2008
DOI: 10.1016/j.jaap.2008.04.001
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Production of bio-oil from rice straw and bamboo sawdust under various reaction conditions in a fast pyrolysis plant equipped with a fluidized bed and a char separation system

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Cited by 212 publications
(124 citation statements)
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“…This increase in the oil yield may be as a result of degradation of more lignin, which usually occurs at such a high temperature. Further increase in temperature to 650 °C led to reduction in the oil yield (31.97%), which can be attributed to secondary reactions of pyrolysis vapor at elevated temperature (Jung et al 2008;Imam and Capareda 2012). The yield of non-condensable gas increased with increasing reaction temperature throughout the process.…”
Section: Effects Of Nitrogen Flow Rate and Reaction Temperature On Pymentioning
confidence: 99%
“…This increase in the oil yield may be as a result of degradation of more lignin, which usually occurs at such a high temperature. Further increase in temperature to 650 °C led to reduction in the oil yield (31.97%), which can be attributed to secondary reactions of pyrolysis vapor at elevated temperature (Jung et al 2008;Imam and Capareda 2012). The yield of non-condensable gas increased with increasing reaction temperature throughout the process.…”
Section: Effects Of Nitrogen Flow Rate and Reaction Temperature On Pymentioning
confidence: 99%
“…The study obtained bamboo biocrude oil with a low O/C ratio and a HHV of 33.54 MJ/kg. Upon comparison of the data obtained by Kantarelis et al (2010) with data from other literature (Jung et al 2008;Lin et al 2013), it was seen that the oil produced from high-temperature steam pyrolysis had a higher carbon and hydrogen content and lower oxygen content. Dong and Xiong (2014) studied the pyrolysis kinetics of moso bamboo, which was conducted in a conventional thermogravimetric analyzer and a microwave thermogravimetric analyzer.…”
Section: Biocrude Oilmentioning
confidence: 77%
“…The reaction was conducted at 405 °C. Jung et al (2008) observed the differences in biocrude oils acquired from various lignocellulosic biomasses and discovered that bamboo biocrude oils possessed less aromatic hydrocarbons and nitrogen containing compounds than the alfalfa stem biocrude oils. It was also discovered that the levoglucosan levels in the bamboo biocrude oils were five times lower than that of the rice straw biocrude oil.…”
Section: Biocrude Oilmentioning
confidence: 99%
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“…[20][21][22][23] Due to the variety of chemical compounds, bio-oils can be used as bio-fuel or for the production of chemical products, 24,25 such as the following: levoglucosan in the manufacturing of pharmaceuticals, biodegradable polymers and surfactants, and hydroxyacetaldehyde, the most active meat-browning agent. 23 Several researchers reported the characterization of bio-oil by gas chromatography (GC) with high efficiency, precision and simplicity, especially when coupled with mass spectrometry (MS).…”
Section: Introductionmentioning
confidence: 99%