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Benefit assessment of cost, energy, and environment for biomass pyrolysis oil
This study used life cycle assessment (LCA) to clarify the feasibility and potential effects of a new type of bioenergy by evaluating the cost, energy, and environmental efficiency of biomass pyrolysis oil in the production and usage stages. An annual yield of 10,000 t of pyrolysis oil processed wit...
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Published in: | Journal of cleaner production 2013-11, Vol.59, p.141-149 |
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Main Authors: | , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | This study used life cycle assessment (LCA) to clarify the feasibility and potential effects of a new type of bioenergy by evaluating the cost, energy, and environmental efficiency of biomass pyrolysis oil in the production and usage stages. An annual yield of 10,000 t of pyrolysis oil processed with the raw material of Cryptomeria residue was selected as the evaluated target. We used life cycle inventory and effect assessment to evaluate the advantages and disadvantages associated with the production of the new bioenergy. GaBi®4 software and the Eco-indicator 95 system were selected for the evaluation. The resulting calculated specific cost of pyrolysis oil production was NT$11,758/m3 pyrolysis oil (NT$1 = US$0.034 in October 2012), and pyrolysis oil with its byproduct could provide the energy of 36,019 MJ/m3 pyrolysis oil. The output–input energy ratio is approximately 13.2, indicating the high energy efficiency of pyrolysis oil. In terms of the environmental aspect, the total net carbon emission is 176.6 kg CO2/m3 pyrolysis oil. Using pyrolysis oil and the biochar byproduct to replace fuel oil and coal can produce a reduction of approximately 2835 kg CO2/m3 pyrolysis oil (0.079 kg CO2/MJ) of greenhouse gas emissions. The environmental impact indicator is 0.105 Pt, which is much lower than the fuel oil energy-equivalent. These findings suggest that pyrolysis oil produced from Cryptomeria residue yields enhanced energy and environmental efficiency. However, the production cost is higher than that of existing fossil fuels.
•We evaluated the cost, energy, and environmental efficiency of biomass pyrolysis oil.•Biomass pyrolysis oil has high energy efficiency and environmental benefits.•Acidification potential is mainly derived in the biomass collection stage.•Global warming potential is mainly derived in the pyrolysis oil-production stage.•The cost of biomass pyrolysis oil cannot compete in the current oil products market. |
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ISSN: | 0959-6526 1879-1786 |
DOI: | 10.1016/j.jclepro.2013.06.042 |