A classifier equipment with overflow end spiral completely submerged below the liquid surface.
Xinhai tailings dry stacking technology is mainly applied to the dewatering and concentrating of mineral tailings in the mineral processing plants. To reach the aim of tailings dry stacking and avoiding environmental pollution, it is the essential technology of green mine.
Phosphate Flotation Product Line is applied for complex structure phosphate with fine particle distribution, closed embeddedness relationship, difficult monomer dissociation, etc.
Barite is fragile and like a big tube. The separation methods of Xinhai are generally gravity separation, magnetic separation and flotation.
Alluvial gold processing solution mainly applies to processing alluvial gold with a large volume of gangue minerals. Alluvial gold processing is a set of mining processes, including crushing and screening, desliming stage, separating stage, etc.
Mongolia 1 000t/d Gold Mineral Processing Plant. The Mongolia 1 000t/d gold mineral processing plant was an EPC+M+O project. Xinhai worked to achieve high recovery of gold and other valuable minerals by cutting costs and maximizing benefits and attach great importance to workers safety environmental protection and energy conservation.
China Mineral Processing Grinding Ball Mill (GZMY Series) Find details about China Grinding Ball Mill Ball Mill from Mineral Processing Grinding Ball Mill (GZMY Series) Zhengzhou Jinma Mining Machinery Co. Ltd. Quality. China Standard. Motor. Chinese Famous Brand. Feed Size. Less Than 25mm. Discharge Size. 0.0750.89mm. Capacity. 0.65
Founded in 1987 ZJH is mainly focus on producing and supply the ore grinding equipment mineral separation equipment and laboratory and pilot equipment for Mines and Mineral Processing Plants. Our aim is to work together with the Mining and Mineral Processing Industry for helping to carry on the production technical innovation to reduce the operating cost to improve the operating efficiency.
c(0.667 LdL)] 0.82kW (8.15) Ldis the mean length of the conical ends and is calculated as half the difference between the centerline length of the mill and the length of the cylindrical section. The geometry of a mill with conical ends is shown in Figure 8.6.