Enhancement of the catalytic performance of silica nanosprings (NS)-supported iron catalyst with copper, molybdenum, cobalt and ruthenium promoters for Fischer-Tropsch synthesis
Author:
Publisher
Elsevier BV
Subject
Energy Engineering and Power Technology,Fuel Technology,General Chemical Engineering
Reference62 articles.
1. Effect of synthesis and activation methods on the catalytic properties of silica nanospring (NS)-supported iron catalyst for Fischer-Tropsch synthesis;Alayat;Fuel Process. Technol.,2018
2. Factors influencing the Fischer–Tropsch synthesis performance of iron-based catalyst: Iron oxide dispersion, distribution and reducibility;Liu;Fuel Process. Technol.,2015
3. Preparation, surface characterization and performance of a Fischer-Tropsch catalyst of cobalt supported on silica nanosprings;Kengne;Appl. Surf. Sci.,2015
4. Application of Fischer–Tropsch synthesis in biomass to liquid conversion;Hu;Catalysts,2012
5. Effect of pretreatment on precipitated Fe–Mo Fischer–Tropsch catalysts: morphology, carburization, and catalytic performance;Cui;J. Catal.,2011
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