Lu Aye and Yamaguchi, D 2006, 'Supercritical water gasification of sewage sludge', (Ref: 526-040) the International Association of Science and Technology for Development (IASTED) International Conference on Energy and Power Systems (EPS 2006), 29-31 March 2006, Chiang Mai, pp. 1-9.

Abstract

Hydrogen from biomass steam gasification (SG) is a net zero green house gas emission fuel. Sewage sludge (SS) has a potential to produce hydrogen-rich gaseous fuel. Therefore, hydrogen production from sewage sludge may be a solution for cleaner fuel and the sewage sludge disposal problem. This paper aims to develop a computer model for SSSG by using Gibbs free energy minimization (GFEM) method. The computer model developed was used to determine the hydrogen production limits for various steam to biomass ratios (S/Bs). Results from the model showed that for equivalent ratios (ERs) 0 to 0.5 hydrogen yield ranges from 135 to 70 g/kg of dry ash free (daf) SS. It was found that the higher the S/B, the higher the hydrogen yield is, however, heat energy requirement increases with S/B. Results from the simulations showed that above ER 0.48, the SSSG can operate without external heat input and the hydrogen production is about 75 g/kg of daf SS. It should be noted that this optimum ER would change depending on the amount of heat loss and other operating parameters.

Keywords: Hydrogen; Supercritical water gasification; Sewage sludge; Equilibrium analysis