Add to ORKGRed mud, a voluminous waste produced from alumina industry, mainly consist of oxides of aluminium, iron, titanium and silicon as major and oxides of calcium and sodium as minor constituents. Due to its fineness and active surface sites it can be used to absorb heavy metal ions present in industrial effluents. It is activated by different methods and used for removal of phosphate and selenite ions from aqueous t solutions. Adsorption experiments were conducted to obtain the optimum conditions of pH,temperature, concentration of absorbate and amount of adsorbent. Applicability of Langmuir as well as Freundlich isotherms to the process was studied. Activated red mud samples produced from simple treatment ...
In this paper, the mesopore-activated red mud (M-ARM) was prepared by treating red mud (RM) with aci...
The adsorption of As(III), As(V), Se(IV) and Se(VI) by seawater neutralized red mud and alum water t...
Red mud, an abundant industrial waste from alumina industry, represents a rich source of various met...
Red mud,a voluminous waste produced from alumina industry, mainly consist of oxides of aluminium, ir...
Red mud, a voluminous waste produced from alumina industry, mainly consist of oxides of alum...
Red mud (RM) is an industrial waste generated during production of alumina from using the Bayer proc...
The industrial waste, bauxite residue generated in the Bayer chemical process of alumina production,...
Red mud, a waste residue of alumina refinery, has been used to develop effective adsorbents to remov...
An iron oxide sorbent derived from red mud waste (termed red mud akaganeite (RMA)) was investigated ...
In this study cow dung identified as a neutralizing agent for red mud (RM). Present research estimat...
The present study includes two parts: (1) Acid mine drainage (AMD) sludge, a waste product from coal...
Sulfide is an important pollutant in aqueous systems. Sulfide removal from polluted waters is requir...
The present paper mainly studies the adsorption properties of red mud on ammonian and phosphate as w...
In this study, the adsorption of hexavalent chromium and zinc ions from the solution is investigated...
Heat treatment and acid treatment methods have been tested on red mud to increase its arsenic adsorp...
In this paper, the mesopore-activated red mud (M-ARM) was prepared by treating red mud (RM) with aci...
The adsorption of As(III), As(V), Se(IV) and Se(VI) by seawater neutralized red mud and alum water t...
Red mud, an abundant industrial waste from alumina industry, represents a rich source of various met...
Red mud,a voluminous waste produced from alumina industry, mainly consist of oxides of aluminium, ir...
Red mud, a voluminous waste produced from alumina industry, mainly consist of oxides of alum...
Red mud (RM) is an industrial waste generated during production of alumina from using the Bayer proc...
The industrial waste, bauxite residue generated in the Bayer chemical process of alumina production,...
Red mud, a waste residue of alumina refinery, has been used to develop effective adsorbents to remov...
An iron oxide sorbent derived from red mud waste (termed red mud akaganeite (RMA)) was investigated ...
In this study cow dung identified as a neutralizing agent for red mud (RM). Present research estimat...
The present study includes two parts: (1) Acid mine drainage (AMD) sludge, a waste product from coal...
Sulfide is an important pollutant in aqueous systems. Sulfide removal from polluted waters is requir...
The present paper mainly studies the adsorption properties of red mud on ammonian and phosphate as w...
In this study, the adsorption of hexavalent chromium and zinc ions from the solution is investigated...
Heat treatment and acid treatment methods have been tested on red mud to increase its arsenic adsorp...
In this paper, the mesopore-activated red mud (M-ARM) was prepared by treating red mud (RM) with aci...
The adsorption of As(III), As(V), Se(IV) and Se(VI) by seawater neutralized red mud and alum water t...
Red mud, an abundant industrial waste from alumina industry, represents a rich source of various met...