Abstract
Laboratory- and pilot-scale two-stage air gasification of various types of biomass was performed to produce hydrogen-rich and low-tar gas. Typical tar removal apparatuses, such as scrubbers and electrostatic precipitators, were not employed and the only tar removal agent used was coal-based active carbon. The hydrogen content of all producer gases was remarkably high, whereas the tar content was low (maximum H2: 29 vol%; minimum tar: 0 mg/Nm3). The producer gases from the pilot-scale experiment also exhibited an exceedingly high hydrogen content and low tar content (maximum H2: 27 vol%; minimum tar: 3.3 mg/Nm3). The pilot-scale operation continued without any external heat supply via autothermal operation. A gas engine was connected to the pilot-scale gasification plant to generate electricity. The generated power ranged from 20 to 35 kWe depending on the type of biomass used. This indicated that the two-stage gasification process could be applied to decentralized power generation. To summarize, the present study provided positive experimental results of the two-stage gasification process in terms of tar reduction, hydrogen production, and power generation. Furthermore, studies on long-term operation are needed to obtain more reliable results.
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