Journal
APPLIED ENERGY
Volume 190, Issue -, Pages 1174-1183Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.apenergy.2017.01.032
Keywords
Biomass; Ilmenite; Manganese; Chemical looping combustion; Large-scale
Categories
Funding
- Swedish Gasification Center (SFC)
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This paper presents an overview of the experience gained from operating a dual fluidized bed system with oxygen carriers and biomass for more than 1000 h. The tests were carried out in the Chalmers boiler/gasifier loop (with inputs of 12 MWth and 2-4 MWth, respectively), which is 2-4 orders of magnitude larger than most existing CLC units. Coarse biomass particles (i.e., commercial wood pellets) were fed as fuel onto the surface of a mild fluidized bed. This limits significantly the contacts between the volatiles and the oxygen carrier particles, as the flotsam fuel tends to remain on the surface of the bed while the volatiles are released. The oxygen carrier materials tested were ilmenite and a manganese ore. The influences on biomass conversion of fluidization velocity, fuel feeding rate, and circulation rate of the bed material were investigated. Both bed materials efficiently transported oxygen between the reactors, achieving up to 60% combustion of the gases released in the reactor at a relatively low temperature, i.e., 830 degrees C. The ilmenite outperformed the manganese ore under the conditions investigated. With oxygen carriers, the yield of hydrocarbons heavier than benzene was in the range of 10-11 g/N m(3), which was 70% (w/w) lower than that obtained in a reference case with silica-sand as the bed material. The conversion of volatile species to CO2 was limited by gas-solids mixing, which could be enhanced by altering the fluidization velocity. The circulation rate of the bed material and the fuel feeding rate were found to have important influences on the rate of char gasification. Given the relatively low operating temperature and the simple reactor design, relatively high conversion of biomass by the oxygen carriers was achieved. There is scope for further optimization of the operating conditions, to achieve higher conversion levels, which would enable the implementation of CLC of biomass on a large scale. (C) 2017 Elsevier Ltd. All rights reserved.
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