Search results for "catalyst"

showing 10 items of 516 documents

Carbons from second generation biomass as sustainable supports for catalytic systems

2018

Abstract In this study activated carbons were produced from the wood of three different wood species (pine, birch, spruce). The resulting activated carbons were characterized in bulk for ash content, carbon content (elemental analyses), specific surface area, and pore size distribution, and at the surface by measuring the autogenerated pH and studying their structure by XPS. All the samples presented high surface areas and appeared to be mesoporous materials (mesopores >80%). The carbons were then used as support for AuPt nanoparticles and tested in the liquid phase oxidation of glycerol (GLY) and in the hydrogenation of levulinic acid (LA), two important chemicals from cellulose-based biom…

carbon supported catalystsbiomassaCarboxylic acidchemistry.chemical_elementlevulinic acid hydrogenation02 engineering and technology010402 general chemistry01 natural sciencesCatalysisCatalysischemistry.chemical_compoundkatalyytitactivated mesoporous carbonsSpecific surface areaglycerol oxidationLevulinic acidOrganic chemistryCelluloseta116ta215chemistry.chemical_classificationGeneral Chemistry021001 nanoscience & nanotechnologyGVL production0104 chemical scienceschemistryaktiivihiili0210 nano-technologyMesoporous materialSelectivityCarbonCatalysis Today
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Conversion of Xylose to Furfural over Lignin-Based Activated Carbon-Supported Iron Catalysts

2020

In this study, conversion of xylose to furfural was studied using lignin-based activated carbon-supported iron catalysts. First, three activated carbon supports were prepared from hydrolysis lignin with different activation methods. The supports were modified with different metal precursors and metal concentrations into five iron catalysts. The prepared catalysts were studied in furfural production from xylose using different reaction temperatures and times. The best results were achieved with a 4 wt% iron-containing catalyst, 5Fe-ACs, which produced a 57% furfural yield, 92% xylose conversion and 65% reaction selectivity at 170 &deg

carbon-supported catalystIron oxidebiokemikaalitXylose010402 general chemistryFurfurallcsh:Chemical technology01 natural sciencesCatalysisCatalysislcsh:Chemistrychemistry.chemical_compoundHydrolysiskatalyytitironmedicineLigninlcsh:TP1-1185Physical and Theoretical Chemistryksyloosi010405 organic chemistryheterogeneous catalystsfurfuraalifurfural0104 chemical scienceschemistrylcsh:QD1-999katalyysiYield (chemistry)xylose conversionActivated carbonmedicine.drugNuclear chemistryCatalysts
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Multi-layered, covalently supported ionic liquid phase (mlc-SILP) as highly cross-linked support for recyclable palladium catalysts for the suzuki re…

2011

The reaction between an excess of 1,4-bis(3-vinylimidazolium-1-yl) bromide and a mercaptopropyl-modified amorphous silica gel or ordered mesoporous silica SBA-15 in the presence of azobisisobutyronitrile (AIBN) afforded new materials, which have a high loading of imidazolium moieties. These materials, which contain a highly cross-linked polymeric network, have been denoted as multi-layered, covalently supported ionic liquid phase (mlc-SILP) and have been used as support for palladium catalysts containing a high loading of the metal (10 wt%). Such materials were characterized by several techniques (13C magic angle spinning nuclear magnetic resonance, the Brunauer–Emmett–Teller technique, sma…

catalyst recyclingInorganic chemistryAzobisisobutyronitrilechemistry.chemical_elementGeneral ChemistrySettore CHIM/06 - Chimica OrganicaMesoporous silicapalladiumCatalysisBiphenyl compoundchemistry.chemical_compoundSuzuki reactionchemistryIonic liquidMagic angle spinningPalladiumionic liquidAdvanced Synthesis and Catalysis
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Modelling wet-air oxidation of phenol in a trickle-bed reactor using active carbon as a catalyst

2016

catalytic phenol wet oxidation;active carbon as catalyst;trickle-bed reactors;Euler–Euler model;multiphase flow (CFD);plug flow modelJournal of Chemical Technology and Biotechnology
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Cu-B alloy - analysis of use possibility as fuel cell cathode catalyst

2016

In recent years there has been a development of non-conventional and renewable sources of energy. One such sources of energy are fuel cells. Fuel cells are ecological and high efficiency sources of electric energy. However, the use of fuel cells on a large scale is limited, mainly by the high cost of catalysts. Platinum is most commonly used as the catalyst. But due to the high price of platinum there’s a need for finding other catalysts. Replacement of platinum will contribute to the fast development of green energy sources. This paper presents a study of possibility of using Cu-B alloy as catalyst for oxygen electrode in fuel cells. Researches were done in glass vessel, on a copper electr…

cathodeMaterials scienceenvironmental engineeringAlloyMetallurgyProton exchange membrane fuel cellengineering.materialDirect-ethanol fuel cellCathode catalystfuel cellCu-B alloyoxygen electrodeengineeringFuel cellsrenewable energy sourcesQUAESTI-Virtual Multidisciplinary Conference
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Electricity Production from Yeast Wastewater in Membrane-Less Microbial Fuel Cell with Cu-Ag Cathode

2023

Wastewater has high potential as an energy source. Therefore, it is important to recover even the smallest part of this energy, e.g., in microbial fuel cells (MFCs). The obtained electricity production depends on the process rate of the electrodes. In MFC, the microorganisms are the catalyst, and the cathode is usually made of carbon material (e.g., with the addition of Pt). To increase the MFC efficiency (and reduce costs by reducing use of the noble metals), it is necessary to search the new cathode materials. In this work, the electricity production from yeast wastewater in membrane-less microbial fuel cells with Cu-Ag cathode was analyzed. In the first place, the measurements of the sta…

cathodebio-electrochemical systemenvironmental engineeringControl and Optimizationyeast wastewaterRenewable Energy Sustainability and the EnvironmentMFCEnergy Engineering and Power TechnologyBuilding and Constructionbio-electricitymicrobial fuel cellCu-Ag catalystmicrobial fuel cell; MFC; bio-electrochemical system; bio-electricity; electricity production; cathode; Cu-Ag alloy; Cu-Ag catalyst; environmental engineering; yeast wastewaterelectricity productionElectrical and Electronic EngineeringEngineering (miscellaneous)Cu-Ag alloyEnergy (miscellaneous)Energies; Volume 16; Issue 6; Pages: 2734
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Wastewater treatment and electricity production in a microbial fuel cell with Cu–B alloy as the cathode

2019

The possibility of wastewater treatment and electricity production using a microbial fuel cell with Cu&ndash

cathodenon-precious metal catalysts; Cu–B alloy; microbial fuel cell; cathode; environmental engineering; oxygen electrode; renewable energy sourcesMicrobial fuel cellMaterials science02 engineering and technology010501 environmental scienceslcsh:Chemical technology01 natural sciencesCatalysislaw.inventionCatalysislcsh:Chemistrymicrobial fuel celllawCu–B alloylcsh:TP1-1185Physical and Theoretical Chemistryrenewable energy sources0105 earth and related environmental sciencesenvironmental engineeringChemical oxygen demand021001 nanoscience & nanotechnologyCathodeAnodeElectricity generationChemical engineeringnon-precious metal catalystslcsh:QD1-999oxygen electrodeSewage treatmentAeration0210 nano-technologyCatalysts
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Experimental observation of Electronic Metal support interaction: investigation of Au/Ceria catalysts by HERFD–XANES

2015

In this paper we report the result of a recent experiment of high resolution XANES (HERFD-XANES) which evidenced this modification suggesting that gold clusters with very similar size can have a modified electronic structure (the empty d-Density-of-states) when they are deposited on ceria and titania oxide

ceria SMSI gold catalyst XANES HERFD
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Effect of hydrogen on the ethylene polymerization process over Ziegler–Natta catalysts supported on MgCl2(THF)2. I. Studies of the chain‐transfer rea…

2001

The effect of hydrogen on the molecular weight of polyethylene obtained over vanadium catalysts (based on VCl4 and VOCl3) supported on MgCl2(THF)2 was studied and the results were compared to those obtained for similar titanium catalysts. It was confirmed that the dependencies of the transfer reaction on the hydrogen concentration are a half‐order in all investigated systems. However, the transition metal of the catalytic site affects the ratio of the transfer rate with hydrogen to the propagation rate (ktr,H/kp) and the results showed that hydrogen is a more effective agent of polyethylene molecular weight control in vanadium‐based systems as compared to the titanium catalyst.

chain transfer with hydrogenvanadium and titanium catalystshydrogenmolecular weightethylene polymerizationJournal of Applied Polymer Science
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Transversal competences and character education in Latvia: needs analysis report

2018

The national report “Transversal competences and character education in Latvia: Needs analysis report” is a part of the transnational intellectual output 1 “Needs analysis report” elaborated within the Erasmus+ project “Supporting teachers for developing intra-personal competences and character education at school (ARETE CATALYST)”, 2017-1-LV01-KA201-035435. The research report is structured in four parts as follows: 1) A detailed description of transversal competences and character education in Latvia; 2) Case studies of best practices in Latvia; 3) Benchmarking of transversal competences and character education in UK and USA; 4) Developing pupils’ intrapersonal competencies and character …

character educationneeds analysisarete catalystCharacter educationTransversal (combinatorics)Latvia USA UKPedagogytransversal competencesSociologyNeeds analysis:SOCIAL SCIENCES::Social sciences::Education [Research Subject Categories]Erasmus+case studies
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