Your search keyword '"Zhao, Deyang"' showing total 4 results

1. Aperçu de la valorisation des composés à base de biomasse en batch versus flux continu

Author

Zhao, Deyang, Transformation Intégrée de la Matière Renouvelable (TIMR), Université de Technologie de Compiègne (UTC), Université de Technologie de Compiègne, and Christophe Len

Subjects

Valorisation de la biomasse, Biomass conversion, Catalysts, Chemical reactors, Compounds, Furfural, Flux continu assisté par micro-ondes, Procédés batch, Bioprocédés, [CHIM.GENI]Chemical Sciences/Chemical engineering, Microwave heating, Composés, Continuous flow, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, Microwaves, Génie des procédés

Abstract

Furfural (FF) and 5-hydroxymethylfurfural (HMF) have been identified as important bio-based versatile chemicals, their oxidation, reduction, hydrolysis and polymerization products attracted more interests for the high value and Wide applications. The aim of this PhD work is to realize the conversion of FF and HMF into high value downstream products in both conventional and intensification processes. Therefore, the comparation between conventional heating and microwave heating method, batch With continuous flow regime was explored regarding FF derivatives and HMF valorization reaction in my work. The development of greener, durable and efficient catalysts to realize the conversion of bio-based compounds has been employed. Target compounds such as methyl levulinate (ML), gamma-valerolactone (GVL), 5-hydroxymethyl-2-furancarboxylic acid (HMFCA), 2,5-furandicarboxylic acid (FDCA) were investigated. At the same time, the application of FDCA was also performed, the production of three differen kinds of furan-based polyesters: polyethylene-2,5-furandicarboxylate (PEF), polyhydropropyl-2,5furandicarboxylate (PHPF) and polydiglycerol-2,5-furandicarboxylate (PDGF) were realized through polytransesterification between diethyl furan-2,5-dicarboxylate (DEFDC) and a defined diol furan-based prepolyme or pure diglycerol. Several important issues were identified in order to design processes greener than the current ones. For instance, the experiments for HMF oxidation were performed in water. Microwave irradiation has been chosen as the heating method to accelerate the reaction. Continuous flow reactors, such as Pheonix, H-cube Pro as well as microwave continuous flow were identified as interesting alternatives to improve the productivities of target compounds. As a result, some promising results were obtained in the viewpoint of industry.; Le furfural (FF) et le 5-hydroxyméthylfurfural (HMF) ont été identifiés comme d'importants produits chimiques polyvalents d'origine biologique. Leurs produits d'oxydation, de réduction, d'hydrolyse et de polymérisation ont suscité un grand intérêt pour leur haute valeur ajoutée et leurs vastes applications. L'objectif de ce travail de doctorat est de réaliser la conversion du FF et du HMF en produits de haute valeur en aval dans des procédés conventionnels et d'intensification. La comparaison entre le chauffage conventionnel et la méthode de chauffage par micro-ondes, par lots avec un régime d'écoulement continu a été explorée en ce qui concerne les dérivés des FF et la réaction de valorisation du HMF. Le développement de catalyseurs plus écologiques, durables et efficaces pour réaliser la conversion des composés d'origine biologique a été étudié. Des composés cibles tels que le lévulinate de méthyle (ML), la gamma-valérolactone (GVL), l'acide 5-hydroxyméthyl-2-furancarboxylique (HMFCA), l'acide 2,5-furandicarboxylique (FDCA) ont été étudiés. En même temps, l'application du FDCA a également été effectuée, la production de trois différents types de polyesters à base de furanne : le polyéthylène-2,5-furandicarboxylate (PEF), le polyhydropropyl-2,5-furandicarboxylate (PHPF) et le polydiglycérol-2,5-furandicarboxylate (PDGF) ont été réalisés par polytransestérification entre le diéthyl furane-2,5-dicarboxylate (DEFDC) et un prépolymère défini à base de diol-furanne ou de diglycérol pur. Plusieurs questions importantes ont été soulevées afin de concevoir des processus plus écologiques que les processus actuels. Par exemple, les expériences pour l'oxydation du HMF ont été réalisées dans l'eau. L'irradiation par micro-ondes a été choisie comme méthode de chauffage pour accélérer la réaction. Les réacteurs à flux continu, tels que Pheonix, H-cube Pro ainsi que les micro-ondes à flux continu ont été identifiés comme des alternatives intéressantes pour améliorer la productivité des composés cibles. En conséquence, des résultats prometteurs ont été obtenus du point de vue de l'industrie.

Published

2020

2. Transfer hydrogenation of furfural to furfuryl alcohol over modified Zr-based catalysts using primary alcohols as H-donors.

Author

Wang, Yantao, Zhao, Deyang, Liang, Rui, Triantafyllidis, Konstantinos S., Yang, Weiran, and Len, Christophe

Subjects

*HYDROGENATION, *FURFURYL alcohol, *CATALYSTS, *HETEROGENEOUS catalysis, *ZIRCONIUM

Abstract

[Display omitted] • Liquid phase furfural catalytic transfer hydrogenation into furfuryl alcohol. • 6% Ru/mZrH is an efficient acid catalyst system for the synthesis of furfuryl alcohol. • Continuous flow process for the furfuryl alcohol production. • Bio-based ethanol as both H-donor and solvent in continuous flow. Catalytic transfer hydrogenation is gaining increasing attention as a promising alternative to conventional hydrogenation with H 2. In present work, a series of modified Zr-based catalysts were synthesized and tested for furfural catalytic transfer hydrogenation into furfuryl alcohol (FA). The results indicated that more than 13 % of furfural conversion and furfuryl alcohol yield could be achieved with modified zirconium hydroxide (mZrH) at 140 °C when compared with zirconium hydroxide (ZrH) using ethanol as H-donor and solvent in continuous flow regime, and the activity could be further enhanced by increasing the reaction temperature or Ru loading on the catalyst. The best result of 92 % furfural conversion with ∼99 % FA selectivity was obtained at 150 °C with 6% Ru/mZrH as catalyst, and the productivity of FA is 5.5 mmol g−1 h−1 which is 2 times higher than that reported with ZrH in batch. Moreover, long-term stability study of the catalysts indicated that 6% Ru/mZrH not only performs a better activity, but also a better stability than 6% Ru/ZrH. Characterizations of the catalysts by BET, XRD, EA, IR, SEM-EDS, XPS and CO 2 adsorption indicated that zirconium hydroxide (ZrH) was successfully modified with hydroxylamine, leading to significantly change of its morphology and basic sites. And the deactivation of the catalysts was due to both the leaching of Ru and the deposition of side-products on its surface. [ABSTRACT FROM AUTHOR]

Published

2021

3. Synthesis of Furfuryl Alcohol from Furfural: A Comparison between Batch and Continuous Flow Reactors.

Author

Audemar, Maïté, Wang, Yantao, Zhao, Deyang, Royer, Sébastien, Jérôme, François, Len, Christophe, and De Oliveira Vigier, Karine

Subjects

FURFURAL, CONTINUOUS flow reactors, FURFURYL alcohol, METAL catalysts, BATCH processing, CATALYSTS recycling

Abstract

Furfural is a platform molecule obtained from hemicellulose. Among the products that can be produced from furfural, furfuryl alcohol is one of the most extensively studied. It is synthesized at an industrial scale in the presence of CuCr catalyst, but this process suffers from an environmental negative impact. Here, we demonstrate that a non-noble metal catalyst (Co/SiO2) was active (100% conversion of furfural) and selective (100% selectivity to furfuryl alcohol) in the hydrogenation of furfural to furfuryl alcohol at 150 °C under 20 bar of hydrogen. This catalyst was recyclable up to 3 cycles, and then the activity decreased. Thus, a comparison between batch and continuous flow reactors shows that changing the reactor type helps to increase the stability of the catalyst and the space-time yield. This study shows that using a continuous flow reactor can be a solution to the catalyst suffering from a lack of stability in the batch process. [ABSTRACT FROM AUTHOR]

Published

2020

4. Recent Advances in Catalytic Hydrogenation of Furfural.

Author

Wang, Yantao, Zhao, Deyang, Rodríguez-Padrón, Daily, and Len, Christophe

Subjects

*CATALYTIC hydrogenation, *FURFURAL, *FURFURYL alcohol, *PRECIOUS metals, *LACTONES, *HYDROGENATION

Abstract

Furfural has been considered as one of the most promising platform molecules directly derived from biomass. The hydrogenation of furfural is one of the most versatile reactions to upgrade furanic components to biofuels. For instance, it can lead to plenty of downstream products, such as (tetrahydro)furfuryl alcohol, 2-methyl(tetrahydro)furan, lactones, levulinates, cyclopentanone(l), or diols, etc. The aim of this review is to discuss recent advances in the catalytic hydrogenation of furfural towards (tetrahydro)furfuryl alcohol and 2-methyl(tetrahydro)furan in terms of different non-noble metal and noble metal catalytic systems. Reaction mechanisms that are related to the different catalytic materials and reaction conditions are properly discussed. Selective hydrogenation of furfural could be modified not only by varying the types of catalyst (nature of metal, support, and preparation method) and reaction conditions, but also by altering the reaction regime, namely from batch to continuous flow. In any case, furfural catalytic hydrogenation is an open research line, which represents an attractive option for biomass valorization towards valuable chemicals and fuels. [ABSTRACT FROM AUTHOR]

Published

2019