论文部分内容阅读
进行了实验室试验以评定将气体吹入溶液这种新技术的经济性和有效性.西澳大利亚的AtomaerPty.Ltd.公司开发了Filblast调制气体的弥散技术.初始一系列试验是在纯水中进行的,以提供Filblast装置吹氧效果的基线数据,便于与常规的烧结玻璃气泡技术比较,对每一种吹入方法都测定了氧吸收速率,发现:Filblast装置和气泡技术氧的溶解利用率分别为26%左右和4.4%.用三个金矿山的矿浆样品做对比试验.结果表明Filblast装置矿石中级分耗氧比烧结玻璃气泡技术的氧化速度快得多.另外,要达到和Filblast装置相同的溶解氧含量,气泡技术需要相当大的氧气流速,一种条件是大6倍.另一种是大20倍。
Laboratory tests were conducted to assess the economics and effectiveness of the new technique of blowing gas into the solution. Atomaer Pty. Ltd. of Western Australia has developed dispersion technology for Filblast modulated gases. The initial series of experiments was conducted in pure water to provide baseline data on the oxygen blowing performance of the Filblast apparatus for the determination of oxygen uptake rates for each of the blowing methods compared to conventional sintered glass bubble techniques and found that Filblast Device and bubble technology oxygen utilization rates were about 26% and 4.4%. Comparative tests on the pulp samples from three gold mines. The results show that the fractional oxygen consumption in Filblast ore is much faster than that of sintered glass bubble technology. In addition, to achieve the same dissolved oxygen content as the Filblast unit, bubble technology requires a significant oxygen flow rate, one condition 6 times greater. The other is 20 times bigger.