TY - BOOK SN - 9783319075785; 331907640X; 9783319075778 TI - Biomass steam gasification for hydrogen production: A systematic review ID - scholars4304 EP - 343 A1 - Inayat, A. A1 - Ahmad, M.M. A1 - Yusup, S. A1 - Mutalib, M.I.A. A1 - Khan, Z. Y1 - 2014/// N1 - cited By 7 KW - Biomass; Carbon dioxide; Energy policy; Fossil fuels; Gasification; Hydrogen; Kinetics; Palm oil; Petroleum prospecting; Steam KW - Biomass Gasification; Carbon dioxide capture; Catalytic steam gasifications; CO2 capture; Kinetics modeling; Oil palm empty fruit bunch; Production of hydrogen; Steam gasification KW - Hydrogen production SP - 329 IS - 978331 PB - Springer International Publishing N2 - The production of hydrogen as a clean and sustainable fuel is becoming attractive due to the energy crisis and increasing environmental issues associated with fossil fuel usage. Biomass steam gasification with in situ carbon dioxide capture has good prospects for the production of hydrogen-rich gas. Furthermore, hydrogen yield can be enhanced using catalyst steam gasification. This chapter comprises the literature review on both the approaches, i.e., experimental and modeling used to study the hydrogen production from biomass gasification specifically using pure steam as gasification agent. There were several modeling approaches for gasification process based on the kinetics, equilibrium, and the fluid dynamics behaviors. A detailed discussion has been carried out in this chapter on modeling and simulation for hydrogen production from biomass based on kinetics modeling. Experimental studies have been published on steam gasification and steam gasification with CO2 capture and catalytic steam gasification has been discussed. Gasification for hydrogen production from oil palm empty fruit bunch has also been discussed. © 2014 Springer International Publishing Switzerland. All rights reserved. UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84930267731&doi=10.1007%2f978-3-319-07641-6_19&partnerID=40&md5=e223a38df3ed954018d1a99820c44cdc AV - none ER -