Key Words:Coal combustion;Carbon - Carbon dioxide - Catalysis - Coal - Coal gasification - Energy utilization - Fluidization - Fluidized bed combustion - Fluidized beds - Oxygen - Potassium - Sintering;Attrition resistances - Carbon conversion rate - Carbon conversions - Chemical-looping combustion - Energy utilization efficiency - Enhancement mechanism - Gasification reaction - Large scale preparation

Abstract:Chemical looping combustion (CLC) of coal is an attractive technology with inherent CO<inf>2</inf>separation and high energy utilization efficiency. The large-scale preparation of a cheap oxygen carrier with high attrition resistance challenges the scale-up step of CLC reactor systems. To improve the reactivity between the CaSO<inf>4</inf>/bentonite (CaBen) oxygen carrier and coal, CaSO<inf>4</inf>-Fe<inf>2</inf>O<inf>3</inf>/bentonite (CaFeBen) and CaSO<inf>4</inf>-K<inf>2</inf>CO<inf>3</inf>/bentonite (CaKBen), decorated by Fe<inf>2</inf>O<inf>3</inf>and K<inf>2</inf>CO<inf>3</inf>, respectively, were prepared in this work. The active component content, multi-cycle reactivity, and enhancement mechanism of two decorated oxygen carriers were investigated in a fluidized bed with steam as the gasification-fluidization medium. Finally, three types of coals, including lignite, bitumite, and anthracite, were used as fuel. The addition of Fe<inf>2</inf>O<inf>3</inf>and K<inf>2</inf>CO<inf>3</inf>can improve the reactivity of the CaBen oxygen carrier but degrade the attrition resistance slightly. The multiple-cycle experiments indicated that Fe<inf>2</inf>O<inf>3</inf>itself is the oxygen carrier for coal CLC with high reactivity, while K<inf>2</inf>CO<inf>3</inf>acts as the catalysis for coal gasification. The carbon conversion rate of the three coals that reacted with the CaKBen oxygen carrier was higher than that with CaFeBen as the oxygen carrier because of catalysis of potassium on the coal gasification reaction. However, the CaKBen oxygen carrier particles were seriously sintered, and the potassium content in the oxygen carrier reduced with the increasing redox cycles. The coals with high volatile and ash contents have a high instantaneous rate of carbon conversion reacted with two decorated oxygen carriers.<br/> &copy; 2014 American Chemical Society.

Volume:28

Issue:11

Translation or Not:no