Add to ORKGThe influence of concentration of acid, temperature, time, and red mud grinding on the effectiveness of scandium leaching from red mud using succinic acid was studied. The maximum effect was observed with grinding of the pulp, and an increase in the temperature of the process
Bauxite residue (BR) is a well promising resource for critical metals and especially scandium (Sc), ...
Red mud represents an environmental and economic liability for the alumina industry in the form of w...
Summarization: In the present experimental study the stabilisation of sulphidic wastes exhibiting st...
Known methods for production of scandium compounds are based mainly on the acidic leaching of scandi...
This research presents a novel precipitation method for scandium (Sc) concentrate refining from baux...
As a member of EU H2020 ETN Red Mud Project which aims to recover all constituents of bauxite residu...
In this study, scandium extraction from Bauxite residue based on sulfuric acid leaching is presented...
Conventional acidic leaching of red mud results in severe gelation problems as well as in non-select...
There the study object is the sorption sulphuric-acidic method for the scandium recovery, for the yt...
Due to its alkalinity, red mud produced by the Bayer process may affect both the environment and hum...
Bauxite residues, i.e., red mud, can be processed to recover various valuable end products, while re...
Aiming at the industrial scale development of a Scandium (Sc)-selective leaching process of Bauxite ...
Bauxite residue (or red mud) is a waste generated during the Bayer process of alumina production. It...
Bauxite residue (red mud) is a waste product of the alumina refining in the Bayer process and contai...
Activated carbon (AC) was modified by tri-butyl phosphate (TBP) for selectively extracting scandium,...
Bauxite residue (BR) is a well promising resource for critical metals and especially scandium (Sc), ...
Red mud represents an environmental and economic liability for the alumina industry in the form of w...
Summarization: In the present experimental study the stabilisation of sulphidic wastes exhibiting st...
Known methods for production of scandium compounds are based mainly on the acidic leaching of scandi...
This research presents a novel precipitation method for scandium (Sc) concentrate refining from baux...
As a member of EU H2020 ETN Red Mud Project which aims to recover all constituents of bauxite residu...
In this study, scandium extraction from Bauxite residue based on sulfuric acid leaching is presented...
Conventional acidic leaching of red mud results in severe gelation problems as well as in non-select...
There the study object is the sorption sulphuric-acidic method for the scandium recovery, for the yt...
Due to its alkalinity, red mud produced by the Bayer process may affect both the environment and hum...
Bauxite residues, i.e., red mud, can be processed to recover various valuable end products, while re...
Aiming at the industrial scale development of a Scandium (Sc)-selective leaching process of Bauxite ...
Bauxite residue (or red mud) is a waste generated during the Bayer process of alumina production. It...
Bauxite residue (red mud) is a waste product of the alumina refining in the Bayer process and contai...
Activated carbon (AC) was modified by tri-butyl phosphate (TBP) for selectively extracting scandium,...
Bauxite residue (BR) is a well promising resource for critical metals and especially scandium (Sc), ...
Red mud represents an environmental and economic liability for the alumina industry in the form of w...
Summarization: In the present experimental study the stabilisation of sulphidic wastes exhibiting st...