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Lindén, J.
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Publications (6/6 displayed)
- 2009Visualization of biomass pyrolysis and temperature imaging in a heated-grid reactor
- 2009Visualization of biomass pyrolysis and temperature imaging in a heated-grid reactorcitations
- 2009Visualization of biomass pyrolysis and temperature imaging in a heated-grid reactorcitations
- 2004Simple and efficient route to prepare homogeneous samples of Sr 2 FeMoO 6 with a high degree of Fe/Mo ordercitations
- 2003Observation of antiphase boundaries in Sr 2 FeMoO 6citations
- 2001Oxygen stoichiometry in the (Ba 0.5 La 0.5 ) (Fe 1-x Cu x )O 3-w (x=0-1) perovskite systemcitations
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article
Visualization of biomass pyrolysis and temperature imaging in a heated-grid reactor
Abstract
The main advantage of a heated-grid reactor for studying pyrolysis kinetics of solid fuel samples is that high heating rates of up to 1000 K/s can be obtained. However, one of the concerns is whether the temperature distribution over the grid material is uniform and whether the presence of a thermocouple welded to the grid causes any measurement errors. Biomass samples were placed on the heated-grid reactor, and the volatiles, emitted in the biomass pyrolysis process as hot gas plumes, were imaged with an infrared camera with a high framing speed. The temporal resolved infrared images indicate that the pyrolysis process does not take place at the same rate everywhere on the grid. Two-dimensional temperature images of a heated grid made of stainless steel were recorded using the method of laser-induced thermometry with thermographic phosphors. As expected from a heat-transfer model, measured temperatures were found to be significantly higher than temperatures indicated by a thermocouple welded to the bottom of the grid. It was also observed that there is a large temperature gradient between the two electrodes on which the grid is connected. It is shown that replacing a wire mesh by a foil as a grid material may lead to more homogeneous temperature distribution. The paper recommends additional research to demonstrate the suitability of the heated-grid reactor for carrying out accurate measurements. © 2009 American Chemical Society.