Search results for " fuel cell."

showing 10 items of 166 documents

Ogniwa paliwowe i mikrobiologiczne ogniwa paliwowe - zastosowanie druku 3D

2018

Technologie ogniw paliwowych i mikrobiologicznych ogniw paliwowych mogą stać się w przyszłości jednymi z dominujących technologii wytwarzania energii elektrycznej. Konieczne są więc badania związane z tymi technologiami. Technologią, która może usprawnić prowadzenie badań w tym zakresie jest technologia druku 3D. Pozwala ona na wykonywanie dowolnych kształtów w jednym egzemplarzu. Ponadto koszt projektu i wydruku jest stosunkowo niski. Dzięki tej technologii można znacznie przyspieszyć prowadzenie badań z zakresu ogniw paliwowych i mikrobiologicznych ogniw paliwowych. Praca przedstawia wykorzystanie druku 3D w badaniach nad ogniwami paliwowymi i mikrobiologicznymi ogniwami paliwowymi prowad…

fuel cellodnawialne źródła energiimicrobial fuel cellenvironmental engineeringsustainable developmentzrównoważony rozwójrenewable power sourcesogniwa paliwoweinżynieria środowiska3D printingmikrobiologiczne ogniwa paliwowedruk 3D
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Continuous monitoring of hydrogen and carbon dioxide at Mt Etna

2013

article i nfo This study assessed the use of an H2 fuel cell as an H2-selective sensor for volcano monitoring. The resolution, repeatability, and cross-sensitivity of the sensor were investigated and evaluated under known laboratory conditions. A tailor-made device was developed and used for continuously monitoring H2 and CO2 at Mt Etna throughout 2009 and 2010. The temporal variations of both parameters were strongly correlated with the evolution of the volcanic activity during the monitoring period. In particular, the CO2 flux exhibited long-term variations, while H2 exhibited pulses immediately before the explosive activity that occurred at Mt Etna during 2010.

geographygeography.geographical_feature_categoryHydrogenContinuous monitoringCo2 fluxchemistry.chemical_elementSoil CO2 fluxH2 monitoringH2 fuel cell Mt EtnaGeologyRepeatabilityAtmospheric sciencesSettore GEO/08 - Geochimica E VulcanologiaSoil co2 fluxchemistry.chemical_compoundVolcanochemistryGeochemistry and PetrologyCarbon dioxideFuel cellsSeismologyGeologyChemical Geology
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A new application for nickel foam in alkaline fuel cells

2009

The use of nickel foam as an electrode substrate in alkaline fuel cells (AFCs) has been investigated for bi-polar cells incorporating an electrically conducting gas diffusion layer. This contribution focuses on the cathode, and draws comparisons between nickel foam and nickel mesh substrates. One of the principal electrocatalysts for the cathodic reduction of oxygen is silver, so an improvement in electrochemical performance was obtained by electroplating the nickel foam with silver. The electrodeposition process was optimised to maximise electrochemical performance with a minimum of silver deposited. Nickel foam, which is less expensive than the usual nickel mesh, appears to be a good subs…

inorganic chemicalsAlkaline fuel cellGas diffusion electrodeRenewable Energy Sustainability and the EnvironmentGraphene foamMetallurgyEnergy Engineering and Power Technologychemistry.chemical_elementCondensed Matter PhysicsElectrochemistryElectrocatalystNickelFuel TechnologychemistryChemical engineeringElectrodeotorhinolaryngologic diseasesElectroplatingInternational Journal of Hydrogen Energy
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DFT modelling of oxygen adsorption on the Ag-doped LaMnO3 (001) surface

2019

This study was partly financed by the State Education Development Agency of the Republic of Latvia via the Latvian State Scholarship (A.A.) and Latvia-Ukraine Project (Grant LV-UA/2018/2 to E.K.). The work of T.I. is performed under the state assignment of IGM SB RAS. Also, this research was partly supported by the Ministry of Education and Science of the Republic of Kazakhstan in the framework of the scientific and technology Program BR05236795 ‘‘Development of Hydrogen Energy Technologies in the Republic of Kazakhstan’’. The authors thank M. Sokolov for technical assistance and valuable suggestions.

inorganic chemicalsMaterials scienceAg catalystchemistry.chemical_element02 engineering and technologySolid oxide fuel cells01 natural sciences7. Clean energyElectric chargeOxygenlaw.inventionoxygen adsorptionAdsorptionAb initio quantum chemistry methodslaw0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Materials ChemistryRedistribution (chemistry)Electrical and Electronic EngineeringLaMnO3010302 applied physicsab initio calculationsDoping021001 nanoscience & nanotechnologyCondensed Matter PhysicsCathodeElectronic Optical and Magnetic MaterialschemistryPhysical chemistryDensity functional theory0210 nano-technologyJournal of Electronic Materials
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MICROBIAL FUEL CELL WITH Ni-Co CATHODE AND KMnO4 CATHOLYTE

2017

The improving standard of living causes the increases in energy consumption and waste or wastewater production. The possibility of combining wastewater treatment and electricity production can be accomplished by means of a microbial fuel cell. The possibility of wastewater treatment using the Ni-Co alloy as cathode catalyst with KMnO4 catholyte for microbial fuel cells was presented in this paper. The measurements covered the comparison of changes in the concentration of COD, NH4+ and NO3- in the reactor without aeration, with aeration and using a microbial fuel cell (with Ni-Co cathode and KMnO4 catholyte). The reduction time for COD using a microbial fuel cell with the Ni-Co catalyst (and…

lcsh:GE1-350environmental engineeringChemistry02 engineering and technology010501 environmental sciences021001 nanoscience & nanotechnology01 natural sciencesNi-Co catalystmicrobial fuel cellwastewater treatmentrenewable energy sources0210 nano-technologylcsh:Environmental sciences0105 earth and related environmental sciencesInżynieria Ekologiczna
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USE OF Ni-Co ALLOY AS CATHODE CATALYST IN SINGLE CHAMBER MICROBIAL FUEL CELL

2017

Technology of microbial fuel cells allowing for the direct production of electricity from biodegradable materials can provide only energy production, but also wastewater treatment. This technology is seen as supporting of the traditional wastewater treatment. One of the problems with microbial fuel cells is a low current density of those energy sources. Nonetheless, it is possible to increase the current density by using the catalyst for electrodes (anode and cathode). The possibility of wastewater treatment using the Ni-Co alloy as catalyst for single chamber microbial fuel cells is presented in this paper. The studies have included measurements of H2O2 reduction on Ni-Co catalyst, power o…

lcsh:GE1-350environmental engineeringMicrobial fuel cellMaterials science020209 energyMetallurgyAlloy02 engineering and technologyCODengineering.materialCathode catalystmicrobial fuel cellNi-Co alloy0202 electrical engineering electronic engineering information engineeringengineeringCatalystrenewable energy sourceslcsh:Environmental sciencesSingle chamberInżynieria Ekologiczna
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Single chamber microbial fuel cell with Ni-Co cathode

2017

The possibility of wastewater treatment and the parallel energy production using the Ni-Co alloy as cathode catalyst for single chamber microbial fuel cells is presented in this research. The research included a preparation of catalyst and comparison of COD, NH4 + and NO3 - reduction in the reactor without aeration, with aeration and with using a single chamber microbial fuel cell with Ni-Co cathode. The reduction time for COD with the use of microbial fuel cell with the Ni-Co catalyst is similar to the reduction time with aeration. The current density (2.4 A·m-2 ) and amount of energy (0.48 Wh) obtained in MFC is low, but the obtained amount of energy allows elimination of the energy neede…

lcsh:GE1-350inorganic chemicalsMicrobial fuel cellWaste managementChemistryAlloy02 engineering and technology010501 environmental sciencesengineering.material021001 nanoscience & nanotechnology01 natural sciencesCathodeCatalysislaw.inventionChemical engineeringlawengineeringSewage treatmentAeration0210 nano-technologyCurrent densitylcsh:Environmental sciences0105 earth and related environmental sciencesSingle chamberE3S Web of Conferences
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A Study of Mechanical Properties of Polymer Composite Membranes with Various Ionic Liquids at Elevated Temperatures

2019

This work was supported by Latvian Council of Science (Cooperation project No.666/2014.4).

lcsh:TN1-997KetoneMaterials science020209 energyProton exchange membrane fuel cellEther02 engineering and technologymechanical propertiesfuel cellchemistry.chemical_compound0203 mechanical engineering0202 electrical engineering electronic engineering information engineering:NATURAL SCIENCES:Physics [Research Subject Categories]General Materials Sciencelcsh:Mining engineering. Metallurgyionic liquidchemistry.chemical_classificationPolymer020303 mechanical engineering & transportsMembraneChemical engineeringchemistryIonic liquidPolymer compositesComposite membraneproton exchange membrane
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Microbial fuel cell with Cu-B cathode and KMnO4 catholyte

2017

The increasing of standard living causes the increases energy consumption and waste or wastewater production. The possibility to combine wastewater treatment and electricity production can accomplish a microbial fuel cell. The possibility of wastewater treatment using the Cu-B catalyst with KMnO4 catholyte for microbial fuel cells is presented in this paper. The measurements covered comparison of changes in the concentration of COD, NH4+ and NO3- in the reactor without aeration, with aeration and with using a microbial fuel cell (with Cu-B cathode and KMnO4 catholyte). The reduction time for COD with the use of microbial fuel cell with the Cu-B catalyst (and KMnO4 catholyte) is similar to t…

microbial fuel cellwastewater treatmentcathodeNi-Co alloysustainable developmentclean technologyenvironment protectionrenewable energy sourcesInfrastruktura i Ekologia Terenów Wiejskich - Infrastructure and Ecology of Rural Areas
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Electricity production in microbial fuel cell with Cu-B alloy as catalyst of anode

2015

Considering the increasing standard of living, the energy consumption increases as well, and so does waste production. However, there is a possibility to combine energy production and wastewater treatment. A device that can accomplish this task is a microbial fuel cell. In microbial fuel cells activated sludge bacteria can be used for electricity production during wastewater treatment. One of the problems with microbial fuel cells is a low current density of those energy sources. Nonetheless, it is possible to increase the current density by using the catalyst for fuel electrode (anode) – as long as a low cost catalyst can be found. The possibility of wastewater treatment using the Cu-B all…

microbial fuel cellwastewater treatmentenvironmental engineeringcopper boride catalystrenewable energy sources
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