Emissions and deposit properties from combustion of wood pellet with magnesium additives

Persson, Tomas; Riedel, Jochen; Berghel, Jonas; Bexell, Ulf; Win, Kaung Myat

doi:10.1016/s1872-5813(13)60029-8

Cited by 11 publications

(2 citation statements)

References 7 publications

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“…The standard LVS EN ISO 18125 controls the ash content after pellet combustion. Ash contains factor may depends on many factors [23]- [25], but our research shows correlation between cotton powder adding and ash contain [26]. The first two specimens of the pellets (Table 3) contain wood chips and cotton powder in different proportions (1st specimen -20%, 2nd specimen -12.5%), and show the ash content higher than in a specimen with 10% synthetic (PES) powder (4th specimen, Table 3).…”

Section: Resultsmentioning

confidence: 61%

Study of the Application of Pellets From Textile Material Waste and Biomass Mixture in Industrial and Residental Heating Systems

Kramens

Vīgants

Kanukuntla

et al. 2023

ETR

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The efficient waste management hierarchy is based on four priorities, reuse, recycle, energy recovery, deposit.Efficient energy recovery from non-recyclable textile materials (waste to energy) principles we study in this paper. Energy recovery from the fuel pellets consisting of waste textile materials and biomass depends on many factors. One of the main is to create a competitive form for the newly offered fuel (pellets from a mixture of biomass and textile), as well using a new generation of small-scale energy production facilities. Using already existing applications for efficient waste management is one of the circular economy aspects we lay on in this paper.Roughly estimated that the quantities of textiles separately collected will increased from 65 000 to 90 000 tons per year across the EU-27 from 2025. Reuse and recycling outlets will need to be created, as the current sorting and recycling capacities are not sufficient to process the anticipated volumes. However, it is also expected that at least half of these additional volumes will comprise non-reusable textile waste with specific flame retardant (FR) treatment. It is known that flame retardant is hazard by its adverse environmental impacts of FRs in their production and disposal phases.The objective of the paper is to review opportunities of elaboration a new type of the fuel pellets, and using them in industrial heat pellet boilers and combined heat and power CHP systems.Elaborated the new pellets from biomass (prepared by plasticization method) and chopped textile waste sized till 2-3 mm (by method separative milling) were tested in controlled combustion processes.Experiments were carried out by adding different proportions of textile waste to biomass pellets and the results obtained are summarized in the article

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Section: Resultsmentioning

confidence: 61%

Study of the Application of Pellets From Textile Material Waste and Biomass Mixture in Industrial and Residental Heating Systems

Kramens

Vīgants

Kanukuntla

et al. 2023

ETR

View full text Add to dashboard Cite

show abstract

“…The standard LVS EN ISO 18125 controls the ash content after pellet combustion. The ash content factor may depend on many factors [26][27][28], but our research shows the correlation between cotton powder added and ash content [29]. The first two specimens of the pellets (Table 3) contain wood chips and cotton powder in different proportions (1 st specimen -20%, 2 nd specimen -12.5%), and show the ash content higher than in the specimen with 10% synthetic (PES) powder (4 th specimen, Table 3).…”

Section: Fig 1 Comparison Graph Of Average Of Lengths and Diameters O...mentioning

confidence: 64%

Efficient energy recovery from textile waste and biomass mixture

Kramens

Vīgants

Kanukuntla

et al. 2023

Engineering for Rural Development

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Efficient energy recovery from the fuel pellets consisting of waste textile materials and biomass depends on many factors. One of the main tasks is to create a competitive form for the newly offered fuel (pellets from a mixture of biomass and textile), as well using a new generation of small-scale energy production facilities. Roughly estimated the quantities of textiles separately collected will increase from 65 000 to 90 000 tons per year across the EU-27 from 2025. Reuse and recycling outlets will need to be created, as the current sorting and recycling capacities are not sufficient to process the anticipated volumes. However, it is also expected that at least half of these additional volumes will comprise non-reusable textile waste with specific flame retardant (FR) treatment. It is known that flame retardant is hazard by its adverse environmental impacts of FRs in their production and disposal phases. The objective of the paper is to review opportunities of elaboration a new type of fuel pellets and using them in small-scale pellet boilers, and combined heat and power CHP. The new pellets from biomass (prepared by plasticization method) and chopped textile waste sized up to 2-3 mm (by method of separative milling) were elaborated and tested in controlled combustion processes. Experiments were carried out by adding different proportions of textile waste to biomass pellets and the results obtained are summarized in the article.

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Production of high-quality biogenic fuels by co-pelletization of sugarcane bagasse with pinewood sawdust and peanut shell

Moreira

Júnior

Filho

et al. 2022

Biomass Conv. Bioref.

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Emissions and deposit properties from combustion of wood pellet with magnesium additives

Cited by 11 publications

References 7 publications

Study of the Application of Pellets From Textile Material Waste and Biomass Mixture in Industrial and Residental Heating Systems

Study of the Application of Pellets From Textile Material Waste and Biomass Mixture in Industrial and Residental Heating Systems

Efficient energy recovery from textile waste and biomass mixture

Production of high-quality biogenic fuels by co-pelletization of sugarcane bagasse with pinewood sawdust and peanut shell

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