Search results for "Bioelectric Energy Sources"

showing 7 items of 7 documents

Towards a microbial thermoelectric cell.

2013

Microbial growth is an exothermic process. Biotechnological industries produce large amounts of heat, usually considered an undesirable by-product. In this work, we report the construction and characterization of the first microbial thermoelectric cell (MTC), in which the metabolic heat produced by a thermally insulated microbial culture is partially converted into electricity through a thermoelectric device optimized for low ΔT values. A temperature of 41°C and net electric voltage of around 250–600 mV was achieved with 1.7 L baker’s yeast culture. This is the first time microbial metabolic energy has been converted into electricity with an ad hoc thermoelectric device. These results might…

Anatomy and PhysiologyBioelectric Energy SourcesExothermic processlcsh:MedicineSaccharomyces cerevisiaeBacterial growthEthanol fermentationMicrobiologyIndustrial MicrobiologyEngineeringElectricityIndustrial EngineeringThermoelectric effectBioenergyAerobic digestionProcess engineeringlcsh:ScienceBiologyMicrobial MetabolismMultidisciplinarybusiness.industryChemistrylcsh:RTemperatureMicrobial Growth and DevelopmentBiotechnologyEnergy and PowerProcess EngineeringBiofuelBiofuelsFermentationEarth SciencesFermentationlcsh:QAlternative EnergyElectricityPhysiological ProcessesEnergy MetabolismbusinessResearch ArticleBiotechnologyDevelopmental BiologyPLoS ONE
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Biogas from energy crops--optimal pre-treatments and storage, co-digestion and energy balance in boreal conditions.

2008

The objective of this research was to evaluate the biogas production from crops in boreal conditions, focusing on the optimal pre-treatment and storage methods, co-digestion and energy balance of farm-scale crop based biogas plants. Alkaline treatments offered some potential for improving the methane yield from grass and sugar beet tops. The results show that the CH4 yield of energy crops can be maintained by appropriate ensiling conditions for even after 11 months in ambient conditions. The CH4 yield was best preserved with wet grass mixture without additives. Co-digestion of manure and crops was shown to be feasible with feedstock volatile solids (VS) containing up to 40% of crops. The hi…

Crops AgriculturalEnvironmental EngineeringSilageBioelectric Energy SourcesEnergy balanceRaw materialStrawManureEnergy cropAgronomyBiogasEnvironmental scienceGasesCow dungWater Science and TechnologyWater science and technology : a journal of the International Association on Water Pollution Research
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Thermoelectric Heat Exchange and Growth Regulation in a Continuous Yeast Culture

2018

We have designed a thermoelectric heat exchanger (TEHE) for microbial fermentations that is able to produce electric power from a microbial continuous culture using the intrinsic heat generated by microbial growth. While the TEHE was connected, the system proved able to stably self-maintain both the temperature and the optical density of the culture. This paves the way toward a more sustainable operation of microbial fermentations, in which energy could be saved by converting part of the metabolic heat into usable electric power.

Hot TemperatureMaterials scienceGrowth regulationBioelectric Energy SourcesBacterial growthOptical densityUSableMetabolic heatMicrobiologyHeat exchangeheat exchangeContinuous cultureElectricityYeastsPhase (matter)hemic and lymphatic diseasesThermoelectric effectHeat exchangerTemperature regulationPower productionProcess engineeringbusiness.industryOriginal ArticlesYeastChemical engineeringFermentationcontinuous cultureOriginal ArticlePeltier–Seebeck effectElectric powerbusinesspower productiontemperature regulation
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Atopic dermatitis and indoor use of energy sources in cooking and heating appliances

2012

Abstract Background Atopic dermatitis (AD) prevalence has considerably increased worldwide in recent years. Studying indoor environments is particularly relevant, especially in industrialised countries where many people spend 80% of their time at home, particularly children. This study is aimed to identify the potential association between AD and the energy source (biomass, gas and electricity) used for cooking and domestic heating in a Spanish schoolchildren population. Methods As part of the ISAAC (International Study of Asthma and Allergies in Childhood) phase III study, a cross-sectional population-based survey was conducted with 21,355 6-to-7-year-old children from 8 Spanish ISAAC cent…

MaleParentsPediatricsmedicine.medical_specialtyBioelectric Energy SourcesCross-sectional studyPopulationSocial EnvironmentLogistic regressionDermatitis AtopicHeatingElectricitySurveys and QuestionnairesEnvironmental healthOdds RatiomedicineHumansCookingBiomassIndoorParent-Child RelationsChildeducationLife StyleChildrenAtopic dermatitiseducation.field_of_studyAnthropometrybusiness.industrylcsh:Public aspects of medicineSmokingPublic Health Environmental and Occupational Healthlcsh:RA1-1270Odds ratioAnthropometryConfidence intervalCross-Sectional StudiesSpainGasAir Pollution IndoorPopulation studyFemaleEnergy sourcebusinessResearch ArticleBMC Public Health
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From Microorganism-Based Amperometric Biosensors towards Microbial Fuel Cells

2021

This review focuses on the overview of microbial amperometric biosensors and microbial biofuel cells (MFC) and shows how very similar principles are applied for the design of both types of these bioelectronics-based devices. Most microorganism-based amperometric biosensors show poor specificity, but this drawback can be exploited in the design of microbial biofuel cells because this enables them to consume wider range of chemical fuels. The efficiency of the charge transfer is among the most challenging and critical issues during the development of any kind of biofuel cell. In most cases, particular redox mediators and nanomaterials are applied for the facilitation of charge transfer from a…

Microbial fuel cellBioelectric Energy SourcesPolymersMicroorganismNanotechnologyBiosensing TechniquesReview02 engineering and technologyyeastbioelectronicslcsh:Chemical technology010402 general chemistry01 natural sciencesBiochemistryRedoxAnalytical ChemistryNanomaterialsmicrobial biosensorslcsh:TP1-1185microbial biofuel cells ; yeast ; direct electron transfer ; extracellular electron transfer ; cell membrane/wall modifications ; conducting polymers ; enzyme-based biofuel cells ; bioelectronics ; microbial biosensors ; whole cell-based biosensorsdirect electron transferenzyme-based biofuel cellsElectrical and Electronic EngineeringElectrodesconducting polymersInstrumentationwhole cell-based biosensorsConductive polymerBioelectronicsextracellular electron transferChemistryfungitechnology industry and agriculturefood and beveragesmicrobial biofuel cells021001 nanoscience & nanotechnologyAtomic and Molecular Physics and Optics0104 chemical sciencescell membrane/wall modificationsBiofuel0210 nano-technologyOxidation-ReductionBiosensorSensors
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Zinc oxide and indium tin oxide thin films for the growth and characterization ofShewanella loihicaPV-4 electroactive biofilms

2011

Transition metal oxides (TMO) electrodes provide a suitable platform for spectroscopy- and microscopy-based investigation of viable electroactive biofilms (EABs). Commercially available TMOs, such as indium titanium oxide (ITO), are produced from rare and expensive elements. Thus, there is a significant need to explore alternative technology to meet the demand. ZnO-based TMOs are low-cost and have excellent electrochemical properties. In this study, we report for the first time a model EAB of Shewanella loihica PV-4 on ZnO films deposited on perspex substrates via pulsed laser deposition (PLD). Commercially available ITO electrodes were also used for comparison. 480 Virulence Volume 2 Issue…

Microbiology (medical)ShewanellaBioelectric Energy SourcesBiofilmImmunologyTin Compoundschemistry.chemical_elementZincBiologyElectrochemistryMicrobiologyIndium tin oxideAmorphous solidInfectious DiseasesChemical engineeringchemistryBiofilmsElectrodeShewanella; BiofilmParasitologyZinc OxideThin filmElectrodesCurrent densitySheet resistanceVirulence
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Electron transfer mechanism in Shewanella loihica PV-4 biofilms formed at graphite electrode

2012

Abstract Electron transfer mechanisms in Shewanella loihica PV-4 viable biofilms formed at graphite electrodes were investigated in potentiostat-controlled electrochemical cells poised at oxidative potentials (0.2 V vs. Ag/AgCl). Chronoamperometry (CA) showed a repeatable biofilm growth of S. loihica PV-4 on graphite electrode. CA, cyclic voltammetry (CV) and its first derivative shows that both direct electron transfer (DET) mediated electron transfer (MET) mechanism contributes to the overall anodic (oxidation) current. The maximum anodic current density recorded on graphite was 90 μA cm − 2 . Fluorescence emission spectra shows increased concentration of quinone derivatives and riboflavi…

ShewanellaElectroactive biofilmBioelectric Energy SourcesExtracellular Electron TransferRiboflavinInorganic chemistryBiophysicsElectrochemical cellElectron TransportElectron transferGraphite electrodeElectrochemistryGraphitePhysical and Theoretical ChemistryElectrodesMicroscopy ConfocalChemistryQuinonesBiofilmmediated electron transferElectrochemical TechniquesGeneral MedicineChronoamperometryAnodeSpectrometry FluorescenceShewanella loihica PV- 4Extracellular Electron Transfer; Shewanella loihica PV- 4; Electroactive biofilms; Graphite electrode; mediated electron transferBiofilmsMicroscopy Electron ScanningGraphiteDifferential pulse voltammetryCyclic voltammetryOxidation-ReductionBioelectrochemistry
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