Add to ORKGThe leaching kinetics of niobium from a low-grade niobium-tantalum ore by concentrated KOH solution under atmospheric pressure has been studied. Significant effects of reaction temperature, KOH concentration, stirring speed, particle size and mass ratio of alkali-to-ore on the dissolution rate of niobium were examined. The experimental data of the leaching rates and the observed effects of the relevant operating variables were well interpreted with a shrinking core model under diffusion control. By using the Arrhenius expression, the apparent activation energy for the dissolution of niobium was evaluated. Finally, on the base of the shrinking core model, the rate equation was established.The leaching kinetics of niobium from a low-grade nio...
Abstract This paper presents the kinetics of dissolution of a Nigerian colu mb ite mineral ore sampl...
The dissolution kinetics of chromite ore at high oxygen pressure in KOH sub-molten salt solution was...
Niobium and tantalum are considered critical materials because the increasing demand in the energy s...
A kinetic study of the leaching of a low-grade niobium-tantalum ore by concentrated KOH solution und...
The leaching kinetics of niobium from a low-gr~te niobium-tantalum ore by concentrated KOH solution ...
The leaching kinetics of niobium-bearing mineralisation in KOH hydrothermal system was investigated....
The recovery of niobium and tantalum from a low-grade niobium-tantalum ore by using highly concentra...
Due to increasing technological advancements, the demand for pure niobium products emanated from col...
Production of TiO₂ generates waste containing significant quantities of valuable metals which if rec...
A study of the kinetics of the dissolution of a Nigerian columbite in hydrofluoric acid has been exa...
An investigation of the dissolution kinetics of a Nigerian columbite mineral ore sample in nitric ac...
The dissolution kinetics of nickel from ammonium jarosite precipitate in an alkaline medium was inve...
Residues from rutile chlorination plants often contain relatively high concentrations of critical me...
Investigations on the chemical and microbial leaching of a Nigerian Iron-ore in sulphuric acid have ...
Abstract Pressure acid leaching was used to extract niobium and tantalum from a ferrocolumbite ore. ...
Abstract This paper presents the kinetics of dissolution of a Nigerian colu mb ite mineral ore sampl...
The dissolution kinetics of chromite ore at high oxygen pressure in KOH sub-molten salt solution was...
Niobium and tantalum are considered critical materials because the increasing demand in the energy s...
A kinetic study of the leaching of a low-grade niobium-tantalum ore by concentrated KOH solution und...
The leaching kinetics of niobium from a low-gr~te niobium-tantalum ore by concentrated KOH solution ...
The leaching kinetics of niobium-bearing mineralisation in KOH hydrothermal system was investigated....
The recovery of niobium and tantalum from a low-grade niobium-tantalum ore by using highly concentra...
Due to increasing technological advancements, the demand for pure niobium products emanated from col...
Production of TiO₂ generates waste containing significant quantities of valuable metals which if rec...
A study of the kinetics of the dissolution of a Nigerian columbite in hydrofluoric acid has been exa...
An investigation of the dissolution kinetics of a Nigerian columbite mineral ore sample in nitric ac...
The dissolution kinetics of nickel from ammonium jarosite precipitate in an alkaline medium was inve...
Residues from rutile chlorination plants often contain relatively high concentrations of critical me...
Investigations on the chemical and microbial leaching of a Nigerian Iron-ore in sulphuric acid have ...
Abstract Pressure acid leaching was used to extract niobium and tantalum from a ferrocolumbite ore. ...
Abstract This paper presents the kinetics of dissolution of a Nigerian colu mb ite mineral ore sampl...
The dissolution kinetics of chromite ore at high oxygen pressure in KOH sub-molten salt solution was...
Niobium and tantalum are considered critical materials because the increasing demand in the energy s...