Search results for "Biomass fly ash"

showing 8 items of 8 documents

Unexplored alternative use of calcareous sludge from the paper-pulp industry in green geopolymer construction materials

2020

Abstract Calcareous sludge is an alkaline waste produced by the paper pulp industry that is commonly disposed of in land-fill. However, recent studies and the European regulations discourage such practice. This work investigates an alternative and innovative way to recycle and reuse this waste, as filler, in the production of green geopolymeric mortars intended for applications in construction. This is the first time that this calcareous sludge is used to produce novel waste-based materials, in both construction and geopolymer technology. The novel alkali-activated mortar also uses biomass fly ash – another slightly investigated waste stream – to substitute the metakaolin (70 wt% substituti…

0211 other engineering and technologiesBiomassSettore ICAR/10 - Architettura Tecnica020101 civil engineering02 engineering and technologyReuseengineering.material0201 civil engineeringLife environmentFiller (materials)021105 building & constructionGeneral Materials ScienceMetakaolinCivil and Structural EngineeringCalcareous sludgeWaste managementBiomass fly ashBuilding and ConstructionConstruction materialGeopolymer mortarGeopolymerFly ashengineeringEnvironmental scienceMortarCalcareousPaper-pulp industry
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The coffee-house: Upcycling spent coffee grounds for the production of green geopolymeric architectural energy-saving products

2023

This study investigates a possible alternative reuse of spent coffee grounds (SCG), the major residue of the brewing process, to manufacture green geopolymeric materials for innovative building applications in energy-saving construction, in line with the European Green Deal towards zero-energy building. Specimens were prepared by a combination of biomass fly ash from the Kraft paper-pulp process, as raw material (70 wt%), and SCG (up to 17.5 %), as filler. The high amount of reused bio-wastes makes the material fit the requirements for the Minimum Environmental Criteria (MEC) certification, in light of the Circular Economy (CE) approach. Sustainability is also boosted by the manufacturing p…

Bio-composite geopolymer Thermo-plaster Thermo-brick Spent coffee ground Biomass fly ash Cost-analysis Virtual energy simulationMechanical EngineeringSettore ICAR/10 - Architettura TecnicaBuilding and ConstructionElectrical and Electronic EngineeringCivil and Structural EngineeringEnergy and Buildings
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Alkali-activated mortars for sustainable construction material: effects of binder-to-aggregate ratio and curing conditions

2019

Valorisation and reuse of industrial wastes has become a worldwide compelling topic to improve the sustainability of processes and materials. This paper discusses an alternative way to recycle the biomass fly ash, generated by the kraft pulp industry, to manufacture novel geopolymeric mortars intended for applications in construction. Biomass fly ash was used as a raw material, in partial substitution of the commonly used metakaolin, natural siliceous sand as aggregate. The followed manufacture process is highly simple and reproducible. Various proportions binder to aggregate were tested to study the effect on the final mortars properties. The mortars mechanical resistance was also studied …

Construction Mortar Geopolymer Biomass fly ash Pulp-paper industry Waste Circular economySettore ICAR/10 - Architettura Tecnica
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ALKALI-ACTIVATED MORTARS FOR SUSTAINABLE CONSTRUCTION MATERIAL: EFFECTS OF BINDER-TO- AGGREGATE RATIO AND CURING CONDITION

2019

Valorisation and reuse of industrial wastes has become a worldwide compelling topic to improve the sustainability of processes and materials. This paper discusses an alternative way to recycle the biomass fly ash, generated by the kraft pulp industry, to manufacture novel geopolymeric mortars intended for applications in construction. Biomass fly ash was used as a raw material, in partial substitution of the commonly used metakaolin, natural siliceous sand as aggregate. The followed manufacture process is highly simple and reproducible. Various proportions binder to aggregate were tested to study the effect on the final mortars properties. The mortars mechanical resistance was also studied …

Construction Mortar Geopolymer Biomass fly ash Pulp-paper industry Waste Circular economySettore ICAR/10 - Architettura Tecnica
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Mix design and mechanical performance of geopolymeric binders and mortars using biomass fly ash and alkaline effluent from paper-pulp industry

2019

Abstract This work investigates the use of biomass fly ash (BFA) and an alkaline effluent (AEF), both generated from the Kraft pulp industry, in the preparation of geopolymeric binders and mortars for construction applications. BFA replaced the metakaolin (MK) while the AEF substituted the distilled water used to dissolve NaOH pellets. The mix design aims to maximize the amount of both the wastes and to optimize the materials properties, such as workability and mechanical performance. At the same time, also the environmental impact decreases enhancing the materials' sustainability and facilitating the circular economy. For the previously optimized BFA/MK ratio (70/30 wt.%) several NaOH/Na2S…

Materials scienceBiomass alkaline effluent020209 energyStrategy and ManagementPelletsSettore ICAR/10 - Architettura Tecnica02 engineering and technologyGeopolymerIndustrial and Manufacturing Engineering0202 electrical engineering electronic engineering information engineeringEffluentMetakaolin0505 lawGeneral Environmental ScienceBinderRenewable Energy Sustainability and the Environment05 social sciencesBiomass fly ashBuilding and ConstructionConstruction materialPulp and paper industryMortarCompressive strengthKraft processDistilled waterFly ash050501 criminologyMortar
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Novel biomass fly ash-based geopolymeric mortars using lime slaker grits as aggregate for applications in construction: Influence of granulometry and…

2019

Abstract This work discusses the influence of the aggregate granulometry and the binder/aggregate ratio on the engineering properties of novel green geopolymeric mortars. Two wastes generated by a Portuguese Kraft pulp industry are employed to manufacture the material: lime slaker grits (used as aggregate) and biomass fly ash (to partially replace the metakaolin − 70 wt% substitution). The novel geopolymeric mortars could find innovative applications as sustainable construction materials. The studied mix design foresees the use of several grits granulometric ranges and ratios binder/aggregate to discuss workability, water sorptivity, and mechanical performance of the novel mortars. To date,…

Sorptivity0211 other engineering and technologiesSettore ICAR/10 - Architettura Tecnica020101 civil engineering02 engineering and technologyRaw materialengineering.materialGritGeopolymer0201 civil engineering021105 building & constructionGeneral Materials ScienceMetakaolinCivil and Structural EngineeringLimebusiness.industryBiomass fly ashBuilding and ConstructionConstruction materialMasonryPulp and paper industryMortarKraft processFly ashengineeringEnvironmental scienceMortarbusinessPaper-pulp industry
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Multi criteria evaluation of a sustainable alkali-activated concrete

2019

The construction industry is one of the most polluting sectors worldwide. In order to reduce the environmental footprint, novel green materials and processes are being considered by valorising and reusing wastes. This work investigates the production of a novel and sustainable geopolymeric concrete reusing biomass fly ash from kraft paper-pulp industry. In particular, this paper aims to evaluate the best combination of the aggregate granulometry used in the material production. For this purpose, the multicriteria method TOPSIS has been implemented in order to obtain a rank of the concrete specimens. In this approach only mechanical aspects have been considered and future developments will i…

SustainabilitySettore ING-IND/17 - Impianti Industriali MeccaniciBiomass fly ashTopsis MethodGeopolymer
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Innovative Recycling of Lime Slaker Grits from Paper-Pulp Industry Reused as Aggregate in Ambient Cured Biomass Fly Ash-Based Geopolymers for Sustain…

2019

Lime slaker grits and biomass fly ash are solid wastes produced by the Kraft paper-pulp industry that are commonly disposed of in landfill. However, recent studies and European regulations discourage such disposal practices. This work investigates an alternative and innovative way to recycle and reuse these wastes in the production of green geopolymeric mortars intended for application in the construction industry. Here, biomass fly ash was used as the main source of alumino-silicate in the binder precursor (70 wt.% substitution to metakaolin), and grits (ranging from 1&ndash

constructionSorptivitygeopolymer concrete020209 energyGeography Planning and Developmentlcsh:TJ807-830lcsh:Renewable energy sourcesSettore ICAR/10 - Architettura Tecnica02 engineering and technology010501 environmental sciencesManagement Monitoring Policy and LawReuseengineering.materialrecyclinglime slaker grit01 natural sciences0202 electrical engineering electronic engineering information engineeringMetakaolinbiomass fly ashlcsh:Environmental sciences0105 earth and related environmental sciencesLimelcsh:GE1-350Waste managementRenewable Energy Sustainability and the Environmentlime slaker gritslcsh:Environmental effects of industries and plantspaper-pulp industryCompressive strengthlcsh:TD194-195Fly ashengineeringEnvironmental scienceMortarKraft paperSustainability
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