillus ferrooxidans.ferrooxidans)是生物冶金中的重要菌种,它的活性受到环境因素如温度、pH值的影响。
英文短句/例句
1.Studies on Screening and Breeding of Three Biometallurgical Microorganisms and Their Effect on Minerals;三类生物冶金微生物菌种的选育及其与矿物作用研究
2.non-ferrous physical metallurgy有色金属物理冶金学
3.non-ferrous production metallurgy有色金属生产冶金学
4.A Study on the Rationalization of Production Logistics of Nonferrous Metallurgical Enterprises──A Case Study on the rationalization of Production Logistics of A Copper Smeltery;有色冶金企业生产物流合理化研究——一个铜冶炼企业生产物流合理化的案例
5.I mean, study or research subjects...... biology, metallurgy?我指的是研究或研究主题,如生物学或是冶金学的。
6.Application of Ultrafiltration and Electrochemical Technology in Metallurgy and Hydrolysis of Biomass;超滤及电化学技术在冶金及生物质降解中的应用
7.Preparation of Titanium Composites by Powder Metallurgy and Its Bioactivity and Tribology Research;粉末冶金钛基复合材料的制备及其生物活性和摩擦学研究
8.Preparation and Bioactivity of Nanostructured Hydroxyapatite-Titanium Composites by Powder Metallurgy;粉末冶金纳米羟基磷灰石—钛复合材料的制备及生物活性
9.Production and Practice of Use Metallurgy Third Class Coke at No.5 BF.Smelting Process in Bayi Steel八钢5号高炉使用冶金三级焦冶炼生产实践
10.as I know metallurgy is the art and science applied to metals. It can be classified as process metallurgy and physical metallurgy.据我所知,冶金学是适用于金属的技术和科学。它可以分为过程冶金学和物理冶金学。
11.Was he right to change from Physics to Metallurgy?他由学物理改为学冶金是正确的吗?
12.Welding Physical Metallurgy of RPC Ultrafine Microstructure Steel;RPC超细组织钢的焊接物理冶金研究
13.The production, research and technical development of metallurgy in Yunnan is reviewed on the basis of various papers concerned.根据各种冶金文献资料,分析、述2000年云南冶金的生产、研及冶金技术开发、究状况。
14.Industrial silicon production, ore, metallurgical furnace materials procurement.工业硅生产,矿石,冶金炉材料等购销。
15.PROGRESS OF PRODUCTION OF CHINA PM PARTS-2007;2007年中国粉末冶金零件生产进展
16.The Effect of Induced Electromagnetic Field Produced by Plasma Jet on Surface Metallurgy;等离子束感生磁场对表面冶金的影响
17.MAXIMUM PROFIT FLOW ALGORITHM FOR OPTIMIZATION OF PRODUCTION PLANNING OF STEEL WORKS;冶金企业生产计划的最大利润流算法
18.Design and development of gold smelting production management system黄金冶炼生产管理系统的设计与开发
相关短句/例句
bioleaching生物冶金
1.Besides Thiobacillus ferrooxidans, which can extract metal from metal sulfides, several other microorganisms such as silicate bacteria Bacillus mucilaginosus and fungi Aspergillus niger have been found to be progress in mineral bioleaching.作者在本研究中采用不同的方法分离筛选了以上三种类型的生物冶金微生物,并对它们的培养条件、浸矿生理及其与矿物作用效果进行了研究。
2.As a crucial bacteria in bioleaching,the environment conditions ,such as temperature,pH and so on,affect the activation of Acidithiobacillus ferrooxidans.ferrooxidans)是生物冶金中的重要菌种,它的活性受到环境因素如温度、pH值的影响。
3)bio-metallurgy生物冶金
1.The method of bio-metallurgy is capable of converting insoluble phosphate resources into water or citric acid soluble ones.利用生物冶金的方法,将不溶性磷源转化为水溶性或枸溶性磷源,从而提供了一条利用低品位磷矿的新途径。
2.The application of bioinformatics is described in bio-metallurgy researches and the great acceleration of bioinformatics is forecasted to the bio-metallurgy research.介绍了生物信息学在生物冶金研究中的应用,展望了生物信息学对生物冶金研究的巨大推动作用。
4)biohydrometallurgy生物冶金
1.Role of Bacterial Mixture in Biohydrometallurgy;生物冶金中混合菌的作用
2.An outline is made of slurry electrolysis, biohydrometallurgy, film separation technology and mechanical activation leaching, and their application and development in the future are introduced.概述了矿浆电解、生物冶金、膜分离技术和机械活化浸出等几种湿法冶金新技术 ,并介绍了其应用领域和发展方向。
3.The paper introduced the application of biohydrometallurgy on low-grade ore and tailings,the microorganism in metallurgy.介绍当前主要应用于冶金的微生物及生物冶金在低品位矿、尾矿中的应用,论述了生物冶金的代谢途径和机理、研究状况和研究趋势。
5)Biological metallurgy生物冶金
1.Progress on microbial screening and culturing in biological metallurgy;微生物选育技术在生物冶金中的应用进展
2.In this paper principle of gold's biological metallurgy is introduced, development of biological metallurgy in foreign countries and China is reviewed, some problems in the studying and developing process of biological metallurgy which need to be solved are pointed out as well.生物冶金是一种细菌作用与湿法冶金相结合的新工艺。
3.caldus) is one of the predominant biomining bacteria,which shows application prospect in biological metallurgy.生物冶金技术具有良好的发展前景。
6)physical metallurgy物理冶金
延伸阅读
《苏联药用植物及近缘植物分布区(图谱)》《苏联药用植物及近缘植物分布区(图谱)》А реа(?)ы (?)екарсмвенных u ро(?)смвенных uмрасменuu: CCCP Ам(?)ас sulian yoovong zh一wu Ji]inyuan zhlwu fenbuqu(tupu)《苏联药用植物及近缘植物分布区(图谱)》(A尽泪刀、J五六刀那mBeH勘“ul轰义又mBe凡肋议械Pac服Hu反:CO皿〕A二a。)俄国B.M.施米特主编。列宁格勒大学出版社出版,1983年出第一版,1990年出第二版修订版。本书记载了前苏联1980年出版的《苏联药用植物资源及分布图集》未记载的152种药用植物和近缘植物。按恩格勒系统分科、属叙述。重要的属叙述了前苏联药用植物的数量和利用前景。每属中选一至若干种进行介绍,包括:该种的拉丁学名,在前苏联的地理分布、生境、利用部位及其主要有效成分、药理作用、制剂和功效。有些种类还介绍了种的生态特性、蕴藏量和可提供生产的经济量。该书以文字叙述为主,但每种都附有一幅分布区图(不同于前书的是黑白素图),在每科叙述之后。分布区图采用点线结合的方法绘制,用线条勾划出分布范围,用圆点标明主要分布地点,分布图主要根据已有的标本资料编绘。 (王良信)
