Life cycle assessment of hydrogen production from biomass gasification systems

Abstract

In this study a Life Cycle Assessment (LCA) of biomass-based hydrogen production is performed for a period from biomass production to the use of the produced hydrogen in Proton Exchange Membrane (PEM) fuel cell vehicles. The system considered is divided into three subsections as pre-treatment of biomass hydrogen production plant and usage of hydrogen produced. Two different gasification systems a Downdraft Gasifier (DG) and a Circulating Fluidized Bed Gasifier (CFBG) are considered and analyzed for hydrogen production using actual data taken from the literature. Fossil energy consumption rate and Green House Gas Emissions (GHG) are defined and indicated first. Next the LCA results of DG and CFBG systems are compared for 1 MJ/s hydrogen production to compare with each other as well as with other hydrogen production systems. While the fossil energy consumption rate and emissions are calculated as 0.088 MJ/s and 6.27 CO<inf>2</inf> eqv. g/s in the DG system they are 0.175 MJ/s and 17.13 CO<inf>2</inf> eqv. g/s in the CFBG system respectively. The Coefficient of Hydrogen Production Performance (CHPP) (newly defined as a ratio of energy content of hydrogen produced from the system to the total energy content of fossil fuels used) of the CFBG and DG systems are then determined to be 5.71 and 11.36 respectively. Thus the effects of some parameters such as energy efficiency ratio of cost of hydrogen on natural gas and capital investments efficiency are investigated. Finally the costs of GHG emissions reduction are calculated to be 0.0172 and 0.24 $/g for the DG and CFBG systems respectively. © 2012 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved. © 2013 Elsevier B.V. All rights reserved.