Search results for "Biogas"

showing 10 items of 156 documents

Simultaneous application of vacuum and sweep gas in a polypropylene membrane contactor for the recovery of dissolved methane from water

2021

Abstract Vacuum and nitrogen as sweep gas were used simultaneously (combination mode) to generate the driving force in a microporous polypropylene membrane contactor for the recovery of dissolved methane from water. Experiments were carried out under different liquid flow-rates (5.0–28.0 L h−1), N2 flow-rates (0.5–1.5 L h−1) and vacuum pressures (0–480 mbar). The maximum removal efficiency of methane was >90% at moderate values of gas-to-liquid ratios (G/L) and vacuum of 0.2 and ≤ 200 mbar, respectively. Removal efficiencies obtained in combination mode were usually higher than when using vacuum or sweep gas, separately. To achieve a methane content >35% in the recovered gas, G/L values low…

PolypropyleneMaterials scienceAnalytical chemistrychemistry.chemical_elementFiltration and Separation02 engineering and technologyMicroporous material010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesBiochemistryNitrogenMethane0104 chemical scienceschemistry.chemical_compoundMembranechemistryBiogasMembrane contactorGeneral Materials SciencePhysical and Theoretical Chemistry0210 nano-technologyContactorJournal of Membrane Science

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Plants for Environmental Protection

2023

Plants for environmental protection are Anaerobic Digestion plants for converting biomass as Renewable Energy Source (RES), i.e. biowaste, agricultural feedstock, livestock effluents (manure and slurry) and food industry by-products, into biogas, i.e. bioenergy, as well as digestate, i.e. biofertiliser. In turn, biogas can be converted into electrical and thermal energy or can be used for extracting biomethane, i.e. biofuel, or can be injected in the natural gas grid. Moreover, digestate can be divided into solid and liquid fractions, that can be used for fertilisation or fertirrigation, respectively, sometimes after aerobic composting.

Renewable Energy Sources (RES) biomass biowaste biogas digestateSettore AGR/09 - Meccanica Agraria

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Volatile fatty acids (VFAs) and methane from food waste and cow slurry: Comparison of biogas and VFA fermentation processes

2018

Renewable Energy Sustainability and the Environment020209 energyMicrobial diversityForestry02 engineering and technology010501 environmental sciencesPulp and paper industry01 natural sciencesMethaneAnaerobic digestionchemistry.chemical_compoundFood wasteVolatile fatty acidschemistryBiogas0202 electrical engineering electronic engineering information engineeringSlurryFermentationWaste Management and DisposalAgronomy and Crop Science0105 earth and related environmental sciencesGCB Bioenergy

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Methane production from maize in Finland – Screening for different maize varieties and plant parts

2012

Abstract The objective of the study was to determine how the harvest time and maize variety (12 varieties) affects the methane yield and dry matter yield per hectare in southern Finland (Piikkio) and in Central Finland (Laukaa). The specific methane yields and methane yields per hectare were also determined for different plant parts (stem, leaves and cobs). The methane yield per hectare varied from 2130 to 9170 m 3 ha −1 . The methane yields per hectare were ∼50% lower in Laukaa than in Piikkio due to a shorter growing season and lower total solid (TS) yields. TS yields were on average 16.7 and 15.5 Mg ha −1 in Piikkio and 8.7 and 6.8 Mg ha −1 in Laukaa in 2007 and 2008, respectively. The …

Renewable Energy Sustainability and the EnvironmentBiomassSowingGrowing seasonForestryMethanechemistry.chemical_compoundBiogaschemistryAgronomyYield (wine)Environmental scienceDry matterWaste Management and DisposalAgronomy and Crop ScienceHectareBiomass and Bioenergy

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Regulating feeding and increasing methane yield from co-digestion of C5 molasses and cattle manure

2014

Abstract The paper investigated the mesophilic (∼35 °C) and thermophilic (∼50 °C) co-digestion of cattle manure and C5 molasses for a variable organic loading rate (OLR). The small scale continuous reactor experiment revealed that thermophilic treatment yielded a maximum 313 ± 16 L/kg VS methane for the feeding ranged between 50% and 70% C5 (v/v). Mesophilic co-digestion, on the other hand, produced maximum 232 ± 32 L/kg VS methane when feeding was ranged between 31% and 47% C5 (v/v). The feeding strategy of this study was sophistically adjusted owing to the unstable volatile fatty acids (VFA) pattern, developed at different stages of the experiment. Attainable molasses feeding for both the…

Renewable Energy Sustainability and the EnvironmentContinuous reactorMicroorganismEnvironmental engineeringEnergy Engineering and Power TechnologyBiologyManureMethaneAnaerobic digestionchemistry.chemical_compoundFuel TechnologyAnimal scienceNuclear Energy and EngineeringBiogaschemistryBiofuelMesophileEnergy Conversion and Management

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A methodological approach for assessing businness investments in renewable resources from a circular economy perspective

2018

Abstract In this paper, we have analyzed a feasibility project for the realization of a biogas plant at a company in the viticulture sector located in south-central Sicily. Using engineering formulas, we identified the electrical power that the plant could produce using waste products created by the vineyard itself, examined the new and interesting opportunities that have arisen with the encouragement and development of biogas production in Italy, and then assessed the economic feasibility of the investment itself, considering an investment scheme of total capital self-financing. The possibility of using wastes from wine production comes from an in-depth study of the circular economy, that …

Resource (biology)Natural resource economicsBiogas technology Circular economy Ecosystems Renewable resources020209 energyCircular economyGeography Planning and DevelopmentForestry02 engineering and technologyBiodegradable wasteManagement Monitoring Policy and LawInvestment (macroeconomics)BiogasSettore AGR/01 - Economia Ed Estimo RuraleSustainable agriculture0202 electrical engineering electronic engineering information engineeringProduction (economics)BusinessSettore SECS-S/01 - StatisticaNature and Landscape ConservationRenewable resourceLand Use Policy

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IL MONITORAGGIO DELLE EMISSIONI E DELLA QUALITÀ DELL’ARIA NELLA GESTIONE DELLE DISCARICHE

2016

La corretta gestione delle discariche controllate, destinate allo smaltimento dei rifiuti urbani, in fase operativa e post‐operativa, richiede il controllo dei potenziali impatti che esse possono determinare nei vari comparti ambientali interessati. Fra questi, la produzione di biogas derivante dai processi metabolici di trasformazione della frazione organica dei rifiuti, richiede, da un lato, la realizzazione di efficaci sistemi di estrazione, mediante i quali è pure possibile produrre energia termica e/o elettrica, dall’altro, il controllo delle emissioni diffuse in atmosfera, che contribuiscono al peggioramento delle caratteristiche dell’aria ambiente circostante il sito della discarica,…

Settore ICAR/03 - Ingegneria Sanitaria-AmbientaleBiogas Monitoraggio discariche Qualità dell'aria

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Tecniche di upgrade del biogas a biometano.

2018

Il biogas prodotto dalla digestione anaerobica (AD) a partire da matrici organiche, sia in reattori controllati (digestori) che da discariche controllate, è costituito principalmente da metano, CH4 (50÷70%) e anidride carbonica, CO2 (30÷50%). Il contenuto relativo di CH4 e CO2 nel biogas dipende principalmente dalla natura del substrato e dal pH nella massa in digestione. Oltre a questi due, il biogas contiene, inoltre, quantità minori di altri composti, come l'azoto (0÷3%), il vapore acqueo (5÷10%), l’ossigeno (0÷1%), l’idrogeno solforato (0÷10.000 ppmv), che è prodotto dalla riduzione del solfato contenuto in alcuni rifiuti, l’ammoniaca, proveniente prevalentemente da idrolisi di material…

Settore ICAR/03 - Ingegneria Sanitaria-AmbientaleBiogas upgrade biometano

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Produzione e valorizzazione del biogas nei processi di digestione anaerobica

2015

I processi di digestione anaerobica di matrici organiche, seppure necessitino di una impiantistica complessa e di una elevata competenza degli operatori, contrariamente ai processi aerobici, notoriamente energivori, offrono la concreta possibilità di ottenere un consistente ritorno economico mediante il recupero energetico dal biogas che in essi viene prodotto. Le tecnologie disponibili consentono di utilizzare il biogas, dopo una preliminare depurazione, a scopo cogenerativo, ossia per la produzione di energia elettrica e termica contemporaneamente, con rese tali da potere soddisfare gli autoconsumi dell’impianto di produzione stesso e tali da consentire una commercializzazione all’esterno…

Settore ICAR/03 - Ingegneria Sanitaria-AmbientaleBiogas valorizzazione digestione anaerobica

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Energy and environmental management protocols of an agrocombined system for biogas production from biomass waste: the experience of the project Italy…

2014

Settore ING-IND/10 - Fisica Tecnica IndustrialeBiomass Energy management biogas

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