Sustainable In-Situ Heavy Oil and Bitumen Recovery
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portes grátis
Sustainable In-Situ Heavy Oil and Bitumen Recovery
Techniques, Case Studies, and Environmental Considerations
Ahmadi, Mohammadali
Gulf Publishing Company
03/2023
510
Mole
Inglês
9780323908481
15 a 20 dias
Descrição não disponível.
Dr. Mohammadali Ahmadi holds a BSc with distinction (Petroleum University of Technology), an MSc (Petroleum University of Technology) in Petroleum Engineering, and an MEng (Memorial University of Newfoundland) in Process Engineering, as well as a Ph.D. in Chemical and Petroleum Engineering from the University of Calgary. He published more than 160 papers in highly-ranked ISI journals and served as an invited speaker and session chair for various conferences worldwide. According to a database published in Elsevier publishing group in collaboration with Stanford University, he was named as a top 2% of the most cited scientists from 2018 to 2022. He was the recipient of multiple prestigious awards and scholarships, such as the Vanier scholarship, Izaak Walton Killam Doctoral Scholarship, the Alberta Innovates Graduate Student Scholarship, and the J. B. Hyne Research Innovation Award. As an Associate Editor, Editorial Board Member, and Advisory Board Member, he has served several international chemical engineering and energy-related journals. His research interests include molecular dynamics (MD) simulation, mathematical modeling, enhanced oil recovery (EOR), thermodynamics, and artificial intelligence and machine learning application in the oil and gas industry.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adsorption; Air injection; Analytical modeling; Asphaltene; Azeotropic temperature; Binary mixture; Bitumen; Bitumen recovery; Bitumen reserves; Catalyst; Characterization; Chemical; Chemical stability; Coinjection; Coke; Condensation; Convective dispersion; Cracking; CSI; CSS; Cyclic solvent injection; Cyclic steam injection; Density; Diffusion; Electromagnetic heating; Emulsification; ES-SAGD; Field trials; Foam generation; Heat insulation; Heavy oil; Heavy oil recovery; High-temperature oxidation; Hybrid method; Hydrogen donor; Hydrogeneration; In-situ combustion; In-situ thermal recovery; In-situ upgrading; Low-temperature oxidation; Microwave; Mixture viscosity; N-Solv; NCG-SAGD; NCG-steam coinjection; Noncondensable gas; Nonthermal recovery; Phase behavior; Post-CCS; Post-SAGD; Preheating; Radio frequency (RF); Reaction; Relative permeability; SAGD; Solvent; Steam; Steam chamber; Steam coinjection; Steam flooding
Dr. Mohammadali Ahmadi holds a BSc with distinction (Petroleum University of Technology), an MSc (Petroleum University of Technology) in Petroleum Engineering, and an MEng (Memorial University of Newfoundland) in Process Engineering, as well as a Ph.D. in Chemical and Petroleum Engineering from the University of Calgary. He published more than 160 papers in highly-ranked ISI journals and served as an invited speaker and session chair for various conferences worldwide. According to a database published in Elsevier publishing group in collaboration with Stanford University, he was named as a top 2% of the most cited scientists from 2018 to 2022. He was the recipient of multiple prestigious awards and scholarships, such as the Vanier scholarship, Izaak Walton Killam Doctoral Scholarship, the Alberta Innovates Graduate Student Scholarship, and the J. B. Hyne Research Innovation Award. As an Associate Editor, Editorial Board Member, and Advisory Board Member, he has served several international chemical engineering and energy-related journals. His research interests include molecular dynamics (MD) simulation, mathematical modeling, enhanced oil recovery (EOR), thermodynamics, and artificial intelligence and machine learning application in the oil and gas industry.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Adsorption; Air injection; Analytical modeling; Asphaltene; Azeotropic temperature; Binary mixture; Bitumen; Bitumen recovery; Bitumen reserves; Catalyst; Characterization; Chemical; Chemical stability; Coinjection; Coke; Condensation; Convective dispersion; Cracking; CSI; CSS; Cyclic solvent injection; Cyclic steam injection; Density; Diffusion; Electromagnetic heating; Emulsification; ES-SAGD; Field trials; Foam generation; Heat insulation; Heavy oil; Heavy oil recovery; High-temperature oxidation; Hybrid method; Hydrogen donor; Hydrogeneration; In-situ combustion; In-situ thermal recovery; In-situ upgrading; Low-temperature oxidation; Microwave; Mixture viscosity; N-Solv; NCG-SAGD; NCG-steam coinjection; Noncondensable gas; Nonthermal recovery; Phase behavior; Post-CCS; Post-SAGD; Preheating; Radio frequency (RF); Reaction; Relative permeability; SAGD; Solvent; Steam; Steam chamber; Steam coinjection; Steam flooding
