Details

Autor(en) / Beteiligte

• Chen, Wei-Hsin
• Lin, Bo-Jhih

Titel

Hydrogen and synthesis gas production from activated carbon and steam via reusing carbon dioxide

Ist Teil von

• Applied energy, 2013-01, Vol.101, p.551-559

Ort / Verlag

Kidlington: Elsevier Ltd

Erscheinungsjahr

2013

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• ► A novel method of producing hydrogen and syngas is conducted. ► The reaction combines solution loss reaction and steam gasification reaction. ► Activated carbon is employed and CO2 is reused. ► Reaction temperature and steam/CO2 molar ratio are taken into account. ► Porous structure of activated carbon has a significant effect on syngas formation. A method of producing hydrogen and syngas from the interaction of activated carbon, steam and carbon dioxide is conducted in the present study, where the interaction combines the solution loss reaction and steam gasification reaction. Two important parameters of reaction temperature and steam/CO2 molar ratio (i.e. S/C ratio) in the ranges of 850–950°C and 0–1 are taken into account. The experiments indicate that the CO2 conversion from the reaction in the absence of steam is around 50% at 950°C. Increasing S/C ratio increases the H2 yield, but the CO2 conversion decreases, revealing the competing roles played by steam and CO2 with the reaction of activated carbon. With the conditions of S/C=0.5 and 950°C, the CO2 conversion drops to around 30% and the H2 yield is around 0.45mol (mol H2O)−1. Furthermore, from the analyses of SEM and BET, the results indicate that an increase in S/C ratio intensifies the number of pores on the surface of the activated carbon, and its surface area is increased from 833.13m2g−1 in the raw material to 1100–1450m2g−1 in the reacted activated carbon. It follows that the porous structure of the activated carbon has a significant influence on syngas formation. In summary, the novel method simultaneously possesses the merits of low cost of raw material, reusing CO2 and generating hydrogen and syngas.