Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies

Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies

This study developed an upgrading process focusing on acid transformations of water phase pyrolysis bio-oils to esters of oxygen-containing fuels via ZSM−5 catalyst. Temperature was set as a factor with five levels ranging from 60 to 135 °C with reaction time from 1 to 8 h. The results showed that 8...

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Main Authors: Yi Wei, Hanwu Lei, Lei Zhu, Xuesong Zhang, Gayatri Yadavalli, Yupeng Liu, Di Yan
Format: Article
Language:English
Published: MDPI AG 2015-06-01
Series:Energies
Subjects:
bio-oil
esters
oxygen-containing fuels
ZSM−5
kinetic
mechanism
Online Access:http://www.mdpi.com/1996-1073/8/6/5898
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spelling doaj-703e24b153844eaeb159f0e728c53ca32020-11-24T22:30:08ZengMDPI AGEnergies1996-10732015-06-01865898591510.3390/en8065898en8065898Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism StudiesYi Wei0Hanwu Lei1Lei Zhu2Xuesong Zhang3Gayatri Yadavalli4Yupeng Liu5Di Yan6Bioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USABioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USABioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USABioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USABioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USABioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USABioproducts, Sciences and Engineering Laboratory, Department of Biological Systems Engineering, Washington State University, Richland, WA 99354-1671, USAThis study developed an upgrading process focusing on acid transformations of water phase pyrolysis bio-oils to esters of oxygen-containing fuels via ZSM−5 catalyst. Temperature was set as a factor with five levels ranging from 60 to 135 °C with reaction time from 1 to 8 h. The results showed that 89% of high acid conversion and over 90% of ester selectivity was obtained from the feedstock via 2 wt % ZSM−5 catalysts in a fixed feedstock to methanol ratio analyzed by HPLC and GC–MS. The upgrading process followed Langmuir–Hinshelwood and reaction constants were calculated to build a practical upgrading model for bio-oil compounds. Thermodynamics of the process showed endothermic properties during the breaking bonds’ reaction on carbonyl of acid while the reaction between the carbon in methanol and electrophile acid intermediate demonstrated exothermic performance. The optimum reaction conditions for the process was at a temperature of 100.1 °C with catalyst loading of 3.98 wt %.http://www.mdpi.com/1996-1073/8/6/5898bio-oilestersoxygen-containing fuelsZSM−5kineticmechanism
collection DOAJ
language English
format Article
sources DOAJ
author Yi Wei
Hanwu Lei
Lei Zhu
Xuesong Zhang
Gayatri Yadavalli
Yupeng Liu
Di Yan
spellingShingle Yi Wei
Hanwu Lei
Lei Zhu
Xuesong Zhang
Gayatri Yadavalli
Yupeng Liu
Di Yan
Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies
Energies
bio-oil
esters
oxygen-containing fuels
ZSM−5
kinetic
mechanism
author_facet Yi Wei
Hanwu Lei
Lei Zhu
Xuesong Zhang
Gayatri Yadavalli
Yupeng Liu
Di Yan
author_sort Yi Wei
title Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies
title_short Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies
title_full Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies
title_fullStr Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies
title_full_unstemmed Oxygen-Containing Fuels from High Acid Water Phase Pyrolysis Bio-Oils by ZSM−5 Catalysis: Kinetic and Mechanism Studies
title_sort oxygen-containing fuels from high acid water phase pyrolysis bio-oils by zsm−5 catalysis: kinetic and mechanism studies
publisher MDPI AG
series Energies
issn 1996-1073
publishDate 2015-06-01
description This study developed an upgrading process focusing on acid transformations of water phase pyrolysis bio-oils to esters of oxygen-containing fuels via ZSM−5 catalyst. Temperature was set as a factor with five levels ranging from 60 to 135 °C with reaction time from 1 to 8 h. The results showed that 89% of high acid conversion and over 90% of ester selectivity was obtained from the feedstock via 2 wt % ZSM−5 catalysts in a fixed feedstock to methanol ratio analyzed by HPLC and GC–MS. The upgrading process followed Langmuir–Hinshelwood and reaction constants were calculated to build a practical upgrading model for bio-oil compounds. Thermodynamics of the process showed endothermic properties during the breaking bonds’ reaction on carbonyl of acid while the reaction between the carbon in methanol and electrophile acid intermediate demonstrated exothermic performance. The optimum reaction conditions for the process was at a temperature of 100.1 °C with catalyst loading of 3.98 wt %.
topic bio-oil
esters
oxygen-containing fuels
ZSM−5
kinetic
mechanism
url http://www.mdpi.com/1996-1073/8/6/5898
work_keys_str_mv AT yiwei oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
AT hanwulei oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
AT leizhu oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
AT xuesongzhang oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
AT gayatriyadavalli oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
AT yupengliu oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
AT diyan oxygencontainingfuelsfromhighacidwaterphasepyrolysisbiooilsbyzsm5catalysiskineticandmechanismstudies
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