Effect of CaO on tar reforming to hydrogen-enriched gas with in-process CO2 capture in a bubbling fluidized bed biomass steam gasifier

Previous studies showed that calcium oxide (CaO), when added to a biomass steam gasifier, could play the role of both CO2 sorbent and tar reforming catalyst, and thereby produce more hydrogen. However, most of these works focused on the former role with little attention to tar reforming aspect of Ca...

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Bibliographic Details
Published in:International journal of hydrogen energy 2013-11, Vol.38 (34), p.14495-14504
Main Authors: Udomsirichakorn, Jakkapong, Basu, Prabir, Salam, P. Abdul, Acharya, Bishnu
Format: Article
Language:English
Subjects:
Alternative fuels. Production and utilization
Applied sciences
Biomass
Bubbling fluidized bed gasifier
CaO
Catalytic tar reforming
CO2 absorption
Energy
Exact sciences and technology
Fuels
Hydrogen
Hydrogen production
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Summary:Previous studies showed that calcium oxide (CaO), when added to a biomass steam gasifier, could play the role of both CO2 sorbent and tar reforming catalyst, and thereby produce more hydrogen. However, most of these works focused on the former role with little attention to tar reforming aspect of CaO. Therefore, this work aims primarily at studying the tar reforming effect of in-bed CaO. To this end, an in-depth analysis of the effect of CaO on tar yield and composition is presented. The present work also studies the role of CaO as a CO2 sorbent to enhance hydrogen production from steam gasification of biomass in a bubbling fluidized bed. The influence of different operating parameters, temperature (T) and steam to biomass (S/B) ratio, as well as the effect of using in-bed CaO on gas and tar production is investigated. Results show that the maximum H2 and minimum CO2 concentration of 63.07% and 18.68%, respectively are obtained at T = 650 °C and S/B = 3.41. The maximum H2 yield of 256.81 ml g−1-biomass was obtained at T = 700 °C and S/B = 3.41, at which the minimum tar content of 6.45 g N m−3 was also received. Compared to a bed of sand alone, a 20% higher H2 concentration, an almost double H2 yield and a 67% reduction in tar content were obtained when a bed of CaO was used. Moreover, shifting the tar species from higher to fewer ring structures as a result of in-bed CaO can reduce tar dew point by 11 °C and tar carcinogenic potential by almost 60%. •The combined role of CaO as a CO2 sorbent and tar reforming catalyst for hydrogen enriched gas production was studied.•Optimization study for temperature, steam to biomass ratio and in-bed CaO for hydrogen enriched gas production was included.•In-depth analysis of tar was presented in both tar content and composition.•Tar dew point and carcinogenic potential were reported.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2013.09.055