Search results for "Biofuel"

showing 10 items of 142 documents

Screening boreal energy crops and crop residues for methane biofuel production

2008

Abstract The purpose of the study was to screen potential boreal energy crops and crop residues for their suitability in methane production and to investigate the effect of harvest time on the methane production potential of different crops. The specific methane yields of crops, determined in 100–200 d methane potential assays, varied from 0.17 to 0.49 m 3  CH 4  kg −1 VS added (volatile solids added) and from 25 to 260 m 3  CH 4  t ww −1 (tonnes of wet weight). Jerusalem artichoke, timothy-clover grass and reed canary grass gave the highest potential methane yields of 2900–5400 m 3  CH 4  ha −1 , corresponding to a gross energy yield of 28–53 MWh ha −1 and ca. 40,000–60,000 km ha −1 in pas…

Crop residueRenewable Energy Sustainability and the EnvironmentBiomassForestryMethaneEnergy cropchemistry.chemical_compoundAgronomychemistryBiogasBioenergyBiofuelEnvironmental scienceEnergy sourceWaste Management and DisposalAgronomy and Crop ScienceBiomass and Bioenergy
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Assessment of the ecotoxicity of phytotreatment substrate soil as landfill cover material for in-situ leachate management

2019

Phytotreatment capping in closed landfills is a promising, cost-effective, in situ option for sustainable leachate treatment and might be synergistically coupled with energy crops to produce renewable energy (e.g.: biodiesel or bioethanol). This study proposes to use 0.30 m of soil as growing substrate for plants cultivated on the temporary cover of closed landfills. Once the leachate phytotreatment process is no longer required, 0.70 m of the same soil would be added to attain the final top cover configuration. This solution would entail saving the costs of excavation and backfilling. However, worsening of the initial soil quality due to potential contaminant transfer from the liquid to th…

Crops AgriculturalEisenia fetidaEnvironmental Engineering0208 environmental biotechnologyEcotoxicological bioassay02 engineering and technology010501 environmental sciencesManagement Monitoring Policy and Law01 natural sciencesEnvironmental legislationSoilSoil PollutantsLeachateWaste Management and DisposalSubstrate soil chemical characterization0105 earth and related environmental sciencesPhytotreatmentbiologyLandfill leachate phytotreatmentEnvironmental engineeringGeneral MedicineContaminationbiology.organism_classificationSoil qualityRefuse Disposal020801 environmental engineeringEnergy cropWaste Disposal FacilitiesSettore AGR/11 - Entomologia Generale E ApplicataItalyBiofuelEnvironmental scienceEcotoxicityClosed landfillWater Pollutants Chemical
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Storing energy crops for methane production: Effects of solids content and biological additive

2007

The effect of storage on chemical characteristics and CH4 yield (taking into account loss of VS during storage) of a mixture of grasses and ryegrass, ensiled as such (low solids content) and after drying (medium and high solids) with and without biological additive, were studied in field and laboratory trials. Up to 87% and 98% of CH4 yield was preserved with low solids grass (initial TS 15.6%) and high solids ryegrass (initial TS 30.4%), respectively, after storage for 6months, while under suboptimal conditions at most 37% and 52% of CH4 yield were lost. Loss in CH4 yield was mainly due to VS loss, presumably caused by secondary fermentation as also suggested by increasing pH during storag…

Crops AgriculturalEnvironmental EngineeringRenewable Energy Sustainability and the EnvironmentChemistryBioengineeringGeneral MedicineEnergy storageEnergy cropAnaerobic digestionAnimal scienceAgronomyBiogasBioenergyBiofuelYield (chemistry)FermentationMethaneWaste Management and DisposalBioresource Technology
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Cultivation of algae with indigenous species – Potentials for regional biofuel production

2011

The massive need for sustainable energy has led to an increased interest in new energy resources, such as production of algae, for use as biofuel. There are advantages to using algae, for example, ...

CyanobacteriabiologyAgroforestryMechanical EngineeringEnvironmental engineeringBuilding and ConstructionManagement Monitoring Policy and Lawbiology.organism_classificationIndigenousGeneral EnergyEnergy and environmental engineeringAlgaeBiofuelProduction (economics)Green algaeEutrophicationApplied Energy
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Clean and Sustainable Biodiesel Production

2015

To date, the majority of world's primary energy is derived from fossil fuels. However, the fossil fuel recourses are in an inevitable decline as energy demand continues to grow exponentially with population growth, urbanization, and improved standards of living. Crude oil prices have recently risen several times and their current annual volatility exceeds 30%. The potential scarcity of fossil fuels has prompted a global search for alternative energy resources. Biodiesel fulfills the major requirements for production of alternative fuels such as feedstock availability, technical feasibility, and economic competitiveness. Together with other renewable biofuels, the use of biodiesel as a subst…

EngineeringPrimary energyNatural resource economicsta1172biodieselglycerolbiodiesel R & Dlipaseta215microwave irradiationta218microbial oilBiodieselWaste managementgreenhouse gas emissionsbusiness.industryFossil fueltriacetinRenewable fuelstransesterificationRenewable energywaste oilBiofuelBiodiesel productionAlternative energybusiness
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CAMELINA SATIVA AS A CROP FOR DIVERSIFICATION OF AGRICULTURE AND AS A PRODUCER OF HIGH QUALITY OIL

2007

‘Camelina sativa’ is one of the oldest oil crops in Europe. Growing areas were reduced dramatically in 20-40-ties of the last century. Low price of rape oil and unclear composition of camelina oil were primary reasons of this process. Nevertheless, last years ‘Camelina sativa' attracted a great interest of scientists and oil processors as a crop for diversification of agriculture and, in the same time, for producing of the high quantity and quality oil for biofuel, feeding, food, and pharmacy (source of a-linolenic acid, linoleic acid and vitamins, especially E). In Latvia ‘Camelina sativa' is spread as a wild form but for the agriculture it is a new crop.The potential of me of ‘Camelina sa…

Engineeringcalli culture; camelina sativa; iodine value; oil content; vitaminsbiologybusiness.industryCamelina sativafungifood and beveragesCrop rotationDiversification (marketing strategy)biology.organism_classificationCamelinaCropIodine valueHorticultureAgronomyBiofuelAgriculturebusinessEnvironment. Technology. Resources.
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Unveiling microbial structures during raw microalgae digestion and co-digestion with primary sludge to produce biogas using semi-continuous AnMBR sys…

2020

[EN] Methane production from microalgae can be enhanced through anaerobic co-digestion with carbon-rich substrates and thus mitigate the inhibition risk associated with its low C:N ratio. Acclimated microbial communities for microalgae disruption can be used as a source of natural enzymes in bioenergy production. However, co-substrates with a certain microbial diversity such as primary sludge might shift the microbial structure. Substrates were generated in a Water Resource Recovery Facility (WRRF) and combined as follows: Scenedesmus or Chlorella digestion and microalgae co-digestion with primary sludge. The study was performed using two lab-scale Anaerobic Membrane Bioreactors (AnMBR). Du…

Environmental Engineering010504 meteorology & atmospheric sciencesPopulationBiogasChlorella010501 environmental sciencesCo-digestionWaste Disposal Fluid01 natural sciencesMethanosaetaBioreactorsBiogasBioenergyAnaerobic digestionMicroalgaeEnvironmental ChemistryLongitudinal StudieseducationWaste Management and DisposalScenedesmusTECNOLOGIA DEL MEDIO AMBIENTE0105 earth and related environmental scienceseducation.field_of_studybiologyChemistryMicrobiotabiology.organism_classificationPulp and paper industryPollutionMethanogenAnaerobic digestionChlorellaAnMBRBiofuels16S rRNA geneScenedesmus
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Mesophilic co-digestion of dairy manure and lipid rich solid slaughterhouse wastes: process efficiency, limitations and floating granules formation.

2014

Lipid and protein rich solid slaughterhouse wastes are attractive co-substrates to increase volumetric biogas production in co-digestion with dairy manure. Addition of decanter sludge (DS), containing 42.2% of lipids and 35.8% of proteins (total solids basis), up to 5% of feed mixture resulted in a stable process without any indication of long chain fatty acids (LCFA) or free ammonia (NH3) inhibition and in 3.5-fold increase of volumetric biogas production. Contrary, only lipids addition as technical fat (TF) at over 2% of feed mixture resulted in formation of floating granules (FG) and process efficiency decrease. Formed FG had low biodegradability and its organic part was composed of lipi…

Environmental EngineeringChromatography GasBioengineeringAmmoniachemistry.chemical_compoundBacteria AnaerobicBiogasBioenergyAnimalsFood scienceWaste Management and DisposalWaste ProductsWaste managementRenewable Energy Sustainability and the EnvironmentFatty AcidsSpectrometry X-Ray EmissionAgricultureGeneral MedicineBiodegradationTotal dissolved solidsLipid MetabolismManureManureAnaerobic digestionchemistryBiofuelslipids (amino acids peptides and proteins)CalciumCattleFemaleMethaneAbattoirsMesophileBioresource technology
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Effect of additives on process stability of mesophilic anaerobic monodigestion of pig slaughterhouse waste

2012

The effect of two additives on anaerobic monodigestion of pig slaughterhouse waste was studied in three laboratory scale continuously stirred tank reactors (CSTRs) operated for 242-284 days at 35°C. A higher organic loading rate (OLR), namely 2.25 kg volatile solids (VS)/m(3)d with a hydraulic retention time (HRT) of 30 d was feasible with an additive containing Fe, HCl and trace elements while an OLR of 1.5 kg VS/m(3)d (HRT 30 d) led to instabilities in CSTR with an additive consisting of Fe and HCl and in CSTR without additives. Methane yields of ca. 700 dm(3) CH(4)/kg VS(fed) were obtained in all reactors under stable conditions. Both additives decreased H(2)S concentration of the biogas…

Environmental EngineeringHydraulic retention timeIronSus scrofata1172Continuous stirred-tank reactorBioengineeringMethanechemistry.chemical_compoundBioreactorsBiogasAnimalsAnaerobiosisWaste Management and Disposalta218Biological Oxygen Demand AnalysisWaste ProductsWaste managementRenewable Energy Sustainability and the EnvironmentTemperatureGeneral MedicineHydrogen-Ion ConcentrationFatty Acids VolatilePulp and paper industryAnaerobic digestionBiodegradation EnvironmentalchemistryBiofuelBiofuelsHydrochloric AcidMethaneAnaerobic exerciseAbattoirsBiotechnologyMesophileBioresource Technology
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Effects of solid–liquid separation on recovering residual methane and nitrogen from digested dairy cow manure

2006

The feasibility of optimizing methane and nitrogen recovery of samples obtained from farm biogas digester (35 degrees C) and post-storage tank (where digested material is stored for 9-12 months) was studied by separating the materials into different fractions using 2, 1, 0.5 and 0.25 mm sieves. Mass-balances revealed that digested material mainly consists of0.25 mm (60-69%) and2 mm (18-27%) fractions, while fractions between 2 and 0.2 mm made the rest. Incubation of solid fractions0.25 mm of digester material at 35 degrees C resulted in specific methane yields of 0.060-0.085 m(3)kg(-1) volatile solids (VS) during initial 30-50 d and 0.16-0.18 m(3)kg(-1)VS at the end of 340 d incubation. Sim…

Environmental EngineeringNitrogenchemistry.chemical_elementBioengineeringFractionationChemical FractionationMethanechemistry.chemical_compoundBioreactorsBiogasAnimalsWaste Management and DisposalIncubationChromatographyWaste managementRenewable Energy Sustainability and the EnvironmentGeneral MedicineNitrogenRefuse DisposalManureDairyingAnaerobic digestionBiodegradation EnvironmentalchemistryBiofuelFermentationFeasibility StudiesCattleFemaleMethaneCow dungBioresource Technology
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