Time-Resolved Study of Silicate Slag Formation During Combustion of Wheat Straw Pellets

Ash formation during single-fuel pellet combustion of wheat straw at 700 and 1000 °C was studied throughout fuel conversion by quench cooling and analysis at different char conversion degrees. The combination of X-ray microtomography analysis and scanning electronic microscopy with energy-dispersive...

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Published in:	Energy & fuels Vol. 33; no. 3; pp. 2308 - 2318
Main Authors:	Strandberg, Anna, Skoglund, Nils, Thyrel, Mikael, Lestander, Torbjörn A, Broström, Markus, Backman, Rainer
Format:	Journal Article
Language:	English
Published:	American Chemical Society 21-03-2019
Subjects:	Bioenergi Bioenergy
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Abstract	Ash formation during single-fuel pellet combustion of wheat straw at 700 and 1000 °C was studied throughout fuel conversion by quench cooling and analysis at different char conversion degrees. The combination of X-ray microtomography analysis and scanning electronic microscopy with energy-dispersive X-ray spectroscopy showed that ash accumulated in rigid net structures at 700 °C with streaks or small beads surrounding the char, and the pellet mostly maintained its size during the entire fuel conversion. At 1000 °C, the ash formed high-density melts that developed into bubbles on the surface. As the conversion proceeded, these bubbles grew in size and covered parts of the active char surface area, but without entirely blocking the gas transport. The successive char conversion dissolved increasing amounts of calcium in the potassium silicate melts, probably causing differences in the release of potassium to the gas phase. Similarities were found with slag from a combustion experiment in a domestic boiler, with regard to relative composition and estimated and apparent viscosity of the slag. Complete char encapsulation by ash layers limiting char burnout was not found at the single pellet level, nor to any greater extent from the experiment performed in a small domestic boiler.
AbstractList	Ash formation during single-fuel pellet combustion of wheat straw at 700 and 1000 °C was studied throughout fuel conversion by quench cooling and analysis at different char conversion degrees. The combination of X-ray microtomography analysis and scanning electronic microscopy with energy-dispersive X-ray spectroscopy showed that ash accumulated in rigid net structures at 700 °C with streaks or small beads surrounding the char, and the pellet mostly maintained its size during the entire fuel conversion. At 1000 °C, the ash formed high-density melts that developed into bubbles on the surface. As the conversion proceeded, these bubbles grew in size and covered parts of the active char surface area, but without entirely blocking the gas transport. The successive char conversion dissolved increasing amounts of calcium in the potassium silicate melts, probably causing differences in the release of potassium to the gas phase. Similarities were found with slag from a combustion experiment in a domestic boiler, with regard to relative composition and estimated and apparent viscosity of the slag. Complete char encapsulation by ash layers limiting char burnout was not found at the single pellet level, nor to any greater extent from the experiment performed in a small domestic boiler. Ash formation during single-fuel pellet combustion of wheat straw at 700 and 1000 degrees C was studied throughout fuel conversion by quench cooling and analysis at different char conversion degrees. The combination of X-ray microtomography analysis and scanning electronic microscopy with energy-dispersive X-ray spectroscopy showed that ash accumulated in rigid net structures at 700 degrees C with streaks or small beads surrounding the char, and the pellet mostly maintained its size during the entire fuel conversion. At 1000 degrees C, the ash formed high-density melts that developed into bubbles on the surface. As the conversion proceeded, these bubbles grew in size and covered parts of the active char surface area, but without entirely blocking the gas transport. The successive char conversion dissolved increasing amounts of calcium in the potassium silicate melts, probably causing differences in the release of potassium to the gas phase. Similarities were found with slag from a combustion experiment in a domestic boiler, with regard to relative composition and estimated and apparent viscosity of the slag. Complete char encapsulation by ash layers limiting char burnout was not found at the single pellet level, nor to any greater extent from the experiment performed in a small domestic boiler.
Author	Backman, Rainer Skoglund, Nils Thyrel, Mikael Lestander, Torbjörn A Strandberg, Anna Broström, Markus
AuthorAffiliation	Department of Applied Physics and Electronics, Thermochemical Energy Conversion Laboratory Umeå University Swedish University of Agricultural Sciences Department of Forest Biomaterials and Technology
AuthorAffiliation_xml	– name: Department of Forest Biomaterials and Technology – name: Swedish University of Agricultural Sciences – name: Umeå University – name: Department of Applied Physics and Electronics, Thermochemical Energy Conversion Laboratory
Author_xml	– sequence: 1 givenname: Anna orcidid: 0000-0003-0895-3474 surname: Strandberg fullname: Strandberg, Anna organization: Umeå University – sequence: 2 givenname: Nils orcidid: 0000-0002-5777-9241 surname: Skoglund fullname: Skoglund, Nils organization: Umeå University – sequence: 3 givenname: Mikael surname: Thyrel fullname: Thyrel, Mikael organization: Swedish University of Agricultural Sciences – sequence: 4 givenname: Torbjörn A surname: Lestander fullname: Lestander, Torbjörn A organization: Swedish University of Agricultural Sciences – sequence: 5 givenname: Markus orcidid: 0000-0003-1095-9154 surname: Broström fullname: Broström, Markus email: markus.brostrom@umu.se organization: Umeå University – sequence: 6 givenname: Rainer surname: Backman fullname: Backman, Rainer organization: Umeå University
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Snippet	Ash formation during single-fuel pellet combustion of wheat straw at 700 and 1000 °C was studied throughout fuel conversion by quench cooling and analysis at... Ash formation during single-fuel pellet combustion of wheat straw at 700 and 1000 degrees C was studied throughout fuel conversion by quench cooling and...
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Title	Time-Resolved Study of Silicate Slag Formation During Combustion of Wheat Straw Pellets
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