Bioheat, Biopower and Biogas

This report complements earlier OECD work on liquid biofuels and provides information on biomass based heat and power, as well as on biogas. It discusses the heterogeneous portfolio of different biomass feedstocks, conversion technologies, and pathways of utilisation.
Martin von Lampe, agricultural economist with the OECD Directorate for Trade and Agriculture, is the main author of this study.


It also shows that governments in many countries provide substantial support to the production and use of renewable energy in general, and bioenergy in particular; these support measures are highly diverse and are given at national and various sub-national levels.




The results of a large number of life-cycle analyses of various bioheat and biopower chains reviewed in this study indicate that the objective to reduce GHG emissions and fossil energy use is met; indeed the savings estimated for most chains are substantial when compared to fossil alternatives. At present, most of the chains examined do not compete with food and feed production, and thus the implications for agricultural markets are small.
It is clear, however, that if a stronger focus on agricultural biomass crops is to be developed, this will require careful design of support policies so as to avoid compromising the ability of the agricultural sector to provide food and feed in a sustainable manner.


Table of Contents
Executive Summary
Introduction
Key attributes of commercialised biomass crops
Conversion technologies
Combustion
Gasification
Conversion efficiencies for thermal processes
Combined heat and power (CHP) generation (cogeneration)
Anaerobic digestion (AD)
Material preparation
Bioenergy support policy developments
The environmental performance of alternative bioenergy chains'
GHG savings
Energy balance
Market developments in the overall bioenergy context
Costs of bioheat, biopower and biogas production
Implications for agriculture
Annex 1. Technical remarks on live-cycle analyses
References
Additional references for life cycle data