This paper is a brief overview of the role of inducing the nucleated electro winning of copper by using iron electrodes in electrocoagulation (EC) process. Cyanide compounds are widely used in gold ore processing plan...This paper is a brief overview of the role of inducing the nucleated electro winning of copper by using iron electrodes in electrocoagulation (EC) process. Cyanide compounds are widely used in gold ore processing plants in order to facilitate the extraction and subsequent concentration of the precious metal. Owing to cyanide solution employed in gold processing, effluents generated have high contents of free cyanide as well as copper cyanide complexes, which lend them a high degree of toxicity. In this regard, two options for the treatment of cyanide barren solutions has been used;in two ways;first for cyanide destruction by oxidation with the use of the EC process, in theory, has the advantage of decomposing cyanide at the anode and collecting copper simultaneously by a sludge of copper magnetic iron. In both cases excellent performance can be achieved using the high capacity of the bipolar iron EC technology. We found that it is possible to reduce the copper cyanide complex from 720 mg·l-1 to below 10 mg·l-1 within 20 minutes.展开更多
采用流延法制备石墨复合双极板,以电导率和力学性能为主要指标,结合电子显微镜(SEM)表征技术分析,研究了浆料黏度、浆料温度、流延速度、刮刀高度和液面高度,对双极板生坯的流延工艺进行研究。结果表明,浆料适宜流延黏度为5500~6500 m P...采用流延法制备石墨复合双极板,以电导率和力学性能为主要指标,结合电子显微镜(SEM)表征技术分析,研究了浆料黏度、浆料温度、流延速度、刮刀高度和液面高度,对双极板生坯的流延工艺进行研究。结果表明,浆料适宜流延黏度为5500~6500 m Pa·s,浆料流延温度为35~40℃,流延速度为0.5~0.6 m/min,刮刀辊高度为1.2~1.4 mm,液面高度为2.5~3.5 cm,此时流延出的双极板生胚致密度高、黏附均匀、表面光洁、平整度高。展开更多
文摘This paper is a brief overview of the role of inducing the nucleated electro winning of copper by using iron electrodes in electrocoagulation (EC) process. Cyanide compounds are widely used in gold ore processing plants in order to facilitate the extraction and subsequent concentration of the precious metal. Owing to cyanide solution employed in gold processing, effluents generated have high contents of free cyanide as well as copper cyanide complexes, which lend them a high degree of toxicity. In this regard, two options for the treatment of cyanide barren solutions has been used;in two ways;first for cyanide destruction by oxidation with the use of the EC process, in theory, has the advantage of decomposing cyanide at the anode and collecting copper simultaneously by a sludge of copper magnetic iron. In both cases excellent performance can be achieved using the high capacity of the bipolar iron EC technology. We found that it is possible to reduce the copper cyanide complex from 720 mg·l-1 to below 10 mg·l-1 within 20 minutes.