Prof. Badie I. Morsi

Swanson School of Engineering

University of Pittsburgh, USA

Professor and Director of the Petroleum Engineering Programs

Executive Director of the Annual International Pittsburgh Coal Conference (PCC)

Email: [email protected]

Qualifications

1982 Sc.D., Institut National Polytechnique de Lorraine (INPL), Nancy, France, Chemical Engineering

1979 Ph.D., ENSIC, INPL - Nancy, France, Chemical Engineering

1977 M.S., ENSIC, INPL - Nancy, France, Chemical Engineering

1972 B.S., Cairo University, Egypt, Petroleum Engineering

Publications (Selected)

1. Li Q, Sowers A, Zhang L, et al. Conversion of CO2 from Power Plant into CaCO3 Nanoparticles[J]. Journal of Environmental Chemical Engineering, 2025: 120601.

2. Wang R, Siefert N S, Ashkanani H E, et al. Performance and Techno-Economic Analysis of an SMR-CCS Process for Blue Hydrogen Production: AI Predictions[J]. Energy & Fuels, 2025, 39(46): 22260-22281.
3. Li Q, Zhang L, Xing M, et al. Innovative Use of CaO in Combination with Amino Acid Salts to Convert CO2 as CaCO3 Nanoparticles Under Mild pH and Low Temperature[J]. Environmental Technology & Innovation, 2025: 104439.
4. Wang R, Ashkanani H, Smith K, et al. A comparative TEA of a two-step process using chemical solvents for producing an ultra-sweet natural gas[J]. Chemical Engineering Research and Design, 2025, 215: 238-252.
5. Wang R, Basha O M, Ashkanani H E, et al. Post-Combustion CO2 Capture from an Industrial Power Plant Using Five Chemical Solvents: A Comparative TEA[J]. Journal of Energy and Power Technology, 2024, 6(4): 1-37.、
6. Fonteix C, Meimaroglou D, Morsi B, et al. Vous avez dit matière noire ou énergie sombre?[J]. 2024.
7. Ashkanani H E, Wang R, Shi W, et al. TEA of the CO2 capture process in pre-combustion applications using thirty-five physical solvents: Predictions with ANN[J]. International Journal of Greenhouse Gas Control, 2023, 130: 104007.
8. Smith K H, Ashkanani H E, Thompson R L, et al. Performance of hydrophobic physical solvents for pre-combustion CO2 capture at a pilot scale coal gasification facility[J]. International Journal of Greenhouse Gas Control, 2023, 124: 103863.
9. Wang R, Ashkanani H E, Li B, et al. TEA of a unique two-pathways process for post-combustion CO2 capture[J]. Journal of Energy and Power Technology, 2022, 4(04).
10. Wang R, Ashkanani H E, Li B, et al. Development of an innovative process for post-combustion CO2 capture to produce high-value NaHCO3 nanomaterials[J]. International Journal of Greenhouse Gas Control, 2022, 120: 103761.
11. Li Q, Bao Z, Akhmedov N G, et al. Unraveling the role of Glycine in K2CO3 solvent for CO2 removal[J]. Industrial & Engineering Chemistry Research, 2022, 61(34): 12545-12554.
12. Smith K H, Ashkanani H E, Morsi B I, et al. Physical solvents and techno-economic analysis for pre-combustion CO2 capture: A review[J]. International Journal of Greenhouse Gas Control, 2022, 118: 103694.
13. Wickramasinghe S, Wang J, Morsi B, et al. Carbon dioxide conversion to nanomaterials: Methods, applications, and challenges[J]. Energy & Fuels, 2021, 35(15): 11820-11834.
14. Ashkanani H E, Wang R, Shi W, et al. Effect of power plant capacity on the CAPEX, OPEX, and LCOC of the CO2 capture process in pre-combustion applications[J]. International Journal of Greenhouse Gas Control, 2021, 109: 103371.

Profile Details

https://www.engineering.pitt.edu/people/faculty/badie-morsi/

https://scholar.google.com/citations?user=9_KiWpIAAAAJ&hl=en

https://www.researchgate.net/profile/Badie-Morsi

WoS Researcher ID: K-6016-2013