21 |
Engineered biochar composite fabricated from red mud and lipid waste an synthesis of biodiesel using the composite Yoon K, Jung JM, Cho DW, Tsang DCW, Kwon EE, Song H Journal of Hazardous Materials, 366, 293, 2019 |
22 |
Multicomponent red mud-polyester composites for neutron shielding application Guru S, Amritphale SS, Mishra J, Joshi S Materials Chemistry and Physics, 224, 369, 2019 |
23 |
Comparison of microwave and conventional carbothermal reduction of red mud for recovery of iron values Agrawal S, Rayapudi V, Dhawan N Minerals Engineering, 132, 202, 2019 |
24 |
Recovery of iron from bauxite residue using advanced separation techniques Rai S, Nimje MT, Chaddha MJ, Modak S, Rao KR, Agnihotri A Minerals Engineering, 134, 222, 2019 |
25 |
A review on advances in sustainable energy production through various catalytic processes by using catalysts derived from waste red mud Das B, Mohanty K Renewable Energy, 143, 1791, 2019 |
26 |
Selective ion-exchange separation of scandium(III) over iron(III) by crystalline alpha-zirconium phosphate platelets under acidic conditions Avdibegovic D, Zhang WZ, Xu JH, Regadio M, Koivula R, Binnemans K Separation and Purification Technology, 215, 81, 2019 |
27 |
Red-mud geopolymer composite encapsulated phase change material for thermal comfort in built-sector Afolabi LO, Ariff ZM, Megat-Yusoff PSM, Al-Kayiem HH, Arogundade AI, Afolabi-Owolabi OT Solar Energy, 181, 464, 2019 |
28 |
Hydrotreating of guaiacol: A comparative study of Red mud-supported nickel and commercial Ni/SiO2-Al2O3 catalysts Jahromi H, Agblevor FA Applied Catalysis A: General, 558, 109, 2018 |
29 |
Hydrodeoxygenation of pinyon-juniper catalytic pyrolysis oil using red mud-supported nickel catalysts Jahromi H, Agblevor FA Applied Catalysis B: Environmental, 236, 1, 2018 |
30 |
Red mud enhances methanogenesis with the simultaneous improvement of hydrolysis-acidification and electrical conductivity Ye J, Hu AD, Ren GP, Zhou T, Zhang GM, Zhou SG Bioresource Technology, 247, 131, 2018 |