Andere Kunden interessierten sich auch für
![Reactive Power Management In Deregulated Electricity Markets]( "Reactive Power Management In Deregulated Electricity Markets")
Reactive Power Management In Deregulated Electricity Markets42,99 €![Spectroscopic Analysis of Reactive Dyeing]( "Spectroscopic Analysis of Reactive Dyeing")
Spectroscopic Analysis of Reactive Dyeing26,99 €![LVRT Augmentation of fixed speed wind turbine using VSWT-PMSG]( "LVRT Augmentation of fixed speed wind turbine using VSWT-PMSG")
LVRT Augmentation of fixed speed wind turbine using VSWT-PMSG27,99 €![Optimized FOPID controller for reactive Power management & stability]( "Optimized FOPID controller for reactive Power management & stability")
Optimized FOPID controller for reactive Power management & stability19,99 €![Reactive Monitoring Adaptation for Dynamic Dataflow]( "Reactive Monitoring Adaptation for Dynamic Dataflow")
Reactive Monitoring Adaptation for Dynamic Dataflow23,99 €![Performance of UPFC to control active and reactive power flow]( "Performance of UPFC to control active and reactive power flow")
Performance of UPFC to control active and reactive power flow23,99 €![IOT Based Coal Mine Safety Monitoring and Alerting System]( "IOT Based Coal Mine Safety Monitoring and Alerting System")
IOT Based Coal Mine Safety Monitoring and Alerting System29,99 €
Acid Mine Drainage (AMD) is produced when sulphide-bearing mine tailings is exposed to oxygen and water and accelerated by naturally-occurring bacteria that assist in the breakdown of sulphide minerals. AMD can severely pollute surface and ground-water, as well as soils. Therefore, mine planners and managers must identify techniques that will minimize AMD impacts on life forms and their environment. In the present study, a site-specific study is carried out to assess the suitability of froth flotation for desulphurization of reactive mine tailings with an Outokumpu flotation unit, type OK0.05 at the Musselwhite Gold Mine, Northern Ontario, Canada, to prevent AMD. During froth flotation of mine tailings, a large quantity of samples must be handled and analyzed for total sulphur content with accuracy and precision. Therefore, a robust, rapid and easy digestion procedure for analysis of total sulphur in mine tailings using Inductively Coupled Plasma is also developed.