Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste

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Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste. / Weißenbach, Thomas; Sarc, Renato.
in: Waste management, Jahrgang 119, Nr. 119, 01.01.2021, S. 162 - 171.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Weißenbach, T & Sarc, R 2021, 'Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste', Waste management, Jg. 119, Nr. 119, S. 162 - 171. https://doi.org/10.1016/j.wasman.2020.09.033

APA

Weißenbach, T., & Sarc, R. (2021). Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste. Waste management, 119(119), 162 - 171. https://doi.org/10.1016/j.wasman.2020.09.033

Vancouver

Weißenbach T, Sarc R. Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste. Waste management. 2021 Jan 1;119(119):162 - 171. doi: https://doi.org/10.1016/j.wasman.2020.09.033

Author

Weißenbach, Thomas ; Sarc, Renato. / Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste. in: Waste management. 2021 ; Jahrgang 119, Nr. 119. S. 162 - 171.

Bibtex - Download

@article{1166fea74263409ba0b4d18b25b55038,
title = "Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste",
abstract = "The smart waste factory of the future will be monitored and controlled by a combination of various sensors and several real-time data sets. One essential data requirement relates to waste streams at different stages of the treatment process. In order to analyse waste by sensor-based technology, a solid database of representative waste data is necessary. Usually, this data is collected of mixed waste. The present paper describes waste on the level of individual waste particles. In the first step, particles from fine-shredded (<30 mm), non-hazardous, mixed waste have been investigated. As an example for this material, solid recovered fuel (SRF) has been used. 20 samples from five SRF-producers have been collected. From each of these samples, 800 particles have been extracted, covering eight waste fractions. In total, 15,542 particles were examined regarding their projected particle area and their particle mass. Both parameters are log-normal distributed with a median for the area of 3.62 cm 2 and for the mass of 0.19 g. To investigate the relationship between the two parameters, the Pearson-Correlation-Coefficient of the logarithmised data has been calculated. The resulting coefficient of 0.57 means a good correlation. Additionally, the fuel parameters of the individual fractions were measured using laboratory analysis on composite samples of the five SRF-producers. The lower heating value, the ash content and the chlorine content are either in the range or slightly lower than the data from literature. Additional work is required to improve the usability of the data obtained for the real-time analysis of waste. ",
keywords = "Abfallcharakterisierung, Abfallpartikel, Ersatzbrennstoff, Heizwert, Aschegehalt, Chlorgehalt, Waste characterisation, Waste particles, Solid Recovered Fuel, Lower heating value, Ash content, Chlorine content, Secondary recovered fuel",
author = "Thomas Wei{\ss}enbach and Renato Sarc",
note = "Publisher Copyright: {\textcopyright} 2020 Elsevier Ltd",
year = "2021",
month = jan,
day = "1",
doi = "https://doi.org/10.1016/j.wasman.2020.09.033",
language = "English",
volume = "119",
pages = "162 -- 171",
journal = "Waste management",
issn = "0956-053X",
publisher = "Elsevier",
number = "119",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Investigation of particle-specific characteristics of non-hazardous, fine shredded mixed waste

AU - Weißenbach, Thomas

AU - Sarc, Renato

N1 - Publisher Copyright: © 2020 Elsevier Ltd

PY - 2021/1/1

Y1 - 2021/1/1

N2 - The smart waste factory of the future will be monitored and controlled by a combination of various sensors and several real-time data sets. One essential data requirement relates to waste streams at different stages of the treatment process. In order to analyse waste by sensor-based technology, a solid database of representative waste data is necessary. Usually, this data is collected of mixed waste. The present paper describes waste on the level of individual waste particles. In the first step, particles from fine-shredded (<30 mm), non-hazardous, mixed waste have been investigated. As an example for this material, solid recovered fuel (SRF) has been used. 20 samples from five SRF-producers have been collected. From each of these samples, 800 particles have been extracted, covering eight waste fractions. In total, 15,542 particles were examined regarding their projected particle area and their particle mass. Both parameters are log-normal distributed with a median for the area of 3.62 cm 2 and for the mass of 0.19 g. To investigate the relationship between the two parameters, the Pearson-Correlation-Coefficient of the logarithmised data has been calculated. The resulting coefficient of 0.57 means a good correlation. Additionally, the fuel parameters of the individual fractions were measured using laboratory analysis on composite samples of the five SRF-producers. The lower heating value, the ash content and the chlorine content are either in the range or slightly lower than the data from literature. Additional work is required to improve the usability of the data obtained for the real-time analysis of waste.

AB - The smart waste factory of the future will be monitored and controlled by a combination of various sensors and several real-time data sets. One essential data requirement relates to waste streams at different stages of the treatment process. In order to analyse waste by sensor-based technology, a solid database of representative waste data is necessary. Usually, this data is collected of mixed waste. The present paper describes waste on the level of individual waste particles. In the first step, particles from fine-shredded (<30 mm), non-hazardous, mixed waste have been investigated. As an example for this material, solid recovered fuel (SRF) has been used. 20 samples from five SRF-producers have been collected. From each of these samples, 800 particles have been extracted, covering eight waste fractions. In total, 15,542 particles were examined regarding their projected particle area and their particle mass. Both parameters are log-normal distributed with a median for the area of 3.62 cm 2 and for the mass of 0.19 g. To investigate the relationship between the two parameters, the Pearson-Correlation-Coefficient of the logarithmised data has been calculated. The resulting coefficient of 0.57 means a good correlation. Additionally, the fuel parameters of the individual fractions were measured using laboratory analysis on composite samples of the five SRF-producers. The lower heating value, the ash content and the chlorine content are either in the range or slightly lower than the data from literature. Additional work is required to improve the usability of the data obtained for the real-time analysis of waste.

KW - Abfallcharakterisierung

KW - Abfallpartikel

KW - Ersatzbrennstoff

KW - Heizwert

KW - Aschegehalt

KW - Chlorgehalt

KW - Waste characterisation

KW - Waste particles

KW - Solid Recovered Fuel

KW - Lower heating value

KW - Ash content

KW - Chlorine content

KW - Secondary recovered fuel

UR - http://www.scopus.com/inward/record.url?scp=85092469274&partnerID=8YFLogxK

U2 - https://doi.org/10.1016/j.wasman.2020.09.033

DO - https://doi.org/10.1016/j.wasman.2020.09.033

M3 - Article

VL - 119

SP - 162

EP - 171

JO - Waste management

JF - Waste management

SN - 0956-053X

IS - 119

ER -

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