Prof. Hristo Sapoundjiev

Natural Resources Canada, Canada

Email: [email protected]

Qualifications

1989 Ph.D., Institute of Catalysis, Russia, Chemical Engineering

1973 M.S., Technological University, Sofia, Bulgaria, Chemical Engineering

1972 B.S., Technological University, Sofia, Bulgaria, Chemical Engineering

Publications (Selected)

1. Poirier, M., Giguère, D., & Sapoundjiev, H. (2018). Experimental parametric investigation of vapor ejector for refrigeration applications. Energy, 162, 1287-1300.
2. Ashrafi, O., Bashiri, H., Esmaeili, A., Sapoundjiev, H., & Navarri, P. (2018). Ejector integration for the cost effective design of the Selexol™ process. Energy, 162, 380-392.
3. Reddick, C., Sorin, M., Sapoundjiev, H., & Aidoun, Z. (2018). Effect of a mixture of carbon dioxide and steam on ejector performance: An experimental parametric investigation. Experimental Thermal and Fluid Science, 92, 353-365.
4. Reddick, C., Sorin, M., Sapoundjiev, H., & Aidoun, Z. (2016). Carbon capture simulation using ejectors for waste heat upgrading. Energy, 100, 251-261.
5. Reddick, C., Li, C., Sorin, M., & Sapoundjiev, H. (2014). Lowering the energy cost of carbon dioxide capture using ejectors for waste heat upgrading. Energy Procedia, 63, 715-726.
6. Fuxman, A., Aksikas, I., Forbes, J. F., Hayes, R. E., & Hristo, S. (2010, June). LQ-control of a flow reversal reactor for the catalytic combustion of fugitive methane emissions. In 18th Mediterranean Conference on Control and Automation, MED'10 (pp. 904-909). IEEE.
7. Litto, R., Hayes, R. E., Sapoundjiev, H., Fuxman, A., Forbes, F., Liu, B., & Bertrand, F. (2006). Optimization of a flow reversal reactor for the catalytic combustion of lean methane mixtures. Catalysis Today, 117(4), 536-542.
8. Kushwaha, A., Poirier, M., Hayes, R. E., & Sapoundjiev, H. (2005). Heat extraction from a flow reversal reactor in lean methane combustion. Chemical Engineering Research and Design, 83(2), 205-213.
9. Kushwaha, A., Poirier, M., Sapoundjiev, H., & Hayes, R. E. (2004). Effect of reactor internal properties on the performance of a flow reversal catalytic reactor for methane combustion. Chemical Engineering Science, 59(19), 4081-4093.
10. Salomons, S., Hayes, R. E., Poirier, M., & Sapoundjiev, H. (2004). Modelling a reverse flow reactor for the catalytic combustion of fugitive methane emissions. Computers & Chemical Engineering, 28(9), 1599-1610.

Profile Details

WoS ResearcherID: DXS-6395-2022

https://orcid.org/0000-0002-7675-4250

https://www.researchgate.net/profile/Hristo-Sapoundjiev