Freddy A. González scite author profile

This paper examines rich and ultrarich combustion of methanol and ethanol in a porous media reactor with an external heat exchanger to vaporize liquid fuels and recover combustion energy. Temperature, velocities, and chemical products of the combustion waves were recorded experimentally at a range of equivalence ratios from ϕ = 1.6 to 8.2 and oxygen content in the oxidizer from 10 to 23%. Experimental results show that the reactor can handle ultrarich combustion up to an equivalence ratio of 8.2 and obtained maximum conversion of hydrogen of 43 and 30% for methanol and ethanol, respectively. A high oxygen content in the oxidizer results in higher hydrogen and carbon monoxide concentrations. Conclusions show that the reactor for filtration combustion can be used to reform liquid fuels into hydrogen and syngas.

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Ignition delay times of live and dead pinus radiata needles

Reszka

Cruz

Valdivia

et al. 2020

Fire Safety Journal

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Freddy A. González

Hybrid filtration combustion of natural gas and coal

Hydrogen Production from Methanol and Ethanol Partial Oxidation

Ignition delay times of live and dead pinus radiata needles

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