Electrochemical processing of the metallic wastes of ZhS32 nickel superalloys

“…Flowchart of the process of electrochemical digestion of superalloys in a H 2 SO 4 electrolysis bath. 170,171 Figure 20. Flowchart of the process of the digestion of superalloys in a molten alkali salt bath followed by Re separation.…”

“…To overcome these problems, techniques for the direct dissolution of large pieces of superalloy scraps by utilizing electrochemical oxidation, which does not require pulverization pretreatment, have been developed. 141,[165][166][167][168][169][170][171][172][173][174][175][176][177][178][179] In this regard, Krynitz et al developed a method for the anodic dissolution of a superalloy in an organic solvent electrolytic bath to separate and recover valuable metals. 168 Figure 17 shows the flowchart of their process.…”

“…196 Palant et al conducted the electrolysis of a Ni-based superalloy by using alternating current in a H 2 SO 4 bath and HNO 3 bath, respectively. 170,171 Figure 19 shows the process flowchart of the electrochemical oxidation of superalloys in a H 2 SO 4 electrolysis bath. More than 70% of the Re in superalloys is separated and concentrated in anode slimes when using the H 2 SO 4 electrolysis bath.…”

“…More than 90% of the Re in the superalloy is dissolved in the aqueous solution when a HNO 3 electrolysis bath is used. 171,179 Industrially, the most common hydrometallurgical recycling process for superalloys is acid leaching. There are few examples of the electrochemical oxidation method being implemented in industry, although many patents and papers have been published.…”

Review: Rhenium and its smelting and recycling technologies

“…Flowchart of the process of electrochemical digestion of superalloys in a H 2 SO 4 electrolysis bath. 170,171 Figure 20. Flowchart of the process of the digestion of superalloys in a molten alkali salt bath followed by Re separation.…”

“…To overcome these problems, techniques for the direct dissolution of large pieces of superalloy scraps by utilizing electrochemical oxidation, which does not require pulverization pretreatment, have been developed. 141,[165][166][167][168][169][170][171][172][173][174][175][176][177][178][179] In this regard, Krynitz et al developed a method for the anodic dissolution of a superalloy in an organic solvent electrolytic bath to separate and recover valuable metals. 168 Figure 17 shows the flowchart of their process.…”

“…196 Palant et al conducted the electrolysis of a Ni-based superalloy by using alternating current in a H 2 SO 4 bath and HNO 3 bath, respectively. 170,171 Figure 19 shows the process flowchart of the electrochemical oxidation of superalloys in a H 2 SO 4 electrolysis bath. More than 70% of the Re in superalloys is separated and concentrated in anode slimes when using the H 2 SO 4 electrolysis bath.…”

“…More than 90% of the Re in the superalloy is dissolved in the aqueous solution when a HNO 3 electrolysis bath is used. 171,179 Industrially, the most common hydrometallurgical recycling process for superalloys is acid leaching. There are few examples of the electrochemical oxidation method being implemented in industry, although many patents and papers have been published.…”

Review: Rhenium and its smelting and recycling technologies

“…Titanium baskets containing the superalloy scrap are used as electrodes 22,45) . Fig.6 Flowchart of a process for the electro chemical digestion of superalloys in H2SO4 electrolysis bath 46,47) . Fig.7 Flowchart of a process for the digestion of superalloys in molten alkali salt bath followed by Re separation 49) .…”

Current Status of Recycling of Rhenium and Process Technologies

Recovery of Nickel from Nickel-Based Superalloy Scraps by Utilizing Molten Zinc