经浮选条件试验、综合条件试验和试验室闭路试验获得理想选别指标。
Satisfying selecting targets are attained through flotation condition test, synthetical condition test and close circuit test.
本文研究了实验室型浮选机槽深、转速、充气量和填料诸因素对不同成因磷矿浮选的影响。
This paper discusses the influence of some factors such as cell depth, rotational speed, aeration quantity, filling material etc, on floatation of phosphate ore of various genesis.
控制室和浮选车间之间有遥控装置。
Aremote control devise is used between control room and flotation shop.
本文介绍了浮选脱墨时纸浆流失机理的一些说法,并介绍了试验室模拟试验时的条件对纸浆流失的影响。
The mechanism of pulp loss during flotation deinking is introduced and the factors influencing pulp loss during the simulation experiment of flotation deinking is also introduced.
通过一般算例说明,目前的浮选精煤压滤机应适当增加过滤时间和滤室厚度。
The general example was calculated, indicating that the filtering time and the filter chamber thickness of flotation washing coal filter presses which are now in use should be increased suitably.
利用这一规律,实验室和工业试验都实现了白钨矿与萤石的浮选分离。
According to this sequence the separation of scheelite from fluorite was achieved in bench scale studies and pilot plant testwork.
实验室X FD-63单槽浮选机更新换代、技术创新对实验室选矿试验工作发挥着重要作用。
The upgrading and technological innovation of the lab-used single flotation cell of XFD-63 has important meanings for the laboratory test work of mineral processing.
介绍了边磨边浮工艺的工作原理,给出了两种金矿石的实验室边磨边浮连续试验结果,并与传统浮选工艺的试验结果进行了对比。
The operation principles of this process are described and the laboratory results obtained by continuous tests of two types of gold ores are given.
在实验室采集了大量黄铜矿浮选的泡沫图像,并对浮选泡沫图像进行了预处理;
A large number of froth images of laboratory flotation of chalcopyrite were collected and pre-processed.
实验室用xfd型系列单槽式浮选机供地质、冶金、建筑材料、化学等工业实验室浮选少量矿样用。
Lab. -used XFD Series Single flotation Cell is provided for flotation of minor ore samples in LABS of geological, metallurgical, building material, chemical and other industries.
建立了按粒度、矿物组成和可浮性划分的多组分物料的分批磨矿模型、解离模型和分批浮选模型,开发了实验室闭路浮选试验模拟程序包gfstesim。
The batch grinding model, liberation model and batch flotation model of multi-composition ore based on particle size, particle mineralogy and surface activity were developed.
建立了按粒度、矿物组成和可浮性划分的多组分物料的分批磨矿模型、解离模型和分批浮选模型,开发了实验室闭路浮选试验模拟程序包gfstesim。
The batch grinding model, liberation model and batch flotation model of multi-composition ore based on particle size, particle mineralogy and surface activity were developed.
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