Tie Min Zhang

Experimental investigation on flotation of refractory copper oxidized ore

To improve the recovery of copper from refractory copper oxidized ore by sulfidization-flotation process. The result determined the optimal flotation process parameters of refractory copper oxidized ore, and the better quota selecting separately obtained by a large number of research. The copper concentrate grade reaches 10.85%, the recovery reaches 57.41%.

Study on the Beneficiation of an Oxidised Copper Ores in Yunnan Province

For a refractory oxidised copper ores in Yunnan province, studing the beneficiation of a oxidised copper ores sulfide flotation behavior. The results showed that: When ethylenediamine phosphate was added with the dosage of 120 g/t, the final copper concentrates were gained with the grade of 21.06% and recovery of 83.20%. Compared to the direct sulfide flotation, the concentrate grade was raised by 3.59% and the recovery was increased by 7.33%.

Flotation of Sulphide Copper Ore of Sifangjing in Huidong

Flotation experimental research is carried out on a certain sulphide copper ore of Sifangjing in Huidong, Sichuan province. The ore exist in the deeper part of ore deposit. Because of the deep burried, the oxidation rate is relatively low. The ore belongs to the typical sulfide ore. For the characteristics of the mine and the scene of the test requirements, the use of direct flotation process has achieved a successful recovery of copper. In the cleaning operation ,Strengthen copper sulfur separation to obtain qualified copper concentrate. Under the proper process conditions ,the good technical indexes were obtained.

Research on Flotation of Copper Sulfide Ore in Yunnan Province

Floatation experimental research is carried out on a certain complicated ore containing mixed sulphides in Yannan province. For the characteristics of the mine and the scene of the test requirements, the use of mixed flotation-separation process has achieved a successful recovery of useful elements. Combination inhibitors can effectively achieve the separation of copper and sulfur .Under the proper process conditions ,the good technical indexes were obtained.

Ammonia Leaching Study on Refractory Oxidised Copper Ores

Ammonia leaching research is carried out on a certain oxidised copper ores. The effects of oxidized copper ores which came from Yunnan Province were studied in laboratory in order to find out the optimum leaching conditions under normal temperature and pressure. The ores belonged to typical high binding rate minerals. The optimum conditions obtained were as follows: granding fineness about 90% -0.074mm, ammonia concentration 2 mol/l, ammonium fluoride concentration 1.5mol/l , leaching time 2h, and liquid-solid ratio 3:1.The leaching rate of this ore could reach 86%.

The Effects of Different Depressants on Oxidised Copper Ores Flotation

For refractory oxidised copper ores of Huidong Sichuan province, studing the different depressants on the influence of oxidised copper ores flotation behavior. The results showed that: the depressanting effect of the combination of sodium hexametaphosphate primarily is better. When the dosage of the combination of sodium hexametaphosphate and sodium humate reagent is 300 g/t, ratio is 2:1,the recovery of copper concentrate is 83.31and the grade is 19.01 in the closed circuit experiment.

Impact of Closed Flowsheet Structure on Oxidised Copper Ores in Huidong

Flotation experimental research is carried out on a certain oxidised copper ores in Huidong, Sichuan province. The ores belongs to the typical oxidised ores. For the characteristics of the mine and the scene of the test requirements, five different flowsheets were test. Under the proper process conditions, the good technical indexes were obtained in all flowsheets. But the the fourth flotation flowsheet was choosed. The principle process of two roughing, one scavenging and two cleaning were used in flotation process. Both the scavenging foam and tailing of first cleaning are returned to the first roughing work and tailing of second cleaning is returned to first cleaning work in closed circuit.

A Study on LIX84-I Extraction Copper from Ammoniac Leach Solution of Copper Oxidized Ore

Abstract: The extractant LIX84-I that extracted and stripped copper in the ammonia leach solution of copper oxidized ores solution of were mainly studied for the experimentation examined the influence of the LIX84-I concentration, the extraction time, the phase ratio, the pH , the stripping sulfuric acid concentration and the stripping time. Laboratory Investigations indicated that LIX84-I is really an efficient copper extractant with a maximum extraction of as high as 99.91% under the conditions of 5.23g/L Cu in leach solution, LIX84-I concentration 7%, 3 min mixtures, phase ratio 1/1and pH﹥4.5. The stripping can be conducted with the barren electrolyte as a stripping agent in which the sulfuric acid concentration remains about 150g/L, and a stripping rate of 99.92% is obtained.

Studying on Leaching Zinc Oxide Ore in the System of H2SO4

Leaching test on the Oxidized Zinc Ore coming from Yunnan Province is studied in the H2SO4 system;Systematic studies are made to show the effects of various factors on the leaching rate of zinc. The optimum conditions for leaching is finally confirmed, namely the grinding size is 75% of-0.074mm, concentration of sulfuric acid 15%, temperature 60°C, solid to liquid ratio 3:1, and leaching time 2.5h. Ultimately, the leaching rate of Zn could reach more than 59%.

Study on Flotation of Leaching Residue from Zinc Oxide Ore

Flotation behavior on ammonia leaching residue of alkaline zinc oxide ore from Lanping has been studied in traditional flotation, and the performance of bulk flotation showed that residue has a better floatability than raw ore when they are in the same process and same conditions, an operation recovery of lead and zinc can reach to 49.34% and 57.03% respectively in 3minutes. The followed verification test showed that phase recovery of zinc sulfide reach up to 76.5 in rough concentrates that from bulk flotation, the dissolution and activation affect of ammonia leaching residue is evidently.