Schäfer, Winfried (2011) Entropy of energy crops and GHG mitigation. Agronomy Research, 9 (1), pp. 223-228.
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Summary in the original language of the document
The photosynthesis process generates beside carbon hydrates also complex chemical compounds. The artificial synthesis of such compounds is often impossible or may require high energy input compared to their heat value. In other words, the entropy of energy crops is low compared to fossil fuels. This fact is usually neglected in energy analysis of bio fuels resulting in questionable political decisions concerning renewable energy. The objective of this paper is to demonstrate that the GHG mitigation potential of e.g. fibre crops may be enhanced using them first as raw material for commercial products before processing to fuel at the end of their lifetime. For example, reed canary grass may be used for paper production and after recycling, the used paper can be processed to insulation material in buildings before thermal use. Such a chain of usage trades off both, the low entropy as raw material for pulp and the heat value of the carbon hydrates. A calculation model is used to estimate the reduction of CO2 equivalents of two options: Alternative A: Production of reed canary grass + processing to fuel for heating. Alternative B: Production of reed canary grass + processing to paper + recycling of paper + processing to insulation material + installation of insulation material in buildings + recycling of insulation material + processing for heating. The results show, that alternative B is outclassing alternative A. However, fossil fuels render a higher energy return of investment and are for the time being more competitive than both options.
EPrint Type: | Journal paper |
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Keywords: | energy analysis, energy crops, GHG mitigation, reed canary grass |
Subjects: | Values, standards and certification > Assessment of impacts and risks Crop husbandry Environmental aspects > Air and water emissions |
Research affiliation: | Finland > Luke Natural Resources Institute > Agricultural Engineering |
ISSN: | 1406-894X |
Related Links: | http://bse.emu.ee/ |
Deposited By: | Schäfer, Dr. Winfried Christian |
ID Code: | 19458 |
Deposited On: | 28 Sep 2011 05:27 |
Last Modified: | 28 Sep 2011 05:27 |
Document Language: | English |
Status: | Published |
Refereed: | Peer-reviewed and accepted |
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