Insights into chalcone analogues with potential as antioxidant additives in diesel-biodiesel blends

Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to mi...

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Published inRSC advances Vol. 12; no. 53; pp. 34746 - 34759
Main Authors Borges, Igor D, Faria, Eduardo C. M, Custódio, Jean F. M, Duarte, Vitor S, Fernandes, Fernanda S, Alonso, Christian G, Sanches-Neto, Flávio O, Carvalho-Silva, Valter H, Oliveira, Guilherme R, Napolitano, Hamilton B
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 29.11.2022
The Royal Society of Chemistry
Subjects
Additives
Antioxidants
Biodiesel fuels
Biofuels
Chemistry
Diesel fuels
Machine learning
Mixtures
Oxidation
Stability
Online AccessGet full text
ISSN2046-2069
2046-2069
DOI10.1039/d2ra07300e

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Abstract Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to minimize these problems and reduce harmful emissions to comply with fuel requirement standards. In this study, we discuss a comprehensive structural description, a behavior of B15 [85% volume of diesel and 15% volume of biodiesel (B100)] stability in the presence of antioxidants (chalcone analogues), and a theoretical calculation to pave the way for clarifying and expanding the potential of title compounds as an antioxidant additive for diesel-biodiesel blends. Finally, a systematic description of the oxidation stability was undertaken using a specialized machine learning computational pySIRC platform. Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change.
AbstractList Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to minimize these problems and reduce harmful emissions to comply with fuel requirement standards. In this study, we discuss a comprehensive structural description, a behavior of B15 [85% volume of diesel and 15% volume of biodiesel (B100)] stability in the presence of antioxidants (chalcone analogues), and a theoretical calculation to pave the way for clarifying and expanding the potential of title compounds as an antioxidant additive for diesel–biodiesel blends. Finally, a systematic description of the oxidation stability was undertaken using a specialized machine learning computational pySIRC platform.
Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to minimize these problems and reduce harmful emissions to comply with fuel requirement standards. In this study, we discuss a comprehensive structural description, a behavior of B15 [85% volume of diesel and 15% volume of biodiesel (B100)] stability in the presence of antioxidants (chalcone analogues), and a theoretical calculation to pave the way for clarifying and expanding the potential of title compounds as an antioxidant additive for diesel–biodiesel blends. Finally, a systematic description of the oxidation stability was undertaken using a specialized machine learning computational pySIRC platform. Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change.
Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to minimize these problems and reduce harmful emissions to comply with fuel requirement standards. In this study, we discuss a comprehensive structural description, a behavior of B15 [85% volume of diesel and 15% volume of biodiesel (B100)] stability in the presence of antioxidants (chalcone analogues), and a theoretical calculation to pave the way for clarifying and expanding the potential of title compounds as an antioxidant additive for diesel-biodiesel blends. Finally, a systematic description of the oxidation stability was undertaken using a specialized machine learning computational pySIRC platform. Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change.
Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to minimize these problems and reduce harmful emissions to comply with fuel requirement standards. In this study, we discuss a comprehensive structural description, a behavior of B15 [85% volume of diesel and 15% volume of biodiesel (B100)] stability in the presence of antioxidants (chalcone analogues), and a theoretical calculation to pave the way for clarifying and expanding the potential of title compounds as an antioxidant additive for diesel-biodiesel blends. Finally, a systematic description of the oxidation stability was undertaken using a specialized machine learning computational pySIRC platform.Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel stability remains a challenging problem in biofuel use in the global energy matrix. In this context, organic additives have been investigated to minimize these problems and reduce harmful emissions to comply with fuel requirement standards. In this study, we discuss a comprehensive structural description, a behavior of B15 [85% volume of diesel and 15% volume of biodiesel (B100)] stability in the presence of antioxidants (chalcone analogues), and a theoretical calculation to pave the way for clarifying and expanding the potential of title compounds as an antioxidant additive for diesel-biodiesel blends. Finally, a systematic description of the oxidation stability was undertaken using a specialized machine learning computational pySIRC platform.
Author Duarte, Vitor S
Custódio, Jean F. M
Fernandes, Fernanda S
Alonso, Christian G
Borges, Igor D
Carvalho-Silva, Valter H
Oliveira, Guilherme R
Faria, Eduardo C. M
Napolitano, Hamilton B
Sanches-Neto, Flávio O
AuthorAffiliation Universidade Estadual de Goiás
Grupo de Química Teórica e Estrutural de Anápolis
Universidade de Brasília
CAOA Montadora de Veículos LTDA
Centro de Pesquisa e Eficiência Energética
Universidade Federal de Gois
Instituto de Química
AuthorAffiliation_xml – name: Grupo de Química Teórica e Estrutural de Anápolis
– name: CAOA Montadora de Veículos LTDA
– name: Universidade de Brasília
– name: Universidade Federal de Gois
– name: Universidade Estadual de Goiás
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– name: Centro de Pesquisa e Eficiência Energética
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Snippet Biodiesel production is one of the promising strategies to reduce diesel consumption and an important contribution to climate change. However, biodiesel...
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SubjectTerms Additives
Antioxidants
Biodiesel fuels
Biofuels
Chemistry
Diesel fuels
Machine learning
Mixtures
Oxidation
Stability
Title Insights into chalcone analogues with potential as antioxidant additives in diesel-biodiesel blends
URI https://www.ncbi.nlm.nih.gov/pubmed/36545583
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https://www.proquest.com/docview/2757162153
https://pubmed.ncbi.nlm.nih.gov/PMC9720506
https://pubs.rsc.org/en/content/articlepdf/2022/ra/d2ra07300e
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