Biomass gasification under high solar heat flux: Experiments on thermally thick samples

Abstract: gasification under high solar heat flux: Experiments on thermally thick samples. Fuel, Elsevier, 2016, 174, pp.257-266 Beech wood is exposed to radiative heat flux higher than 1000 kW/m 2 . Sample geometry evolves dramatically. Temperature higher than 1500°C are reached. Tar yield is lowered by thermal cracking and steam reforming. Initial moisture content plays key role in the biomass behavior. t r a c tIn this study, thermally thick samples of beech wood are exposed to radiative heat flux above 1 MW/m 2 (10… Show more

“…The experimental device used to investigate solar pyro-gasification of thermally thick wood samples is extensively described in [30] 1). During a run, the beech wood sample is placed in the chamber while being exposed to the incident heat flux.…”

“…Schematic of the reaction chamber. 1: nitrogen inlet, 2: porous medium, 3: sample, 4: incident heat flux, 5: quartz window, 6: tar condensing device, 7: cotton trap, 8: insulating material [30]. • Darcy's law is used to derive gas phase velocity.…”

“…3). It is only possible because a special care was taken experimentally in ensuring that the samples fibers were parallel to the incident heat flux [30].…”

“…In order to do so, two advanced modelling strategies have to be implemented: moving mesh and radiation penetration inside of the medium. The model predictions are then validated against the experimental results obtained in [30]. Once the validity of the model has been established, its predictions are used to derive further insights on biomass behaviour under high solar heat flux.…”

“…In a previous work [30], solar pyro-gasification of thermally thick wood samples was conducted experimentally. Beech wood cylinders (10 cm diameter, 5 cm high) were directly exposed to radiative heat flux above 1 MW/m 2 .…”

Biomass gasification under high solar heat flux: Advanced modelling

“…The experimental device used to investigate solar pyro-gasification of thermally thick wood samples is extensively described in [30] 1). During a run, the beech wood sample is placed in the chamber while being exposed to the incident heat flux.…”

“…Schematic of the reaction chamber. 1: nitrogen inlet, 2: porous medium, 3: sample, 4: incident heat flux, 5: quartz window, 6: tar condensing device, 7: cotton trap, 8: insulating material [30]. • Darcy's law is used to derive gas phase velocity.…”

“…3). It is only possible because a special care was taken experimentally in ensuring that the samples fibers were parallel to the incident heat flux [30].…”

“…In order to do so, two advanced modelling strategies have to be implemented: moving mesh and radiation penetration inside of the medium. The model predictions are then validated against the experimental results obtained in [30]. Once the validity of the model has been established, its predictions are used to derive further insights on biomass behaviour under high solar heat flux.…”

“…In a previous work [30], solar pyro-gasification of thermally thick wood samples was conducted experimentally. Beech wood cylinders (10 cm diameter, 5 cm high) were directly exposed to radiative heat flux above 1 MW/m 2 .…”

Biomass gasification under high solar heat flux: Advanced modelling

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