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151. Numerical experiments on the efficiency of local grid refinement based on truncation error estimates

Author

Syrakos, Alexandros, Efthimiou, Georgios, Bartzis, John G., and Goulas, Apostolos

Subjects
Physics - Computational Physics, Computer Science - Numerical Analysis
Abstract

Local grid refinement aims to optimise the relationship between accuracy of the results and number of grid nodes. In the context of the finite volume method no single local refinement criterion has been globally established as optimum for the selection of the control volumes to subdivide, since it is not easy to associate the discretisation error with an easily computable quantity in each control volume. Often the grid refinement criterion is based on an estimate of the truncation error in each control volume, because the truncation error is a natural measure of the discrepancy between the algebraic finite-volume equations and the original differential equations. However, it is not a straightforward task to associate the truncation error with the optimum grid density because of the complexity of the relationship between truncation and discretisation errors. In the present work several criteria based on a truncation error estimate are tested and compared on a regularised lid-driven cavity case at various Reynolds numbers. It is shown that criteria where the truncation error is weighted by the volume of the grid cells perform better than using just the truncation error as the criterion. Also it is observed that the efficiency of local refinement increases with the Reynolds number. The truncation error is estimated by restricting the solution to a coarser grid and applying the coarse grid discrete operator. The complication that high truncation error develops at grid level interfaces is also investigated and several treatments are tested.

Published
2015
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156. Gut Microbes Associated with Neurodegenerative Disorders: A Comprehensive Review of the Literature.

Author

Koutsokostas, Christos, Merkouris, Ermis, Goulas, Apostolos, Aidinopoulou, Konstantina, Sini, Niki, Dimaras, Theofanis, Tsiptsios, Dimitrios, Mueller, Christoph, Nystazaki, Maria, and Tsamakis, Konstantinos

Subjects
ALZHEIMER'S disease, PARKINSON'S disease, LITERATURE reviews, GUT microbiome, NEUROBEHAVIORAL disorders
Abstract

Evidence shows that neurodegenerative and neuropsychiatric disorders are influenced by alterations in the gut microbiome. Various diseases have been linked to microbiome dysbiosis, yet there are inconclusive data regarding which microorganisms are associated with each disorder. The aim of our study is to systematically review the recent literature of the past decade to clarify whether the gut microbiome contributes to the understanding of pathogenesis and progression of neurodegenerative disorders. Most included studies showed a strong correlation between the relative abundance of certain microorganisms, mainly species of the phyla Firmicutes and Bacteroidetes, and disorders such as Parkinson's disease (PD) and Alzheimer's disease (AD). It is speculated that the microorganisms and their byproducts have a significant role in brain protein accumulation, neuro-inflammation, and gut permeability. The estimation of microbial populations could potentially improve clinical outcomes and hinder the progression of the disease. However, further research is needed to include more diseases and larger patient samples and identify specific species and subspecies associated with these disorders. [ABSTRACT FROM AUTHOR]

Published
2024
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158. Optimization of Green Sample Preparation for the Determination of Hydroxycinnamic Acids in Multi-Floral Honey Using Response Surface Methodology.

Author

Stavrou, Konstantina, Christou, Atalanti, and Goulas, Vlasios

Subjects
HYDROXYCINNAMIC acids, RESPONSE surfaces (Statistics), HONEY, FERULIC acid, SOLUBILIZATION, EXTRACTION techniques, CHLOROGENIC acid
Abstract

Featured Application: The present study provides practical guidelines for the solubilization of hydroxycinnamic acids from honey for their chromatographic determination. The proposed green preparation step can be used for honey hydroxycinnamic fingerprinting for different botanical and/or geographical origins. In addition, it can be also utilized for the evaluation of diverse biological effects of hydroxycinnamic acids present in honey. Hydroxycinnamic acids are an essential phenolic group in honey that are related with its diverse health effects. Furthermore, they can be considered as potential biomarkers for botanical and geographical origin. The extraction of hydroxycinnamic acids from honey requires complicated extraction techniques due to their low contents and matrix particularity. The goal of the present work was to develop a green sample preparation method for the solubilization of hydroxycinnamic acids in honey samples. Thus, a Box–Behnken design has been used to investigate the effect of four factors: (i) percentage of ethanol (60–90%, v/v), (ii) temperature (30–60 °C), (iii) solvent-honey ratio (10–30 mL g−1), and (iv) sonication time (10–40 min) on the contents of caffeic, chlorogenic, and ferulic acids. Based on the desirability index, the ultrasound-assisted mixing of honey with 60.0% (v/v) ethanol at a solvent-honey ratio of 10 mL g−1 for a period of 17.8 min at a temperature of 54.6 °C resulted in the maximum solubilization of hydroxycinnamates. Subsequently, the greenness of developed method was assessed and applied successfully on the analysis of honeys. The present study reports for first time the hydroxycinnamic acid fingerprint of multi-floral honey produced in Cyprus. [ABSTRACT FROM AUTHOR]

Published
2024
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159. New Insights into the Potential Inhibitory Effects of Native Plants from Cyprus on Pathogenic Bacteria and Diabetes-Related Enzymes.

Author

Christou, Atalanti, Stavrou, Constantina, Michael, Christodoulos, Botsaris, George, and Goulas, Vlasios

Subjects
BACTERIAL enzymes, PATHOGENIC bacteria, NATIVE plants, DIGESTIVE enzymes, DRUG discovery, PLANT enzymes, AMYLOLYSIS, ENZYME kinetics
Abstract

Plants possess endless structural and chemical diversity, which is peerless with any synthetic library of small biomolecules, inspiring novel drug discovery. Plants are widely applied to encounter global health challenges such as antimicrobial resistance and diabetes. The objective of this work was to evaluate the antibacterial and antidiabetic potency of native plants grown in Cyprus. All plants were sequentially extracted with solvents of increasing polarity, namely hexane, acetone, methanol, and water. First, the phenolic and flavonoid contents of the extracts were assessed. Afterwards, the bacteriostatic and bactericidal potency of plant extracts were tested against a panel of six bacteria using the broth microdilution method, whereas the inhibitory effects on alpha-glucosidase and alpha-amylase enzymes were also determined with the employment of microplate assays. The results highlighted the superiority of Sarcopoterium spinosum as a potential enzyme inhibitor, while a knowledge base was also acquired for the inhibitory potential of all plants. Daucus carota, Ferula communis, and Tordylium.aegyptiacum displayed additionally outstanding bacteriostatic and bactericidal effects on Gram-positive bacteria at concentrations of 250 µg mL−1 and 500 µg mL−1. Overall, the present study describes the antibacterial and inhibitory activity against carbohydrate digestive enzymes of native plants grown in Cyprus delivering the first reports for many plant species. [ABSTRACT FROM AUTHOR]

Published
2024
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160. Efficacy of Commercial Biocontrol Products for the Management of Verticillium and Fusarium Wilt in Greenhouse Tomatoes: Impact on Disease Severity, Fruit Yield, and Quality.

Author

Tsolakidou, Maria-Dimitra, Demetriou, Georgia, Panagiotou, Sotiria, Vassiliou, Loukia, Goulas, Vlasios, and Pantelides, Iakovos

Subjects
VERTICILLIUM wilt diseases, FRUIT yield, TOMATOES, PRODUCT management, GREENHOUSES, VERTICILLIUM dahliae, TOMATO diseases & pests, TOMATO farming
Abstract

Verticillium dahliae (Vd) and Fusarium oxysporum f. sp. lycopersici (Fol) are two major fungal pathogens that infect tomato plants, causing significant challenges in their control since both pathogens can persist in the soil for several years even in the absence of a host plant and no effective fungicides are available at present. This study investigated the efficacy of two biocontrol formulations, Clonotri (containing Trichoderma and Clonostachys microorganisms) and Strepse (comprising Streptomyces and Pseudomonas microorganisms), against Vd and Fol and their impact on tomato fruit quality and yield under greenhouse conditions. The pathogenicity experiment demonstrated that the Clonotri formulation, containing Trichoderma and Clonostachys spores, significantly reduced Fusarium wilt disease by 32% compared to the control group. However, in the Vd pathogenicity experiment, the formulations did not exhibit disease reduction, although treatment with Strepse, containing Streptomyces and Pseudomonas microorganisms, resulted in a preserved total fruit number when compared to uninfected plants. Analysis of fruit quality attributes revealed no significant differences among the various interventions. Furthermore, Fol infection in the first fruit set significantly increased fruit firmness, while Vd infection resulted in elevated levels of total soluble solids in fruits. These findings demonstrate that the evaluated biocontrol formulations provide a degree of protection against fungal wilt pathogens in tomato plants and can increase yield in greenhouse conditions while having minimal impact on overall fruit quality attributes. [ABSTRACT FROM AUTHOR]

Published
2024
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174. Intensive training programme for ultrasound-guided minimally invasive synovial tissue biopsy on knees and wrists in different phases of inflammation

Author

Coletto, Lavinia Agra, primary, Marino, Valentina, additional, Rizzo, Chiara, additional, Goulas, Natacha, additional, Rubortone, Pietro, additional, Verardi, Lucrezia, additional, Gaggiano, Emanuela, additional, Bruno, Dario, additional, D’Antonio, Arianna, additional, Gessi, Marco, additional, Di Mario, Clara, additional, Tolusso, Barbara, additional, Bui, Laura, additional, Benvenuto, Roberta, additional, Chimenti, Maria Sole, additional, Guggino, Giuliana, additional, Ciccia, Francesco, additional, Caporali, Roberto, additional, Gremese, Elisa, additional, Lizzio, Marco Maria, additional, D’Agostino, Maria-Antonietta, additional, and Alivernini, Stefano, additional

Published
2024
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180. A multicenter cross-sectional study of the quality of life and iron chelation treatment satisfaction of patients with transfusion-dependent β-thalassemia, in routine care settings in Western Greece

Author

Goulas, Vassilis, Kouraklis-Symeonidis, Alexandra, Manousou, Kyriaki, Lazaris, Vassileios, Pairas, George, Katsaouni, Paraskevi, Verigou, Eugenia, Labropoulou, Vassiliki, Pesli, Vassiliki, Kaiafas, Panagiotis, Papageorgiou, Urania, and Symeonidis, Argiris

Published
2021
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181. Synergistic Effects in Bimetallic Palladium–Copper Catalysts Improve Selectivity in Oxygenate Coupling Reactions

Author

Goulas, Konstantinos A, Sreekumar, Sanil, Song, Yuying, Kharidehal, Purnima, Gunbas, Gorkem, Dietrich, Paul J, Johnson, Gregory R, Wang, YC, Grippo, Adam M, Grabow, Lars C, Gokhale, Amit A, and Toste, F Dean

Subjects
Inorganic Chemistry, Chemical Sciences, Neurodegenerative, Aging, General Chemistry, Chemical sciences, Engineering
Abstract

Condensation reactions such as Guerbet and aldol are important since they allow for C-C bond formation and give higher molecular weight oxygenates. An initial study identified Pd-supported on hydrotalcite as an active catalyst for the transformation, although this catalyst showed extensive undesirable decarbonylation. A catalyst containing Pd and Cu in a 3:1 ratio dramatically decreased decarbonylation, while preserving the high catalytic rates seen with Pd-based catalysts. A combination of XRD, EXAFS, TEM, and CO chemisorption and TPD revealed the formation of CuPd bimetallic nanoparticles with a Cu-enriched surface. Finally, density functional theory studies suggest that the surface segregation of Cu atoms in the bimetallic alloy catalyst produces Cu sites with increased reactivity, while the Pd sites responsible for unselective decarbonylation pathways are selectively poisoned by CO.

Published
2016

183. Combining microbial production with chemical upgrading

Author

Goulas, Konstantinos A and Toste, F Dean

Subjects
Biological Sciences, Industrial Biotechnology, Biocatalysis, Biomass, Butanols, Butylene Glycols, Ethanol, Fermentation, Engineering, Technology, Biotechnology, Agricultural biotechnology, Industrial biotechnology, Medical biotechnology
Abstract

This review presents developments in the chemical processing of fermentation-derived compounds, focusing on ethanol, lactic acid, 2,3-butanediol and the acetone-butanol-ethanol mixture. We examine pathways from these products to biologically-derived drop-in fuels, polymers, as well as commodity chemicals, highlighting the role of homogeneous and heterogeneous catalysts in the development of green processes for the production of fuels and high-value-added compounds from biomass.

Published
2016

186. Multi-material additive manufacturing of low sintering temperature Bi2Mo2O9 ceramics with Ag floating electrodes by selective laser burnout

Author

Reza Gheisari, Henry Chamberlain, George Chi-Tangyie, Shiyu Zhang, Athanasios Goulas, Chih-Kuo Lee, Tom Whittaker, Dawei Wang, Annapoorani Ketharam, Avishek Ghosh, Bala Vaidhyanathan, Will Whittow, Darren Cadman, Yiannis C. Vardaxoglou, Ian M. Reaney, and Daniel S. Engstrøm

Subjects
additive manufacturing, metamaterials, multi-material 3d printing, selective laser burnout, co-fired ceramics, Science, Manufactures, TS1-2301
Abstract

Additive manufacturing (AM) of co-fired low temperature ceramics offers a unique route for fabrication of novel 3D radio frequency (RF) and microwave communication components, embedded electronics and sensors. This paper describes the first-ever direct 3D printing of low temperature co-fired ceramics/floating electrode 3D structures. Slurry-based AM and selective laser burnout (SLB) were used to fabricate bulk dielectric, Bi2Mo2O9 (BMO, sintering temperature = 620–650°C, εr = 38) with silver (Ag) internal floating electrodes. A printable BMO slurry was developed and the SLB optimised to improve edge definition and burn out the binder without damaging the ceramic. The SLB increased the green strength needed for shape retention, produced crack-free parts and prevented Ag leaching into the ceramic during co-firing. The green parts were sintered after SLB in a conventional furnace at 645°C for 4 h and achieved 94.5% density, compressive strength of 4097 MPa, a relative permittivity (εr) of 33.8 and a loss tangent (tan δ) of 0.0004 (8 GHz) for BMO. The feasibility of using SLB followed by a post-printing sintering step to create BMO/Ag 3D structures was thus demonstrated.

Published
2020
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187. How effective are strategies to control the dissemination of antibiotic resistance in the environment? A systematic review

Author

Anaïs Goulas, Drifa Belhadi, Alexandre Descamps, Antoine Andremont, Pierre Benoit, Sophie Courtois, Christophe Dagot, Nathalie Grall, David Makowski, Sylvie Nazaret, Sylvie Nélieu, Dominique Patureau, Fabienne Petit, Céline Roose-Amsaleg, Marion Vittecoq, Barbara Livoreil, and Cédric Laouénan

Subjects
Antimicrobial, Agriculture, Livestock, Aquaculture, Wastewater, Organic waste, Environmental sciences, GE1-350
Abstract

Abstract Background Antibiotic resistance is a major concern for public and environmental health. The role played by the environment in disseminating resistance is increasingly considered, as well as its capacity for mitigation. We reviewed the literature on strategies to control dissemination of antibiotic-resistant bacteria (ARB), antibiotic resistance genes (ARG) and mobile genetic elements (MGE) in the environment. Methods This systematic review focused on three main strategies: (i) restriction of antibiotic use (S1), (ii) treatments of liquid/solid matrices (S2) and (iii) management of natural environment (S3). Articles were collected from seven scientific databases until July 2017 and from Web of Science until June 2018. Only studies reporting measurements of ARB, ARG or MGE in environmental samples were included. An evidence map was drawn from metadata extracted from all studies eligible for S1, S2 and S3. Subsets of studies were assessed for internal and external validity to perform narrative and quantitative syntheses. A meta-analysis was carried out to assess the effects of organic waste treatments (random-effect models). Review findings Nine hundred and thirty-one articles representing 1316 individual studies (n) were eligible for S1 (n = 59), S2 (n = 781) and S3 (n = 476) strategies, respectively. Effects of interventions to control the dissemination of antibiotic resistance in the environment were primarily studied in strategy S2. A partial efficiency of wastewater treatment plants (WWTPs) to reduce antibiotic resistance in treated effluent was reported in 118 high validity studies. In spite of the heterogeneity in published results, the meta-analysis showed that composting and drying were efficient treatments to reduce the relative abundance of ARG and MGE in organic waste, by 84% [65%; 93%] and 98% [80%; 100%], respectively. The effect of anaerobic digestion was not statistically significant (51% reduction [− 2%; 77%]) when organic waste treatments were compared together in the same model. Studies in strategies S1 and S3 mainly assessed the effects of exposure to sources of contamination. For instance, 28 medium/high validity studies showed an increase of antibiotic resistance in aquatic environments at the WWTP discharge point. Some of these studies also showed a decrease of resistance as the distance from the WWTP increases, related to a natural resilience capacity of aquatic environments. Concerning wildlife, nine medium/high validity studies showed that animals exposed to anthropogenic activities carried more ARB. Conclusions and implications Knowledge gaps were identified for the relationship between restriction of antibiotic use and variation of antibiotic resistance in the environment, as well as on possible interventions in situ in natural environment. Organic waste treatments with thermophilic phase (> 50 °C) should be implemented before the use/release of organic waste in the environment. More investigation should be conducted with the datasets available in this review to determine the treatment efficiency on ARG carried by specific bacterial communities.

Published
2020
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189. A Chronology-Based Wave Input Reduction Technique for Simulations of Long-Term Coastal Morphological Changes: An Application to the Beach of Mastichari, Kos Island, Greece

Author

Dimitra I. Malliouri, Stelios Petrakis, Dimitrios Vandarakis, Vyron Moraitis, Tatiana Goulas, Georgios-Angelos Hatiris, Paraskevi Drakopoulou, and Vasilios Kapsimalis

Subjects
long-term coastal evolution, coastal monitoring, model run-time reduction, wave chronology, performance assessment, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500
Abstract

The main objective of the present paper is to achieve the simulation of the long-term (e.g., annual) morphological evolution (bathymetry and shoreline) of a coastal area (Mastichari beach, Greece) due to wind-generated waves in an accurate and cost-effective way. For this purpose, wave climate schematization techniques are adopted in order to reduce the computational effort without losing or distorting the crucial information. Referring to the current practice, the wave chronology is not considered in detail in these acceleration techniques, and therefore, sea bottom and shoreline evolution are not estimated as a function of time. To fill this gap, a novel and easy-to-use chronology-based wave input reduction method is developed to produce representative wave time series of different intensities and durations. The performance of all the applied techniques in the present study is evaluated, and a comparative analysis is conducted. It is shown that the new chronology-based wave input reduction method can achieve a model run-time reduction of about 70%, while at the same time, it provides satisfactorily accurate results. In general, this research could be useful for coastal engineering studies and coastal zone monitoring, and thus, it would be a valuable tool for coastal engineers and marine scientists.

Published
2023
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190. Correction to: How effective are strategies to control the dissemination of antibiotic resistance in the environment? A systematic review

Author

Goulas, Anaïs, Belhadi, Drifa, Descamps, Alexandre, Andremont, Antoine, Benoit, Pierre, Courtois, Sophie, Dagot, Christophe, Grall, Nathalie, Makowski, David, Nazaret, Sylvie, Nélieu, Sylvie, Patureau, Dominique, Petit, Fabienne, Roose‑Amsaleg, Céline, Vittecoq, Marion, Livoreil, Barbara, and Laouénan, Cédric

Published
2021
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192. GeantV: Results from the Prototype of Concurrent Vector Particle Transport Simulation in HEP

Author

Amadio, G., Ananya, A., Apostolakis, J., Bandieramonte, M., Banerjee, S., Bhattacharyya, A., Bianchini, C., Bitzes, G., Canal, P., Carminati, F., Chaparro-Amaro, O., Cosmo, G., De Fine Licht, J. C., Drogan, V., Duhem, L., Elvira, D., Fuentes, J., Gheata, A., Gheata, M., Gravey, M., Goulas, I., Hariri, F., Jun, S. Y., Konstantinov, D., Kumawat, H., Lima, J. G., Maldonado-Romo, A., Martínez-Castro, J., Mato, P., Nikitina, T., Novaes, S., Novak, M., Pedro, K., Pokorski, W., Ribon, A., Schmitz, R., Seghal, R., Shadura, O., Tcherniaev, E., Vallecorsa, S., Wenzel, S., and Zhang, Y.

Published
2021
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197. Upgrading Lignocellulosic Products to Drop‐In Biofuels via Dehydrogenative Cross‐Coupling and Hydrodeoxygenation Sequence

Author

Sreekumar, Sanil, Balakrishnan, Madhesan, Goulas, Konstantinos, Gunbas, Gorkem, Gokhale, Amit A, Louie, Lin, Grippo, Adam, Scown, Corinne D, Bell, Alexis T, and Toste, F Dean

Subjects
Macromolecular and Materials Chemistry, Organic Chemistry, Chemical Sciences, Engineering, Chemical Engineering, Responsible Consumption and Production, Climate Action, Alcohols, Biofuels, Furaldehyde, Gasoline, Hydrogenation, Lignin, Saccharum, greenhouse gas, heterogeneous catalysis, hydrodeoxygenation, hydrotalcite, life-cycle analysis, Analytical Chemistry, Other Chemical Sciences, General Chemistry, Macromolecular and materials chemistry, Organic chemistry, Chemical engineering
Abstract

Life-cycle analysis (LCA) allows the scientific community to identify the sources of greenhouse gas (GHG) emissions of novel routes to produce renewable fuels. Herein, we integrate LCA into our investigations of a new route to produce drop-in diesel/jet fuel by combining furfural, obtained from the catalytic dehydration of lignocellulosic pentose sugars, with alcohols that can be derived from a variety of bio- or petroleum-based feedstocks. As a key innovation, we developed recyclable transition-metal-free hydrotalcite catalysts to promote the dehydrogenative cross-coupling reaction of furfural and alcohols to give high molecular weight adducts via a transfer hydrogenation-aldol condensation pathway. Subsequent hydrodeoxygenation of adducts over Pt/NbOPO4 yields alkanes. Implemented in a Brazilian sugarcane biorefinery such a process could result in a 53-79% reduction in life-cycle GHG emissions relative to conventional petroleum fuels and provide a sustainable source of low carbon diesel/jet fuel.

Published
2015

198. Highly Selective Condensation of Biomass‐Derived Methyl Ketones as a Source of Aviation Fuel

Author

Sacia, Eric R, Balakrishnan, Madhesan, Deaner, Matthew H, Goulas, Konstantinos A, Toste, F Dean, and Bell, Alexis T

Subjects
Organic Chemistry, Chemical Sciences, Affordable and Clean Energy, Alkanes, Aluminum Hydroxide, Biomass, Catalysis, Energy-Generating Resources, Ketones, Magnesium Hydroxide, biofuels, C-C coupling reactions, heterogeneous catalysis, hydrogenation, jet fuel, CC coupling reactions, Analytical Chemistry, Other Chemical Sciences, Chemical Engineering, General Chemistry, Macromolecular and materials chemistry, Organic chemistry, Chemical engineering
Abstract

Aviation fuel (i.e., jet fuel) requires a mixture of C9 -C16 hydrocarbons having both a high energy density and a low freezing point. While jet fuel is currently produced from petroleum, increasing concern with the release of CO2 into the atmosphere from the combustion of petroleum-based fuels has led to policy changes mandating the inclusion of biomass-based fuels into the fuel pool. Here we report a novel way to produce a mixture of branched cyclohexane derivatives in very high yield (>94 %) that match or exceed many required properties of jet fuel. As starting materials, we use a mixture of n-alkyl methyl ketones and their derivatives obtained from biomass. These synthons are condensed into trimers via base-catalyzed aldol condensation and Michael addition. Hydrodeoxygenation of these products yields mixtures of C12 -C21 branched, cyclic alkanes. Using models for predicting the carbon number distribution obtained from a mixture of n-alkyl methyl ketones and for predicting the boiling point distribution of the final mixture of cyclic alkanes, we show that it is possible to define the mixture of synthons that will closely reproduce the distillation curve of traditional jet fuel.

Published
2015

199. Back Cover: Highly Selective Condensation of Biomass‐Derived Methyl Ketones as a Source of Aviation Fuel (ChemSusChem 10/2015)

Author

Sacia, Eric R, Balakrishnan, Madhesan, Deaner, Matthew H, Goulas, Konstantinos A, Toste, F Dean, and Bell, Alexis T

Subjects
Engineering, Chemical Sciences, Automotive Engineering, Affordable and Clean Energy, Analytical Chemistry, Other Chemical Sciences, Chemical Engineering, General Chemistry, Organic Chemistry, Macromolecular and materials chemistry, Organic chemistry, Chemical engineering
Abstract

© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. The Back Cover shows a depiction of the carbon cycle for a tunable set of chemistry that can be used to synthesize exceptional jet fuel via n-alkyl methyl ketones. In this work, methyl ketones, which can be derived from biomass in either chemical or hybrid biological-chemical pathways, are selectively transformed to cyclic trimers by aldol condensation and Michael addition. By altering the ratio of starting methyl ketones, an alkane blend can be generated after hydrodeoxygenation that not only satisfies the low freezing point necessary for jet fuel, but also the broad volatility distribution typical of petroleum-derived fuels. The carbon generated by combustion of these fuels then produces further biomass, completing the carbon cycle. More details can be found in the Full Paper by Sacia etal. (DOI: 10.1002/cssc.201500002).

Published
2015

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