Advanced Combustion Systems, specifically Chemical Looping Combustion

Post Combustion Carbon dioxide Capture, specifically Aerosol formation

Clean Coal technologies

Natural gas flaring mitigation

Mercury emissions from industrial activities such as fossil fuel combustion and taconite production

Nasah, J., Srinivasachar, S., Laudal, D. “Method for Separation of Coal Conversion Products from Sorbents/Oxygen Carriers” Proceedings, 2017 International Pittsburgh Coal Conference

Srinivasachar, S., Nasah, J., Laudal, D. “Mitigation of Aerosol Emissions form Solvent-based Post-Combustion CO2 Capture Systems” Report. U.S. Department of Energy Agreement No. DE-SC0015737, 2016

Pei, P., Barse, K., Gil, A. J., Nasah, J. “Waste heat recovery in CO2 compression” International Journal of Greenhouse Gas Control, 2014

Pei P., Korom, S. F., Ling, K., Nasah, J. “Cost Comparison of Syngas Production from Natural Gas Conversion and Underground Coal Gasification” Mitigation and Adaptation Strategies for Global Change, 2014

Pei P., Nasah, J., Korom, S. F. “Feasibility Study of Underground Coal Gasification in Western North Dakota” Conference Poster: 2013 Gasification Technologies Conference

University of North Dakota, Grand Forks, ND, Ph.D. in Chemical Engineering, 2020

University of North Dakota, Grand Forks, ND, M.Sc. in Chemical Engineering,  2012

University of Buea, Buea, Cameroon, B.Sc. in Chemistry, 2007

work experience consists of six years of research in the field of energy and environment with a focus on clean coal technology development and testing. This experience is built on three years of graduate research work focused on curbing mercury emissions in the state of Minnesota to reduce mercury pollution in the Great Lakes. My current research is in the field of carbon dioxide capture from fossil fuel derived combustion gases using advanced techniques such as chemical looping combustion. Also researching methods to curb aerosol formation during post combustion CO2 capture processes.