Search results for "fuel"

showing 10 items of 986 documents

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
researchProduct

MICROBIAL FUEL CELL WITH Cu-B CATHODE POWERING WITH WASTEWATER FROM YEAST PRODUCTION

2017

With the increasing standard of living, energy consumption increases as well. So, waste production, including wastewater, increases as well. One of the types of waste-water is wastewater from yeast industry. Wastewater from this industry has not only a high pollutants load but it is produced in great amounts as well. Technical devices that can accomplish the wastewater treatment and electricity production from wastewater is a microbial fuel cell. In microbial fuel cells activated sludge bacteria can be used for electricity production during wastewater treatment. The possibility of using the Cu-B alloy as cathode catalyst for microbial fuel cells to wastewater treatment of wastewater from ye…

cathodeMicrobial fuel cell02 engineering and technology010501 environmental sciences01 natural scienceslcsh:TD1-1066law.inventionmicrobial fuel celllawProduction (economics)lcsh:Environmental technology. Sanitary engineeringyeast industryrenewable energy sourcesEcology Evolution Behavior and Systematicslcsh:Environmental sciences0105 earth and related environmental sciencesGeneral Environmental Sciencelcsh:GE1-350Waste managementChemistrybusiness.industry021001 nanoscience & nanotechnologyCathodeYeastRenewable energyenvironment engineeringrenew - able energy sourceswastewater treatmentWastewaterSewage treatment0210 nano-technologybusinessJournal of Ecological Engineering
researchProduct

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
researchProduct

Microbial fuel cell with Ni-Co cathode

2017

Wraz ze wzrostem poziomu życia wzrasta zarówno zużycie energii, jak i ilość ścieków. Istnieje jednak możliwość produkcji energii z jednoczesnym oczyszczaniem ścieków. Urządzeniem, które może zrealizować to zadanie jest mikrobiologiczne ogniwo paliwowe. W ogniwach tego typu bakterie osadu czynnego wykorzystane są do produkcji energii podczas oczyszczania ścieków. Jednym z ograniczeń tego rozwiązania jest niska gęstość uzyskiwanego prądu. Możliwe jest jednak podwyższenie tego parametru przy wykorzystaniu odpowiedniego katalizatora elektrod. W artykule przedstawiono możliwość wykorzystania stopu Ni-Co jako katalizatora katody. Badania obejmowały przygotowanie elektrody oraz porównanie zmian st…

cathodeenvironmental engineeringclean technologystop Ni-Cokatodaodnawialne źródła energiimicrobial fuel cellwastewater treatmentNi-Co alloyoczyszczanie ściekówinżynieria środowiskarenewable energy sourcesczyste technologiemikrobiologiczne ogniwa paliwoweRudy i Metale Nieżelazne
researchProduct

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
researchProduct

Initial approaches in benchmarking and round robin testing for proton exchange membrane water electrolyzers

2019

Abstract As ever-increasing amounts of renewable electricity enter the energy supply mix on a regional, national and international basis, greater emphasis is being placed on energy conversion and storage technologies to deal with the oscillations, excess and lack of electricity. Hydrogen generation via proton exchange membrane water electrolysis (PEMWE) is one technology that offers a pathway to store large amounts of electricity in the form of hydrogen. The challenges to widespread adoption of PEM water electrolyzers lie in their high capital and operating costs which both need to be reduced through R&D. An evaluation of reported PEMWE performance data in the literature reveals that there …

chemische EnergiespeicherungStandardizationComputer scienceEnergy Engineering and Power TechnologyCondensed Matter Physic02 engineering and technology010402 general chemistrywater electrolysis01 natural sciencesElectrolysisEngineeringAffordable and Clean EnergyRound robinState-of-the-artD-mannitolEnergy transformationEnergy supplyProcess engineeringEnergyRenewable Energy Sustainability and the Environmentbusiness.industryWasserstofferzeugung durch ElektrolyseBenchmarkingPEMWEWasserstofftechnologie021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesRenewable energyClimate ActionBenchmarkingElectrolysiSettore ING-IND/23 - Chimica Fisica Applicatatest protocolFuel TechnologyChemical Sciencesddc:660robin testRound robin testElectricityProtocol development0210 nano-technologybusinessLiterature surveyInternational Journal of Hydrogen Energy
researchProduct

Pyrolysis of Tall Oil-Derived Fatty and Resin Acid Mixtures

2012

Neutralised mixtures of tall oil-derived fatty acids and resin acids were separately pyrolysed (at 750∘C for 20 s) by pyrolysis gas chromatography with mass-selective and flame ionisation detection (Py-GC/MSD/FID) to clarify their thermochemical behaviour. The pyrolysate of fatty acid salts characteristically contained high amounts of unsaturated aliphatic hydrocarbons and minor amounts of monoaromatics, whereas the pyrolysis of resin acid salts mainly resulted in the formation of aromatics with up to three benzene rings and only in very low amounts of aliphatic hydrocarbons. The data obtained are useful when considering the suitability of various tall oil products containing fatty and resi…

chemistry.chemical_classificationArticle SubjectTall oilFatty acidresin acidpyrolysispulping industrychemistry.chemical_compoundBiochemistrychemistryUnsaturated aliphatic hydrocarbonsBiofuelOrganic chemistryResin acidGas chromatographyfatty acidBenzenePyrolysista116ISRN Renewable Energy
researchProduct

Characterization of Biodiesel from Vegetable Oil Using Comprehensive Two-Dimensional Gas Chromatography

2012

Biodiesel from vegetable oils has been analyzed and its suitability for internal combustion engines has been assessed. The Standard biofuel’s characteristics have been investigated. Gas chromatography (GC) tests were carried out to characterize the fatty acid behavior. It was found that the mass percentage of saturated fatty acids did not change substantially with time, while unsaturated fatty acids increased with time for both B100 and B30. An increase in density for B100 and B30 with time was noted. Biodiesel density was within the standardization. The calorific values of biodiesel and its blend increased with time. Higher heating value for B100 increased from 41 to 43 MJ/kg while B30 inc…

chemistry.chemical_classificationBiodieselChromatographyChemistryfood and beveragesFatty acidGeneral MedicineCombustioncomplex mixturesVegetable oilBiofuelTwo-dimensional gaslipids (amino acids peptides and proteins)Heat of combustionGas chromatographyApplied Mechanics and Materials
researchProduct

Hydrothermal liquefaction of waste biomass in stirred reactors: One step forward to the integral valorization of municipal sludge

2020

Abstract Hydrothermal liquefaction (HTL) of municipal sludge (MS) was performed at 350 °C for 30 min (subcritical water) and at 400 °C for 0 min (supercritical water) at fixed kinetic severity (LogR0 = 8.9) in static and stirred batch reactors to study the effect of the flow regime on the energy recovery (ER) of the process and on the quality of the products. With adopted experimental procedures it was possible to reduce to less than 10% the yield of lost organic compounds, termed volatiles (VT), and to collect and quantify a liquid hydrocarbon fraction (HC) separated from the biocrude (BC). The highest value of the HC yield, 25% w/w, was obtained in supercritical conditions. The C content …

chemistry.chemical_classificationEnergy recovery020209 energyMechanical EngineeringBiomassFraction (chemistry)02 engineering and technologyBuilding and ConstructionPulp and paper industryPollutionIndustrial and Manufacturing EngineeringSupercritical fluidHydrothermal liquefactionGeneral EnergyHydrocarbon020401 chemical engineeringchemistryBiofuelYield (chemistry)0202 electrical engineering electronic engineering information engineering0204 chemical engineeringElectrical and Electronic EngineeringBiofuelEnergy recovery Energy storage Hydrothermal liquefaction Municipal sludge Waste biomassCivil and Structural Engineering
researchProduct

Amine N-Oxide Kinetic Hydrate Inhibitor Polymers for High-Salinity Applications

2020

A series of glycidyl amine N-oxide polyethers with cyclic and acyclic amine N-oxide side groups and their block copolymers with poly(propylene) oxide (Mn in the range of 1.8–6.4 kg/mol) have been s...

chemistry.chemical_classificationGeneral Chemical EngineeringOxideEnergy Engineering and Power Technology02 engineering and technologyPolymer021001 nanoscience & nanotechnologyKinetic energySalinitychemistry.chemical_compoundFuel Technology020401 chemical engineeringchemistryPolymer chemistryCopolymerAmine gas treating0204 chemical engineering0210 nano-technologyHydrateEnergy & Fuels
researchProduct