Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions.
The fast pyrolysis behaviour of pretreated banagrass was examined at four temperatures (between 400 and 600 C) and four residence times (between ~1.2 and 12 s). The pretreatment used water washing/leaching to reduce the inorganic content of the banagrass. Yields of bio-oil, permanent gases and char...
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Public Library of Science (PLoS)
2016-01-01
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| Series: | PLoS ONE |
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| author | Trevor James Morgan Scott Q Turn Ning Sun Anthe George |
| author_facet | Trevor James Morgan Scott Q Turn Ning Sun Anthe George |
| author_sort | Trevor James Morgan |
| collection | DOAJ |
| description | The fast pyrolysis behaviour of pretreated banagrass was examined at four temperatures (between 400 and 600 C) and four residence times (between ~1.2 and 12 s). The pretreatment used water washing/leaching to reduce the inorganic content of the banagrass. Yields of bio-oil, permanent gases and char were determined at each reaction condition and compared to previously published results from untreated banagrass. Comparing the bio-oil yields from the untreated and pretreated banagrass shows that the yields were greater from the pretreated banagrass by 4 to 11 wt% (absolute) at all reaction conditions. The effect of pretreatment (i.e. reducing the amount of ash, and alkali and alkali earth metals) on pyrolysis products is: 1) to increase the dry bio-oil yield, 2) to decrease the amount of undetected material, 3) to produce a slight increase in CO yield or no change, 4) to slightly decrease CO2 yield or no change, and 5) to produce a more stable bio-oil (less aging). Char yield and total gas yield were unaffected by feedstock pretreatment. Four other tropical biomass species were also pyrolyzed under one condition (450°C and 1.4 s residence time) for comparison to the banagrass results. The samples include two hardwoods: leucaena and eucalyptus, and two grasses: sugarcane bagasse and energy-cane. A sample of pretreated energy-cane was also pyrolyzed. Of the materials tested, the best feedstocks for fast pyrolysis were sugarcane bagasse, pretreated energy cane and eucalyptus based on the yields of 'dry bio-oil', CO and CO2. On the same basis, the least productive feedstocks are untreated banagrass followed by pretreated banagrass and leucaena. |
| format | Article |
| id | doaj-art-7edfc831642544dd99324b098da284ff |
| institution | OA Journals |
| issn | 1932-6203 |
| language | English |
| publishDate | 2016-01-01 |
| publisher | Public Library of Science (PLoS) |
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| series | PLoS ONE |
| spelling | doaj-art-7edfc831642544dd99324b098da284ff2025-08-20T02:15:45ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01113e015136810.1371/journal.pone.0151368Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions.Trevor James MorganScott Q TurnNing SunAnthe GeorgeThe fast pyrolysis behaviour of pretreated banagrass was examined at four temperatures (between 400 and 600 C) and four residence times (between ~1.2 and 12 s). The pretreatment used water washing/leaching to reduce the inorganic content of the banagrass. Yields of bio-oil, permanent gases and char were determined at each reaction condition and compared to previously published results from untreated banagrass. Comparing the bio-oil yields from the untreated and pretreated banagrass shows that the yields were greater from the pretreated banagrass by 4 to 11 wt% (absolute) at all reaction conditions. The effect of pretreatment (i.e. reducing the amount of ash, and alkali and alkali earth metals) on pyrolysis products is: 1) to increase the dry bio-oil yield, 2) to decrease the amount of undetected material, 3) to produce a slight increase in CO yield or no change, 4) to slightly decrease CO2 yield or no change, and 5) to produce a more stable bio-oil (less aging). Char yield and total gas yield were unaffected by feedstock pretreatment. Four other tropical biomass species were also pyrolyzed under one condition (450°C and 1.4 s residence time) for comparison to the banagrass results. The samples include two hardwoods: leucaena and eucalyptus, and two grasses: sugarcane bagasse and energy-cane. A sample of pretreated energy-cane was also pyrolyzed. Of the materials tested, the best feedstocks for fast pyrolysis were sugarcane bagasse, pretreated energy cane and eucalyptus based on the yields of 'dry bio-oil', CO and CO2. On the same basis, the least productive feedstocks are untreated banagrass followed by pretreated banagrass and leucaena.https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0151368&type=printable |
| spellingShingle | Trevor James Morgan Scott Q Turn Ning Sun Anthe George Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions. PLoS ONE |
| title | Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions. |
| title_full | Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions. |
| title_fullStr | Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions. |
| title_full_unstemmed | Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions. |
| title_short | Fast Pyrolysis of Tropical Biomass Species and Influence of Water Pretreatment on Product Distributions. |
| title_sort | fast pyrolysis of tropical biomass species and influence of water pretreatment on product distributions |
| url | https://journals.plos.org/plosone/article/file?id=10.1371/journal.pone.0151368&type=printable |
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