Maximizing the concentrations of hydrogen, carbon monoxide and methane produced from the pyrolysis of a MixAlco process derived sludge
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The MixAlco process converts heterogeneous biomass feedstocks into gasoline, JP-8 and diesel via biochemical and chemical pathways, generating sludge in the effluent stream. The purpose of this article is to demonstrate how the generated sludge can be further converted into useful products such as hydrogen, methane and carbon monoxide, all produced in their maximum possible concentrations. Experiments were performed in a non-catalytic environment at atmospheric pressure conditions, studying synthesis gas and methane concentrations for temperatures in the range of 630/903-770/1043 C/K and pretreated sludge feed rates in the range of 290-374 g/min. With an auger driven reactor system and the statistical response surface method, the highest possible synthesis gas composition was 43.9 3.36 vol% H 2/33.3 3.29 vol% CO at 740/1013 C/K. The methane concentration was 20.3 2.99 vol%. The generated empirical models for both hydrogen and methane concentrations were significant but that for the carbon monoxide concentration behavior was not. As an input factor, temperature was significant but sludge feed rate was not. Mass and energy balances revealed process efficiency decreased with increase in temperature although the process could be self-sustaining even at the lowest process efficiency. 2013 Elsevier B.V. All rights reserved.