Evaluation of Physical, Chemical, and Environmental Properties of Biomass Bottom Ash for Use as a Filler in Bituminous Mixtures

Suárez-Macías, Jorge; Terrones-Saeta, Juan María; Iglesias-Godino, Francisco Javier; Corpas-Iglesias, Francisco Antonio

doi:10.3390/su13084119

Cited by 8 publications

(11 citation statements)

References 31 publications

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“…The content of Cl − ranged from 15.7 to 63.2 mg/kg, and in the case of SO 4 2− , the differences were even greater, ranging from 1210 to 15,430 mg/kg. A high concentration of sulphur compounds (6.43 wt % and 3.3 wt %) in biomass bottom ash was also recorded by Suárez-Macías et al [23] and Link et al [21], respectively. These findings are perfectly in line with our results.…”

Section: So 4 2−supporting

confidence: 62%

“…Horák et al [19] obtained similar data for ashes after combusting various fractions of municipal waste, indicating that in the case of floor coverings mixed with dry beech, the content of chlorides may reach even up to 191,000 mg/kg. A high concentration of chlorine (4.7 wt %) in biomass bottom ash was also observed by Suárez-Macías et al [23] and Link et al [21]. In water extracts, the concentration of chloride was considerably lower and amounted to 134 mg/kg on average [23].…”

Section: −supporting

confidence: 56%

“…A high concentration of chlorine (4.7 wt %) in biomass bottom ash was also observed by Suárez-Macías et al [23] and Link et al [21]. In water extracts, the concentration of chloride was considerably lower and amounted to 134 mg/kg on average [23].…”

Section: −supporting

confidence: 56%

“…Similar findings have been published by Horák et al [19], who demonstrated the risk of incinerating solid fuels mixed with municipal waste. The subject of incinerating or co-incinerating various types of biomass, individually or in combination with solid fuels, has also been addressed by Bachameier et al [20], Link et al [21], Monedero et al [22], or Suárez-Macías et al [23].…”

Section: Introductionmentioning

confidence: 99%

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Leaching of Chlorides, Sulphates, and Phosphates from Ashes Formed as a Result of Burning Conventional Fuels, Alternative Fuels, and Municipal Waste in Household Furnaces

Kicińska

Caba²

2021

Energies

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The aim of the study was to assess leaching of Cl−, SO42−, and PO43− from ashes formed in household furnaces. The ashes were obtained following the combustion of conventional fuels, namely wood and hard coal, and alternative fuels with various fractions of municipal waste in a household boiler. Aqueous leachates of the ashes were used to determine concentrations of chlorides by titration (Mohr’s method) (21.3–3049.6 mg/dm3), sulphates by the gravimetric method (12.2–244.1 mg/dm3), and phosphates by spectrophotometry (0.01–67.2 mg/dm3). It was found that co-combustion of municipal waste with plastic-coated paper cartons, diapers, or a mixed waste fraction leaves the greatest amount of ashes on the furnace grate. The highest amounts of Cl−, SO42−, and PO43− were leached from ashes generated from burning a mix of wood and coals, or wood alone (different species). The addition of municipal waste to the process of burning the conventional and alternative fuels studied did not significantly increase Cl−, SO42−, and PO43− content in aqueous extracts of ashes, the exception being diapers and plywood. In light of the study results, it was concluded that all the ashes could be reused (as an additive to concrete) except for the ash generated from the combustion of a mixed municipal waste fraction and coal (due to the content of Cl−) and diapers (due to the content of PO43−). It was demonstrated that Cl−, SO42−, and PO43− content in the entire set of samples and in individual ash groups is highly heterogeneous and variable.

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Section: So 4 2−supporting

confidence: 62%

Section: −supporting

confidence: 56%

Section: −supporting

confidence: 56%

Section: Introductionmentioning

confidence: 99%

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Leaching of Chlorides, Sulphates, and Phosphates from Ashes Formed as a Result of Burning Conventional Fuels, Alternative Fuels, and Municipal Waste in Household Furnaces

Kicińska

Caba²

2021

Energies

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“…The studies conducted so far [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21][22] have revealed that bio-ash considerably varies as to its composition and properties, depending on the origin of the biomass, biomass handling, and the combustion technology and temperature. The wide range of compositions and properties of bio-ash requires the testing of individual sources with the purpose of determining the possibility of using bio-ash in road construction as a substitute for traditional materials.…”

Section: Introductionmentioning

confidence: 99%

Contribution to the Research on the Application of Bio-Ash as a Filler in Asphalt Mixtures

Šimun,

Dimter,

Grubješić

et al. 2023

Applied Sciences

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The intensive construction of all categories of roads and the very demanding maintenance of the pavement structures of existing roads due to ever-increasing traffic loads confronts us with a lack of resources and also an increase in cost for the constituent materials of asphalt mixtures. On the other hand, there is another problem: large amounts of waste material in the form of bio-ash, which is obtained by burning waste wood biomass in the production of thermal energy and/or electricity. In order to solve the environmental problem of bio-ash disposal, research was conducted on the use of waste bio-ash as a constituent material in asphalt pavements. As part of this study, the effect of asphalt concrete mix, with bio-ash as a filler, on the release of harmful substances into the environment was investigated. The possibility of using wood bio-ash (BA) as a filler in asphalt mixtures was then determined through physical and mechanical property tests. The properties of the asphalt sample’s sensitivity to the action of water (indirect tensile strength ratio—ITSR) and resistance to rutting were tested for asphalt concrete type AC 11 surf with 50% bio-ash in the filler. It was established that asphalt concrete does not release harmful substances into the environment and that the 50% share of bio-ash in the filler results in asphalt that has good resistance to water sensitivity and even greater resistance to rutting.

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Towards increased adoption of furnace bottom ash as sustainable building materials: Characterization, standardization, and applications

Onaizi,

Tang,

Amran

et al. 2024

Journal of Building Engineering

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Evaluation of Physical, Chemical, and Environmental Properties of Biomass Bottom Ash for Use as a Filler in Bituminous Mixtures

Cited by 8 publications

References 31 publications

Leaching of Chlorides, Sulphates, and Phosphates from Ashes Formed as a Result of Burning Conventional Fuels, Alternative Fuels, and Municipal Waste in Household Furnaces

Leaching of Chlorides, Sulphates, and Phosphates from Ashes Formed as a Result of Burning Conventional Fuels, Alternative Fuels, and Municipal Waste in Household Furnaces

Contribution to the Research on the Application of Bio-Ash as a Filler in Asphalt Mixtures

Towards increased adoption of furnace bottom ash as sustainable building materials: Characterization, standardization, and applications

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