%J Clean Technologies and Environmental Policy %X Hydrogen economy has become more attractive with the energy crises and environmental issues associated with fossil fuel utilization more so with the discovery that hydrogen can be produced from renewable biomass. This provides good prospects to Malaysia that generates abundant palm wastes. Nevertheless, there is still limited knowledge on kinetics parameters for hydrogen production from palm kernel shell (PKS) gasification. Hence, this work aims to develop a mathematical model that is able to describe the kinetics of steam gasification of PKS with in situ CO2 capture while considering tar formation. A mean-squared error minimization approach has been used to estimate the kinetics parameters of the gasification process. Using the calculated kinetics parameters the process efficiencies are profiled with respect to the effect of gasification temperature, steam/biomass ratio and sorbent/biomass ratio. The parametric study indicates that the three variables promote hydrogen production at different degree of influence. This developed model can be further extended to incorporate optimization study on the potential clean production of hydrogen from PKS. © 2013 Springer-Verlag Berlin Heidelberg. %I Springer Verlag %L scholars3999 %A T.Y. Ahmed %A M.M. Ahmad %A H.L. Lam %A S. Yusup %P 513-523 %K Carbon dioxide; Energy policy; Fossil fuels; Fuel economy; Gasification; Global warming; Hydrogen economy; Hydrogen fuels; Kinetics; Mean square error; Nuclear fuels, Environmental issues; Fossil fuel utilization; Gasification process; Gasification temperatures; Kinetics modelling; Kinetics parameter; Mean squared error; Palm kernel shells, Hydrogen production %O cited By 11 %V 15 %T Hydrogen from renewable palm kernel shell via enhanced gasification with low carbon dioxide emission %D 2013 %R 10.1007/s10098-013-0606-6 %N 3