Search results for "Pelletizing"

showing 6 items of 6 documents

Torrefied versus conventional pellet production – A comparative study on energy and emission balance based on pilot-plant data and EU sustainability …

2015

Abstract Torrefaction is an emerging technology which enables greater co-firing rates of biomass with coal. To date however there has been a lack of real production data from pilot-scale torrefaction plants. Without such data any environmental benefits of torrefied pellet production are difficult to quantify. In this study data on consumable inputs from a semi-industrial torrefaction plant and the physical properties of produced pellets are used to analyse energy input and air emissions of torrefied pellet production and product transport. EU sustainability criteria are used to compare CO2-equivalent emissions from torrefied and conventional pellet production starting from harvesting of log…

Waste managementbusiness.industrywood pelletsMechanical EngineeringFossil fuelemissionsPelletsBuilding and ConstructionManagement Monitoring Policy and LawREDTorrefactionPelletizingenvironmental impactRenewable energytorrefactionGeneral EnergyBiofuelEnvironmental scienceCoalco-firingbusinessEnergy sourceta215ta218Applied Energy
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Considerations on factors affecting biochar densification behavior based on a multiparameter model

2021

The optimization of upscaled biochar pelleting is limited by lack of knowledge regarding the effects of process parameters. A multiparameter model, coupled to a single pellet press unit, was for the first time applied to biochar production to predict the upscaled biochar pelleting process behavior. The model permits to estimate in a time and cost-effective way how the die friction forces, quantified through the pellet exiting pressure, are affected by the key process parameters. It was observed that to achieve acceptably low exiting pressures (in the order of 100 MPa), it was critical to produce biochar at high temperatures (e.g. 600 °C). Addition of water as a binder is also beneficial, wh…

Materials sciencebusiness.product_category020209 energyPelletsPelletization02 engineering and technologyIndustrial and Manufacturing Engineeringchemistry.chemical_compound020401 chemical engineeringPyrolysis oilPelletBiocharDensification0202 electrical engineering electronic engineering information engineering0204 chemical engineeringElectrical and Electronic EngineeringCivil and Structural EngineeringMechanical EngineeringModelingBuilding and ConstructionPelletizingTorrefactionPulp and paper industryPollutionVDP::Teknologi: 500BiocharPyrolysis oilGeneral EnergyCompressive strengthchemistryDie (manufacturing)businessPyrolysis
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Characterization of renewable reductants and charcoal-based pellets for the use in ferroalloy industries

2018

This study investigates the effect of high-temperature pyrolysis and post-treatment processes on spruce and oak charcoal yields and CO2 reactivity in a slow pyrolysis reactor. Post-treatment processes such as co-pyrolysis of biomass and recirculated tar mixture with that to the distillation of the charcoal-tar blend gave similar increase in charcoal yields. From a technological standpoint, co-pyrolysis of charcoal and tar mixture decreased the CO2 reactivity of the charcoal approaching that of fossil-based coke. This emphasize the importance of tar addition and high temperature treatment on charcoal properties. Moreover, the findings of this work show the potential use of the tar organic fr…

020209 energypelletizationPelletizationPelletsBiomassFerroalloy02 engineering and technologyIndustrial and Manufacturing Engineering020401 chemical engineeringhigh temperature pyrolysis0202 electrical engineering electronic engineering information engineeringHigh temperature pyrolysis0204 chemical engineeringElectrical and Electronic EngineeringCharcoalFerroalloy industryCivil and Structural EngineeringChemistrysecondary heat treatmentMechanical EngineeringTarBuilding and ConstructionCokeferroalloy industryPelletizingPulp and paper industryPollutionGeneral EnergyCharcoalvisual_artvisual_art.visual_art_mediumSecondary heat treatmentPyrolysischarcoal
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Ultralow thermal conductivity in 1D and 2D imidazolium-based lead halide perovskites

2021

Low-dimensional hybrid organic–inorganic metal halide perovskites are rapidly emerging as a fascinating sub-class of the three-dimensional parent structures, thanks to their appealing charge and thermal transport properties, paired to better chemical and thermal stabilities. Extensive investigations of the thermal behavior in these systems are of paramount relevance to understand their optoelectronic and thermoelectric applications. Herein, we present a complete thermophysical characterization of imidazolium lead iodide, (IMI)PbI3, a 1D pseudo-perovskite with chains of face-sharing octahedra, and histammonium lead iodide, (HIST)PbI4, a 2D layered perovskite with corner-sharing octahedra. Up…

Metal halideLead compoundMaterials sciencePhysics and Astronomy (miscellaneous)HalidePelletizingIodine compoundThermal diffusivityPerovskiteThermodynamic stabilityThermal expansionPowder metalHybrid systemThermal conductivityChemical physicsLayered semiconductorThermoelectric effectThermalorganic-inorganic materialThermal stabilityThermal expansionPerovskite (structure)
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Analysis of optimal temperature, pressure and binder quantity for the production of biocarbon pellet to be used as a substitute for coke

2019

In order to contribute to the decarbonization of the economy, efficient alternatives to coal and coke should be found not only in the power sector but also in the industrial sectors (like steel, silicon and manganese production) in which coal and coke are used as a reductant and for steel production also as a fuel. To this aim many research works have been focused on the development of a coke substitute based on woody biomass and known as “biocarbon”. There are still barriers to overcome, among them: the biocarbon low density, poor mechanical strength and high reactivity. In this paper a new biocarbon production methodology is proposed, based on: pyrolysis at 600 °C, densification (using py…

020209 energyBiocarbon; Compressive strength; Durability; Pine wood chips; Pyrolysis; Pyrolysis oilBiomassCompressive strengthPine wood chips02 engineering and technologyManagement Monitoring Policy and LawDurabilitychemistry.chemical_compound020401 chemical engineeringPyrolysis oilPellet0202 electrical engineering electronic engineering information engineeringCoalResponse surface methodology0204 chemical engineeringbusiness.industryMechanical EngineeringBuilding and ConstructionCokePelletizingPulp and paper industryBiocarbonPyrolysis oilVDP::Teknologi: 500General EnergychemistryEnvironmental sciencebusinessPyrolysisPyrolysisApplied Energy
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X-ray micro-computed tomography investigation of fibre length degradation during the processing steps of short-fibre composites

2014

The mechanical properties of composites in the fibre direction are mainly attributed to the fibre slenderness, or aspect ratio. A trade-off between performance and processability is usually required, and dependent on the intended application. If the fibre length could be retained or not severely degraded during various processing steps towards the injection-moulded component, a stiffer and stronger composite product could be obtained. The processing steps for injection moulded wood-fibre composites here include: Pulping, commingling, extrusion, pelletizing, and injection moulding. To tune the processing parameters systematically for retained fibre length, it would be useful to investigate t…

Materials scienceta114A. Polymer–matrix composites (PMCs)Composite numberGeneral EngineeringX-rayPelletizingMicrostructureAspect ratio (image)Ceramics and CompositesDegradation (geology)ExtrusionInjection mouldingComposite materialta216X-ray tomographyE. Injection moulding
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