Characterisation of spruce, salix, miscanthus and wheat straw for pyrolysis applications

Characterisation of spruce, salix, miscanthus and wheat straw for pyrolysis applications
Written by esba

This research details the characterisation of four Irish-grown lignocellulosic biomasses for pyrolysis by biomass composition analysis, TGA, and Py-GC/MS-FID. Ash content (mf) increased in the order spruce (0.26wt.%)<salix (1.16wt.%)<miscanthus (3.43wt.%)<wheat straw (3.76wt.%). Analysis of hydrolysis-derived sugar monomers showed that xylose concentrations (4.69–26.76wt.%) ranged significantly compared to glucose concentrations (40.98–49.82wt.%). Higher hemicellulose and ash contents probably increased non-volatile matter and decreased the temperature of maximum degradation by TGA as well as yields of GC-detectable compounds by Py-GC/MS-FID. Differences in composition and degradation were reflected in the pyrolysate composition by lower quantities of sugars (principally levoglucosan), pyrans, and furans for salix, miscanthus, and wheat straw compared to spruce and increased concentrations of cyclopentenones and acids.

Authors; Butler, Eoin; Devlin, Ger; Meier, Dietrich; McDonnell, Kevin; March 2013

Link: http://www.sciencedirect.com/science/article/pii/S0960852412018688

About the author

esba

The European Straw Building Association is an independent European association, devoid of any profit making motive. The object of the Association is to promote and develop the use of straw, as a sustainable way of building in all the senses of the term “sustainable”: renewable, ecological, healthy, energy and climate efficient, social and economic.
The Association is a federation composed of organisations and people particularly concerned with the use of straw in buildings.