Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion

Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion

Understanding the mechanisms of thermal transformations of model lignin compounds (MLC) over nanoscale catalysts is important for improving the technologic processes occurring in the pyrolytic conversion of lignocellulose biomass into biofuels and value-added chemicals. Herein, we investigate cataly...

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Main Authors: Nataliia Nastasiienko, Tetiana Kulik, Borys Palianytsia, Julia Laskin, Tetiana Cherniavska, Mykola Kartel, Mats Larsson
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Applied Sciences
Subjects:
kinetics and mechanisms
bio-oil upgrading
kinetic parameters
4-vinylguaiacol
surface complex
FT-IR spectroscopy
Online Access:https://www.mdpi.com/2076-3417/11/16/7205
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spelling doaj-3cceba1397c0423eb093f5d081bae0982021-08-26T13:29:09ZengMDPI AGApplied Sciences2076-34172021-08-01117205720510.3390/app11167205Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass ConversionNataliia Nastasiienko0Tetiana Kulik1Borys Palianytsia2Julia Laskin3Tetiana Cherniavska4Mykola Kartel5Mats Larsson6Chuiko Institute of Surface Chemistry, NAS of Ukraine, 17 General Naumov Str., 03164 Kyiv, UkraineChuiko Institute of Surface Chemistry, NAS of Ukraine, 17 General Naumov Str., 03164 Kyiv, UkraineChuiko Institute of Surface Chemistry, NAS of Ukraine, 17 General Naumov Str., 03164 Kyiv, UkraineDepartment of Chemistry, Purdue University, West Lafayette, IN 47907, USAChuiko Institute of Surface Chemistry, NAS of Ukraine, 17 General Naumov Str., 03164 Kyiv, UkraineChuiko Institute of Surface Chemistry, NAS of Ukraine, 17 General Naumov Str., 03164 Kyiv, UkraineDepartment of Physics, AlbaNova University Center, Stockholm University, SE-106 91 Stockholm, SwedenUnderstanding the mechanisms of thermal transformations of model lignin compounds (MLC) over nanoscale catalysts is important for improving the technologic processes occurring in the pyrolytic conversion of lignocellulose biomass into biofuels and value-added chemicals. Herein, we investigate catalytic pyrolysis of MLC (pyrocatechol (P), guaiacol (G), ferulic (FA), and vanillic acids (VA)) over nanoceria using FT-IR spectroscopy, temperature-programmed desorption mass spectrometry (TPD MS), and thermogravimetric analysis (DTG/DTA/TG). FT-IR spectroscopic studies indicate that the active groups of aromatic rings of P, G, VA, and FA as well as carboxylate groups of VA and FA are involved in the interaction with nanoceria surface. We explore the general transformation mechanisms of different surface complexes and identify their decomposition products. We demonstrate that decomposition of carboxylate acid complexes occurs by decarboxylation. When FA is used as a precursor, this reaction generates 4-vinylguaiacol. Complexes of VA and FA formed through both active groups of the aromatic ring and decompose on the CeO<sub>2</sub> surface to generate hydroxybenzene. The formation of alkylated products accompanies catalytic pyrolysis of acids due to processes of transalkylation on the surface.https://www.mdpi.com/2076-3417/11/16/7205kinetics and mechanismsbio-oil upgradingkinetic parameters4-vinylguaiacolsurface complexFT-IR spectroscopy
collection DOAJ
language English
format Article
sources DOAJ
author Nataliia Nastasiienko
Tetiana Kulik
Borys Palianytsia
Julia Laskin
Tetiana Cherniavska
Mykola Kartel
Mats Larsson
spellingShingle Nataliia Nastasiienko
Tetiana Kulik
Borys Palianytsia
Julia Laskin
Tetiana Cherniavska
Mykola Kartel
Mats Larsson
Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion
Applied Sciences
kinetics and mechanisms
bio-oil upgrading
kinetic parameters
4-vinylguaiacol
surface complex
FT-IR spectroscopy
author_facet Nataliia Nastasiienko
Tetiana Kulik
Borys Palianytsia
Julia Laskin
Tetiana Cherniavska
Mykola Kartel
Mats Larsson
author_sort Nataliia Nastasiienko
title Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion
title_short Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion
title_full Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion
title_fullStr Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion
title_full_unstemmed Catalytic Pyrolysis of Lignin Model Compounds (Pyrocatechol, Guaiacol, Vanillic and Ferulic Acids) over Nanoceria Catalyst for Biomass Conversion
title_sort catalytic pyrolysis of lignin model compounds (pyrocatechol, guaiacol, vanillic and ferulic acids) over nanoceria catalyst for biomass conversion
publisher MDPI AG
series Applied Sciences
issn 2076-3417
publishDate 2021-08-01
description Understanding the mechanisms of thermal transformations of model lignin compounds (MLC) over nanoscale catalysts is important for improving the technologic processes occurring in the pyrolytic conversion of lignocellulose biomass into biofuels and value-added chemicals. Herein, we investigate catalytic pyrolysis of MLC (pyrocatechol (P), guaiacol (G), ferulic (FA), and vanillic acids (VA)) over nanoceria using FT-IR spectroscopy, temperature-programmed desorption mass spectrometry (TPD MS), and thermogravimetric analysis (DTG/DTA/TG). FT-IR spectroscopic studies indicate that the active groups of aromatic rings of P, G, VA, and FA as well as carboxylate groups of VA and FA are involved in the interaction with nanoceria surface. We explore the general transformation mechanisms of different surface complexes and identify their decomposition products. We demonstrate that decomposition of carboxylate acid complexes occurs by decarboxylation. When FA is used as a precursor, this reaction generates 4-vinylguaiacol. Complexes of VA and FA formed through both active groups of the aromatic ring and decompose on the CeO<sub>2</sub> surface to generate hydroxybenzene. The formation of alkylated products accompanies catalytic pyrolysis of acids due to processes of transalkylation on the surface.
topic kinetics and mechanisms
bio-oil upgrading
kinetic parameters
4-vinylguaiacol
surface complex
FT-IR spectroscopy
url https://www.mdpi.com/2076-3417/11/16/7205
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