Bukur, Dragomir individual record
Professor
Positions:
overview

A multiple award winner for furthering knowledge in his field, Dragomir Bukur's research interests are in the areas of gas (or coal)-to-liquids technology, applied catalysis and multiphase reaction systems.

education and training
selected publications
Academic Articles116
  • Nikačević, N., Todić, B., Mandić, M., Petkovska, M., & Bukur, D. B. (2020). Optimization of forced periodic operations in milli-scale fixed bed reactor for Fischer-Tropsch synthesis. Catalysis Today. 343, 156-164.
  • Bukur, D. B., Mandić, M., Todić, B., & Nikačević, N. (2020). Pore diffusion effects on catalyst effectiveness and selectivity of cobalt based Fischer-Tropsch catalyst. Catalysis Today. 343, 146-155.
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  • Ma, W., Jacobs, G., Sparks, D. E., Todic, B., Bukur, D. B., & Davis, B. H. (2020). Quantitative comparison of iron and cobalt based catalysts for the Fischer-Tropsch synthesis under clean and poisoning conditions. Catalysis Today. 343, 125-136.
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  • Ipsakis, D., Heracleous, E., Silvester, L., Bukur, D. B., & Lemonidou, A. A. (2020). Reaction-based kinetic model for the reduction of supported NiO oxygen transfer materials by CH4. Catalysis Today. 343, 72-79.
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  • Bukur, D. B., Silvester, L., Fischer, N., Claeys, M., & Lemonidou, A. A. (2019). On the use of an in situ magnetometer to study redox and sintering properties of NiO based oxygen carrier materials for chemical looping steam methane reforming. International Journal of Hydrogen Energy. 44(33), 18093-18102.
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Chapters1
  • Ma, W., Graham, U., Jacobs, G., Todic, B., Bukur, D., & Davis, B. (2016). Fischer-Tropsch Synthesis: Effect of CO Conversion on Product Selectivities during Deactivation or by Changing Space Velocity at Stable Conditions over Unpromoted and Ru-Promoted 25%Co/Al2O3 Catalysts. Fischer-Tropsch Synthesis, Catalysts, and Catalysis. 117-150. CRC Press.
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Conference Papers51
  • Ipsakis, D., Heracleous, E., Silvester, L., Bukur, D. B., & Lemonidou, A. A. (2018). Kinetic modeling of NiO-based oxygen carriers for the sorption enhanced chemical looping steam CH4 reforming. Materials Today: Proceedings. 5(14), 27353-27361.
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  • Ipsakis, D., Heracleous, E., Silvester, L., Bukur, D. B., & Lemonidou, A. A. (2018). Kinetic modeling of NiO-based oxygen carriers for the sorption enhanced chemical looping steam CH4 reforming. Materials Today Proceedings. 5(14), 27353-27361.
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  • (2017). Heat generation and removal in fixed-bed reactors for fischer-tropsch synthesis. Catalysis and Reaction Engineering Division 2017 - Core Programming Area at the 2017 AIChE Annual Meeting. 2, 471-474.
  • Mandic, M., Todic, B., Zivanic, L., Nikacevic, N., & Bukur, D. B (2016). Modelling of diffusion-reaction interaction inside the co-based catalyst particles for the fischer-tropsch synthesis. Catalysis and Reaction Engineering Division 2016 - Core Programming Area at the 2016 AIChE Annual Meeting. 2, 557-560.
  • Silvester, L., Bukur, D., Antzara, A., Heracleous, E., Ipsakis, D., & Lemonidou, A. (2015). Influence of supports on chemical looping methane reforming activity of NiO-based oxygen transfer materials. Innovations of Green Process Engineering for Sustainable Energy and Environment 2015 - Topical Conference at the 2015 AIChE Annual Meeting. 81-83.
recent teaching activities
chaired theses and dissertations
Email
d-bukur@tamu.edu
First Name
Dragomir
Last Name
Bukur