AU2008900947A0 - New Hydrometallurgy for the Optimum Recovery of Uranium, other Radionuclides and some Heavy & Precious Metals from Tailings Dams, Land Remediation Projects and Dilute Solutions such as Sea Water
- Google Patents
New Hydrometallurgy for the Optimum Recovery of Uranium, other Radionuclides and some Heavy & Precious Metals from Tailings Dams, Land Remediation Projects and Dilute Solutions such as Sea Water
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
AU2008900947A
Inventor
Leslie G Kemeny
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Aseera Pty Ltd
Original Assignee
Aseera Pty Ltd
Filing date
Publication date
Application filed by Aseera Pty LtdfiledCriticalAseera Pty Ltd
Publication of AU2008900947A0publicationCriticalpatent/AU2008900947A0/en
AU2008900947A2008-02-27New Hydrometallurgy for the Optimum Recovery of Uranium, other Radionuclides and some Heavy & Precious Metals from Tailings Dams, Land Remediation Projects and Dilute Solutions such as Sea Water
AbandonedAU2008900947A0
(en)
Copper recovery method from a copper sulphide concentrate comprising a copper and arsenic sulphosal and a copper and antimony sulphosal which comprises adding the concentrate and carbon in particulate form, leaching in a gas with oxygen maintaining a potential operating and recover the copper.
Collector and frothing agent for flotation based on organic residues to recover metals from frothing floating minarals, collector and frothing agent recovery process and frothing flotation process that uses the collector and frothing agent
New Hydrometallurgy for the Optimum Recovery of Uranium, other Radionuclides and some Heavy & Precious Metals from Tailings Dams, Land Remediation Projects and Dilute Solutions such as Sea Water
New Hydrometallurgy for the Optimum Recovery of Uranium, other Radionuclides and Heavy Precious Metals from Tailings Dams, Land Remediation, and Dilute Solutions such as Sea Water
Ion Exchange Resins for The Optimum Recovery of Uranium, other Radionuclides and some Heavy and Precious Metals from Tailings Dams, Land Remediation Projects and Dilute Solutions such as Sea Water
The Dynamic Separation of Rare Earths by Ion Exchange. Optimised Uranium Recovery from Low Grade Ores. New Hydrometallurgy for the Optimum Recovery of Precious Metals from Dilute Solutions. New Developments in Ion Exchange for the Treatment of Industrial Effluents from Waste Water.
Aquatic impacts of an environmental disaster in a relatively pristine watershed: the breach of the Mount Polley Mine tailings impoundment, British Columbia, Canada