A CFD study on the start-up hydrodynamics of fluid catalytic cracking regenerator integrated with chemical looping combustion

Erdoğan, Ahmet; Güleç, Fatih

doi:10.1080/15567036.2024.2311327

All Outputs (3)

Status and Progress of Nanomaterials Application in Hydrogen Storage (2024)
Book Chapter
Güleç, F., Oakley, W., Liu, X., Nayebossadri, S., Wang, F., Smith, E. K., …Lester, E. H. (2024). Status and Progress of Nanomaterials Application in Hydrogen Storage. In J. A. Okolie, E. I. Epelle, A. Mukherjee, & A. El Din Mahmoud (Eds.), Nanomaterials for Sustainable Hydrogen Production and Storage (136-165). CRC Press. https://doi.org/10.1201/9781003371007-8

Hydrogen could be one of the long-term environmentally friendly solutions for a sustainable and clean energy future. The fundamental elements of a hydrogen economy are sustainable and clean hydrogen production, low-cost/high-capacity storage, wide di... Read More about Status and Progress of Nanomaterials Application in Hydrogen Storage.

Generalizability of empirical correlations for predicting higher heating values of biomass (2024)
Journal Article
Daskin, M., Erdoğan, A., Güleç, F., & Okolie, J. A. (2024). Generalizability of empirical correlations for predicting higher heating values of biomass. Energy Sources, Part A, 46(1), 5434-5450. https://doi.org/10.1080/15567036.2024.2332472

Designing efficient biomass energy systems requires a thorough understanding of the physicochemical, thermodynamic, and physical properties of biomass. One crucial parameter in assessing biomass energy potential is the higher heating value (HHV), whi... Read More about Generalizability of empirical correlations for predicting higher heating values of biomass.

A CFD study on the start-up hydrodynamics of fluid catalytic cracking regenerator integrated with chemical looping combustion (2024)
Journal Article
Erdoğan, A., & Güleç, F. (in press). A CFD study on the start-up hydrodynamics of fluid catalytic cracking regenerator integrated with chemical looping combustion. Energy Sources, Part A, 46(1), 2941-2956. https://doi.org/10.1080/15567036.2024.2311327

The integration of chemical looping combustion with fluid catalytic cracking (CLC-FCC) is an innovative concept that serves as a cost-effective method for CO2 capture in refineries. This approach has the potential to reduce refinery CO2 emissions by... Read More about A CFD study on the start-up hydrodynamics of fluid catalytic cracking regenerator integrated with chemical looping combustion.