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1. Hydroformylation of olefins produced in the Fischer—Tropsch synthesis

   Alcohols were obtained by the one-stage hydroformylation of olefins from the hydrocarbon fraction C ₆ –C ₉ , which was produced in the Fischer—Tropsch...

   Yu. G. Noskov, T. E. Kron, ... A. E. Bessudnov in Russian Chemical Bulletin

   Article 30 September 2019

2. Fischer-Tropsch synthesis by reduced graphene oxide nanosheets supported cobalt catalysts: Role of support and metal nanoparticle size on catalyst activity and products selectivity

   In this paper, a series of cobalt catalysts supported on reduced graphene oxide (rGO) nanosheets with the loading of 5, 15 and 30 wt-% were provided...

   Hasan Oliaei Torshizi, Ali Nakhaei Pour, ... Seyed Mehdi Kamali Shahri in Frontiers of Chemical Science and Engineering

   Article 30 May 2020
   

3. Controllable Fe/HCS catalysts in the Fischer-Tropsch synthesis: Effects of crystallization time

   The Fischer-Tropsch synthesis (FTS) continues to be an attractive alternative for producing a broad range of fuels and chemicals through the...

   Yifei Wang, Shouying Huang, ... **nbin Ma in Frontiers of Chemical Science and Engineering

   Article 03 January 2020
   

4. Effects of Ruthenium on the Catalytic Performance of Cobalt-Based Hybrid Catalysts for Synthesis of Hydrocarbons from CO and H₂

   Abstract

   The study investigated a number of cobalt-based hybrid catalysts (prepared as composite mixtures) for integrated Fischer–Tropsch (FT)...

   S. I. Sulima, V. G. Bakun, ... R. E. Yakovenko in Petroleum Chemistry

   Article 01 July 2023
   

5. Water-induced deactivation of cobalt-based Fischer–Tropsch catalysts

   Moritz Wolf, Nico Fischer, Michael Claeys in Nature Catalysis

   Article 16 November 2020
   

6. Synthesis of tetrahedrally coordinated CoO for higher alcohol synthesis directly from syngas

   Higher alcohol synthesis directly from syngas is highly desirable as one of the efficient non-petroleum energy conversion routes. Co ⁰ –CoO catalysts...

   Zhuoshi Li, Han Yang, ... **nbin Ma in Frontiers of Chemical Science and Engineering

   Article 10 July 2024
   

7. Influence of Manganese on the Catalytic Properties and Structure of the Active Surface of a Cobalt Fischer–Tropsch Catalyst

   Abstract

   It is shown that the Fischer–Tropsch synthesis in the presence of Co– x Mn/SiO ₂ cobalt catalysts with a manganese content of 0.5–2 wt % is...

   S. I. Sulima, V. G. Bakun, ... V. N. Soromotin in Petroleum Chemistry

   Article 22 May 2020
   

8. Chemical Transient Kinetics in Studies of the Fischer–Tropsch Reaction and Beyond

   Abstract

   We demonstrate Chemical Transient Kinetics as a powerful tool for investigating catalytic reaction kinetics and mechanisms at atmospheric...

   Andrew Raub, Hafsa Karroum, ... Norbert Kruse in Catalysis Letters

   Article 05 August 2020
   

9. Effect of Iron Precursor on Catalytic Performance of Precipitated Iron Catalyst for Fischer–Tropsch Synthesis Reaction

   Abstract

   In this study, we synthesized three precipitated iron catalysts using continuous co-precipitation method with three different iron...

   Zuoxing Di, Xuleng Feng, ... Mingsheng Luo in Catalysis Letters

   Article 03 March 2020
   

10. Impact of promoter on the cobalt based Fischer–Tropsch synthesis: a comprehensive kinetic study

    A comprehensive kinetic model for cobalt based Fischer–Tropsch synthesis products was developed based on the recently proposed generalized mechanism...

    Shabbir Mousavi, Yahya Zamani, ... Khaled Forsat in Reaction Kinetics, Mechanisms and Catalysis

    Article 28 March 2020
    

11. Possible Ways to Decarbonize Oil and Gas Industry Using Small-Scale Associated Gas Utilization Technologies

    A key feature of small-scale associated gas utilization schemes is the possibility for increasing carbon efficiency by various means. The paper...

    E. V. Korolev, V. A. Merinov, ... K. D. Rudyak in Chemistry and Technology of Fuels and Oils

    Article 23 November 2022

12. Effect of Promoters of Ultrafine Catalysts on the Formation of Carbon Dioxide under Conditions of Fischer–Tropsch Synthesis in a Three-Phase System

    Abstract

    The effect of the properties of modifying additives (Mg and Ca) introduced into nanosized catalytic dispersions on the occurrence of...

    M. V. Kulikova, O. S. Dement’eva, S. I. Norko in Petroleum Chemistry

    Article 01 January 2020
    

13. Aviation Biofuels: Conversion Routes and Challenges

    According to Energy outlook 2020, the aviation fuel consumption is expected to increase 13% by year 2050, as compared to year 2019. Increased cost of...

    Jia Wen Chong, Nishanth G. Chemmangattuvalappil, Suchithra Thangalazhy-Gopakumar in Sustainable Technologies for the Oil Palm Industry

    Chapter 2023
    

14. Effect of Zeolite on Fischer–Tropsch Synthesis in the Presence of a Catalyst Based on Skeletal Cobalt

    Abstract

    The joint effect of skeletal cobalt and zeolite on the main catalytic parameters of a pelletized composite catalyst has been studied. All...

    E. Yu. Asalieva, E. V. Kul’chakovskaya, ... V. Z. Mordkovich in Petroleum Chemistry

    Article 01 January 2020
    

15. Fischer–Tropsch synthesis, the effect of promoters, catalyst support, and reaction conditions selection

    Abstract

    This work brings the overview of Fischer–Tropsch synthesis (FTS) from catalysis point of view. The role of promoters’ type and their amount...

    Jan Horáček in Monatshefte für Chemie - Chemical Monthly

    Article 06 May 2020
    

16. Prospects for Progress in Develo** Production Processes for the Synthesis of Olefins Based on Light Alkanes

    Abstract

    Catalytic processes and production facilities for the production of olefins based on light alkanes and various oil fractions are reviewed....

    E. V. Pisarenko, A. B. Ponomarev, ... A. A. Shevchenko in Theoretical Foundations of Chemical Engineering

    Article 01 October 2022
    

17. Innovation in Fischer–Tropsch: Develo** Fundamental Understanding to Support Commercial Opportunities

    In this contribution we provide details of the BP-Johnson Matthey proprietary Fischer–Tropsch technology and the advanced CANS reactor and catalyst...

    M. Peacock, J. Paterson, ... J. Clarkson in Topics in Catalysis

    Article Open access 12 February 2020
    

18. Effects of Al, Si, Ti, Zr Promoters on Catalytic Performance of Iron-Based Fischer–Tropsch Synthesis Catalysts

    Abstract

    Precipitated iron catalysts containing structural promoters were prepared and their Fischer–Tropsch synthesis (FTS) performance was tested...

    Weichao Chou, Peng Wu, ... Shuo Li in Catalysis Letters

    Article 27 January 2020
    

19. Cooperative effect of cobalt and zeolite in controlling activity and stability of a catalytic Fischer–Tropsch process

    The use of zeolites in Co-catalysts of Fischer–Tropsch synthesis (FTS) results in cooperative effect in the form of sudden increase of the zeolite...

    Liliya V. Sineva, Ekaterina Yu. Asalieva, ... Vladimir Z. Mordkovich in Applied Petrochemical Research

    Article Open access 20 February 2020
    

20. In situ XRD and Raman Investigation of the Activation Process over K–Cu–Fe/SiO₂ Catalyst for Fischer–Tropsch Synthesis Reaction

    A potassium- and copper-modified iron-based catalyst (K–Cu–Fe/SiO ₂ ) was synthesized by the co-precipitated method. The general structural properties...

    Zhi Yang, Mingsheng Luo, ... Buchang Shi in Catalysis Letters

    Article 20 February 2020