AU2011905181A0 - 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. - Google Patents

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.

Info

Publication number
AU2011905181A0
AU2011905181A0 AU2011905181A AU2011905181A AU2011905181A0 AU 2011905181 A0 AU2011905181 A0 AU 2011905181A0 AU 2011905181 A AU2011905181 A AU 2011905181A AU 2011905181 A AU2011905181 A AU 2011905181A AU 2011905181 A0 AU2011905181 A0 AU 2011905181A0
Authority
AU
Australia
Prior art keywords
ion exchange
new
recovery
hydrometallurgy
optimised
Prior art date
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
AU2011905181A
Inventor
Leslie G. Kemeny
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Aceeta
Kemeny Leslie G Professor
Original Assignee
Aceeta
Kemeny Leslie G Professor
Filing date
Publication date
Application filed by Aceeta, Kemeny Leslie G Professor filed Critical Aceeta
Publication of AU2011905181A0 publication Critical patent/AU2011905181A0/en
Abandoned legal-status Critical Current

Links

AU2011905181A 2011-12-05 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. Abandoned AU2011905181A0 (en)

Publications (1)

Publication Number Publication Date
AU2011905181A0 true AU2011905181A0 (en) 2012-01-12

Family

ID=

Similar Documents

Publication Publication Date Title
AU2012231686A8 (en) Processes for recovering rare earth elements from aluminum-bearing materials
EP2705169A4 (en) Processes for recovering rare earth elements from various ores
ZA201304377B (en) "method for recovering precious metal from solution containing precious metal ions,extracting agent or adsorbent used therefor and back-extracting agent or desorbent"
IN2012DN00564A (en)
MY170297A (en) Method for concentrating metal chlorides in and separating same from an iron(iii) chloride-containing hydrochloric acid solution
EP2543746A4 (en) Hydrometallurgical method for the recovery of zinc in a sulphuric medium from sulphudic zinc concentrates
CL2008002063A1 (en) Diarsenic trioxide processing method comprising a leaching step in which water is added to the diarsenic trioxide to produce a slurry, the arsenic is leached and an oxidant is added, a deoxidation step and a scorodite precipitation step; and arsenic oxidation methods.
ZA201101485B (en) Methods and systems for leaching a metal-bearing ore for the recovery of a metal value
EP3071719A4 (en) Method for recovering rare earth metals from waste sulphates
MX2016002707A (en) A process for copper and/or precious metal recovery.
ZA201400294B (en) Method for recovering precious metals and copper from leach solutions
MY164549A (en) Method for separating heavy metal from glass
EP2651818A4 (en) Selenium separation and recovery from bioreactor sludge
AP2012006101A0 (en) Process of recovery of base metals from oxide ores.
WO2012025568A3 (en) Metal ion recovery from battery waste
GB201200261D0 (en) Recovery of metals
PH12015501111B1 (en) Settling separation method for neutralized slurry and wet smelting method for nickel oxide ore
NZ712526A (en) Method for processing vanadium-titanium magnetite finished ores by using wet process
PH12015500251A1 (en) Method for effluent treatment in smelting of nickel oxide ore
AU2011905181A0 (en) 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.
WO2013023254A8 (en) Method for the recovery of magnesium sulphate and production of magnesium oxide
CL2012002232A1 (en) Procedure for the extraction of copper and other metals in foundry metallurgical powders by leaching with solutions of tricarboxylic acid at a concentration between 0.5 and 60 gpl followed by recovery / regeneration of the solution of tricarboxylic acid.
MX358085B (en) Recovery reactor.
AU2011905270A0 (en) 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
JP2014037591A5 (en)