Brian S. Haynes scite author profile

We describe a pilot plant for continuous hydrothermal processing of biomass. Results were obtained for two microalgae strains, Chlorella and Spirulina, across a range of biomass loadings (1-10 wt%), temperatures (250-350 °C), residence times (3-5 minutes) and pressures (150-200 bar). Overall, the biocrude yields were found to increase with higher biomass loading, higher temperature and longer residence time. More severe reaction conditions also reduced the oxygen content of the bio-crude, while the nitrogen content was found to increase with higher temperatures, indicating an increase in the bio-crude production from the protein fraction of the algae. The maximum bio-crude yield obtained was 41.7 wt% for processing Chlorella with a solids loading of 10 wt% at 350 °C and 3 minutes residence time. The present results suggest maximal yields may be obtained in much shorter residence times under continuous flow hydrothermal processing than batch studies have suggested. The maximal yield, however, may not be optimal in terms of properties.A substantial fraction of the feedstock carbon reported to the aqueous phase -this was up to 60% but decreased to 30% at the highest biomass loadings. Gas production (>90 mol% CO 2 ) increased with severity of processing, reaching up to 5% of the feedstock carbon. Finally, the solid yields consistently decreased with increasing temperatures and residence times.

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Biocrude yield and productivity from the hydrothermal liquefaction of marine and freshwater green macroalgae

Neveux

Yuen

Jazrawi

et al. 2014

Bioresource Technology

214

130

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Kinetic and Thermodynamic Sensitivity Analysis of the NO-Sensitised Oxidation of Methane

Bromly¹,

Barnes²,

Muris

et al. 1996

Combustion Science and Technology

139

105

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Brian S. Haynes

Soot formation

On the CFD modelling of Taylor flow in microchannels

Pilot plant testing of continuous hydrothermal liquefaction of microalgae

Biocrude yield and productivity from the hydrothermal liquefaction of marine and freshwater green macroalgae

Kinetic and Thermodynamic Sensitivity Analysis of the NO-Sensitised Oxidation of Methane

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