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Extraction of palladium from alumina-supported catalyst in supercritical CO2 using functional fluorinated polymers Li WSJ, Gasc F, Pinot J, Causse J, Poirot H, Pinaud J, Bouilhac C, Simonaire H, Barth D, Lacroix-Desmazes P Journal of Supercritical Fluids, 138, 207, 2018 |
12 |
New approach to the utilization of microwave thermal energy: Desulfurization and decarburization of spent catalyst via microwave treatment Ye XL, Koppala S, Qu WW, Xu SM, Zhang LB, Liu BG, Guo SH, Wang L Powder Technology, 338, 764, 2018 |
13 |
Sustainable and/or waste sources for catalysts: Porous carbon development and gasification Hill JM Catalysis Today, 285, 204, 2017 |
14 |
Modeling FCC spent catalyst regeneration with computational fluid dynamics Singh R, Gbordzoe E Powder Technology, 316, 560, 2017 |
15 |
The enhancement on the waste management of spent hydrotreating catalysts for residue oil by a hydrothermal-hydrocyclone process Li JP, Yang XJ, Ma L, Yang Q, Zhang YH, Bai ZS, Fang XC, Li LQ, Gao Y, Wang HL Catalysis Today, 271, 163, 2016 |
16 |
Reactivation of an industrial spent catalyst as an environmental waste by ultrasound assisted technique for using in styrene production Haghlesan A, Alizadeh R Chemical Engineering and Processing, 110, 64, 2016 |
17 |
Augmenting the adsorption of palladium from spent catalyst using a thiazole ligand tethered on an amine functionalized polymeric resin Sharma S, Rajesh N Chemical Engineering Journal, 283, 999, 2016 |
18 |
Kinetics and statistical analysis of nickel leaching from spent catalyst in nitric acid solution Ramos-Cano J, Gonzalez-Zamarripa G, Carrillo-Pedroza FR, Soria-Aguilar MD, Hurtado-Macias A, Cano-Vielma A International Journal of Mineral Processing, 148, 41, 2016 |
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Oil removal of spent hydrotreating catalyst CoMo/Al2O3 via a facile method with enhanced metal recovery Yang Y, Xu SM, Li Z, Wang JL, Zhao ZW, Xu ZH Journal of Hazardous Materials, 318, 723, 2016 |
20 |
Reactivation and Reuse of Platinum-Based Spent Catalysts for Combustion of Exhaust Organic Gases Rui ZB, Wu SR, Ji HB, Liu ZL Chemical Engineering & Technology, 38(3), 409, 2015 |