TITLE:
An Experimental Determination of Gross Calorific Value of Different Agroforestry Species and Bio-Based Industry Residues
AUTHORS:
Ioannis Gravalos, Panagiotis Xyradakis, Dimitrios Kateris, Theodoros Gialamas, Dimitrios Bartzialis, Kyriakos Giannoulis
KEYWORDS:
Gross Calorific Value, Bomb Calorimeter, Biomass, Bioenergy, Agroforestry Residues
JOURNAL NAME:
Natural Resources,
Vol.7 No.1,
January
22,
2016
ABSTRACT: Solid biomass fuels are useful and cost effective renewable energy source. The energy content of biomass is determined by its calorific value. The objective of this study was to determine experimentally the gross calorific value (GCV) of different agroforestry species and bio-based industry residues that could be used by: a) companies specialized in processing raw biomass solid biofuel production, b) small-scale consumers (households, medium-sized residential buildings, etc.). The fuel samples used were from agricultural residues and wastes (rice husks, apricot kernels, olive pits, sunflower husks, cotton stems, etc.), energy crops and wetland herbs (cardoon, switchgrass, common reed, narrow-leaf cattail), and forest residues (populus, fagus, pinus). The GCV of the bio-mass samples was experimentally determined based on CEN/TS 14918:2005, and an oxygen bomb calorimeter was used (Model C5000 Adiabatic Calorimeter, IKA?-Werke, Staufen, Germany). The GCV of different agroforestry species and residues ranges from 14.3 - 25.4 MJ?kg–1. The highest GCV was obtained by seeds and kernels due to higher unit mass and higher lipid content. Pinus sylvestris with moisture content 24.59% obtained the lowest GCV (13.973 MJ?kg–1).