2012
DOI: 10.1002/aic.13857
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Polymerization on heating up of bio‐oil: A model compound study

Abstract: in Wiley Online Library (wileyonlinelibrary.com).Understanding of the condensation reactions in bio-oil is the key for efficient conversion into transportation fuel or valueadded chemicals. In this study, the roles of the typical compounds representing the sugars, sugar derivatives, and aromatics found in bio-oil were investigated for their contribution to condensation reactions. Glucose played a key role for the polymer formation due to its decomposition to reactive compounds with multiple hydroxyl groups, ca… Show more

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Cited by 158 publications
(134 citation statements)
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“…S BET (m 2 g À1 ) V P (cm 3 g À1 ) dp (nm) D NiO (nm) derived oligomers [22]. And the formed polymer is the precursor of coke.…”
Section: Samplementioning
confidence: 99%
See 1 more Smart Citation
“…S BET (m 2 g À1 ) V P (cm 3 g À1 ) dp (nm) D NiO (nm) derived oligomers [22]. And the formed polymer is the precursor of coke.…”
Section: Samplementioning
confidence: 99%
“…It is worth noting that the cokes were also detected during the upgrading process without any catalyst. The carboxylic acids contained in the bio-oil were regarded as the main reason which can catalyze the reaction of polymerization [22]. For the sake of discussion, the major volatile components of the bio-oil were classified into acids, esters, ketones, phenolics, aldehydes and alcohols as provided in Table 2.…”
Section: Samplementioning
confidence: 99%
“…Acid conversion increased with Si:Al ratio and upon the introduction of hierarchical porosity, mirroring the observations from acetic acid esterification with model alcohols, albeit with lower conversions than observed for the simulated bio-oil, likely as a result of the water content of the pyrolysis oil (which may reversibly poison the acid sites) or presence of bulky organic components (e.g. oligomers/polymers) which may induce pore blockage [60].…”
Section: Catalytic Testsmentioning
confidence: 55%
“…It is generally believed that lower activation energy is needed for high Mw resins to cure (Park et al 1998;Anwar et al 2009;Wahab et al 2012), meaning thereby that high Mw resins would cure at low temperatures. The initial decrease in curing temperature and the E may be also be attributed to promotional catalytic effect of lingo-cellulosic derivatives present in the bio-oil on the cure reaction, as reported by some other studies (Vázquez et al 2002;Turunen et al 2003;Khan et al 2004;Lei and Wu 2006;Wang et al 2009a;Hu et al 2013). The role of bio-oil as an efficient crosslinking agent due to presence of multiple reactive sites (Hu et al 2013) may also be taken as a reason for such decrease in Tp and E of the curing reaction.…”
Section: Thermal Cure Kinetics Of the Synthesized Resinsmentioning
confidence: 58%