M. H. Tahir Et Al. , "Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses," BIORESOURCE TECHNOLOGY , vol.279, pp.67-73, 2019
Tahir, M. H. Et Al. 2019. Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses. BIORESOURCE TECHNOLOGY , vol.279 , 67-73.
Tahir, M. H., ÇAKMAN, G., Goldfarb, J. L., Topcu, Y., Naqvi, S. R., & Ceylan, S., (2019). Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses. BIORESOURCE TECHNOLOGY , vol.279, 67-73.
Tahir, Mudassir Et Al. "Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses," BIORESOURCE TECHNOLOGY , vol.279, 67-73, 2019
Tahir, Mudassir H. Et Al. "Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses." BIORESOURCE TECHNOLOGY , vol.279, pp.67-73, 2019
Tahir, M. H. Et Al. (2019) . "Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses." BIORESOURCE TECHNOLOGY , vol.279, pp.67-73.
@article{article, author={Mudassir Hussain Tahir Et Al. }, title={Demonstrating the suitability of canola residue biomass to biofuel conversion via pyrolysis through reaction kinetics, thermodynamics and evolved gas analyses}, journal={BIORESOURCE TECHNOLOGY}, year=2019, pages={67-73} }