Add to ORKGRed mud, an aluminium industry hazardous waste, has been reported to be an inexpensive and effective adsorbent. In the present work applicability of red mud for the sequestration of green house gases with reference to carbon dioxide has been studied. Red mud sample was separated into three different size fractions (RM I, RM II, RM III) of varying densities (1.5-2.2 g cm―3). Carbonation of each fraction of red mud was carried out separately at room temperature usinga stainless steel reaction chamber at a fixed pressure of3.5 bar. Effects of reaction time (0.5-12 h) and liquid to solid ratio (0.2-0.6) were studied for carbonation of red mud. Different instrumental techniques such as X-ray diffraction, FTIR and scanning electron microscope (SE...
Carbon dioxide (CO2) is a gas which causes both impact to atmosphere (one of greenhouse gases) and d...
The Bayer process is the main industrial process covering 90 % of global production of alumina. The ...
Red mud is generated at a rate of up to 175.5 million tons per year. The global stockpile of red mud...
Red mud, an aluminium industry hazardous waste, has been reported to be an inexpensive and effective...
Red mud, an aluminium industry hazardous waste, has been reported to be an inexpensive and effective...
Abstract Batch experiments were conducted to collect data for obtaining insights into the chemical m...
Bauxite residue (red mud), a waste from the Bayer process for refining bauxite to alumina, is highly...
The capacity of red mud to sequester CO2 varied markedly due to differences in bauxite type, process...
A laboratory study was conducted to investigate the ability of neutralization of red mud (RM) using ...
The capacity of red mud to sequester CO2 varied markedly due to differences in bauxite type, process...
Red mud is a highly caustic waste product of alumina industry. More than 70 million tons of red mud ...
A range of industrial by-products are currently under the consideration as cost-effective alternativ...
Carbonation of raw red mud produced by aluminium refineries and a chemically and physically neutrali...
Red mud (RM) is a waste product that results from bauxite refining via the Bayer process. Its dispos...
The prospects of rinsed red mud (alumina production residue) utilization for liquid radioactive wast...
Carbon dioxide (CO2) is a gas which causes both impact to atmosphere (one of greenhouse gases) and d...
The Bayer process is the main industrial process covering 90 % of global production of alumina. The ...
Red mud is generated at a rate of up to 175.5 million tons per year. The global stockpile of red mud...
Red mud, an aluminium industry hazardous waste, has been reported to be an inexpensive and effective...
Red mud, an aluminium industry hazardous waste, has been reported to be an inexpensive and effective...
Abstract Batch experiments were conducted to collect data for obtaining insights into the chemical m...
Bauxite residue (red mud), a waste from the Bayer process for refining bauxite to alumina, is highly...
The capacity of red mud to sequester CO2 varied markedly due to differences in bauxite type, process...
A laboratory study was conducted to investigate the ability of neutralization of red mud (RM) using ...
The capacity of red mud to sequester CO2 varied markedly due to differences in bauxite type, process...
Red mud is a highly caustic waste product of alumina industry. More than 70 million tons of red mud ...
A range of industrial by-products are currently under the consideration as cost-effective alternativ...
Carbonation of raw red mud produced by aluminium refineries and a chemically and physically neutrali...
Red mud (RM) is a waste product that results from bauxite refining via the Bayer process. Its dispos...
The prospects of rinsed red mud (alumina production residue) utilization for liquid radioactive wast...
Carbon dioxide (CO2) is a gas which causes both impact to atmosphere (one of greenhouse gases) and d...
The Bayer process is the main industrial process covering 90 % of global production of alumina. The ...
Red mud is generated at a rate of up to 175.5 million tons per year. The global stockpile of red mud...