Interlaboratory study: Testing reproducibility of solid biofuels component identification using reflected light microscopy

Agnieszka Drobniak; Maria Mastalerz; Zbigniew Jelonek; Iwona Jelonek; Tushar Adsul; Neža Malenšek Andolšek; Omid Haeri Ardakani; Tara Congo; Batbold Demberelsuren; Bryon S. Donohoe; Ashley Douds; Deolinda Flores; Ranjin Ganzorig; Santanu Ghosh; Andrew Gize; Paula Alexandra Goncalves; Paul Hackley; Javin Hatcherian; James C. Hower; Stavros Kalaitzidis; Sławomir Kędzior; Wayne Knowles; Jolanta Kus; Kacper Lis; Grzegorz Lis; Bei Liu; Qingyong Luo; Meili Du; Divya Mishra; Magdalena Misz-Kennan; Theophile Mugerwa; Jennifer L. Nedzweckas; Jennifer M.K. O'Keefe; Jackie Park; Richard Pearson; Henrik I. Petersen; Julito Reyes; Joana Ribeiro; Genaro de la Rosa-Rodriguez; Piotr Sosnowski; Brett Valentine; Atul Kumar Varma; Małgorzata Wojtaszek-Kalaitzidi; Zhanjie Xu; Alexander Zdravkov; Konrad Ziemianin

doi:10.1016/j.coal.2023.104331

Interlaboratory study: Testing reproducibility of solid biofuels component identification using reflected light microscopy

Agnieszka Drobniak
, Maria Mastalerz
, Zbigniew Jelonek
, Iwona Jelonek
, Tushar Adsul
, Neža Malenšek Andolšek
, Omid Haeri Ardakani
, Tara Congo
, Batbold Demberelsuren
, Bryon S. Donohoe
, Ashley Douds
, Deolinda Flores
, Ranjin Ganzorig
, Santanu Ghosh
, Andrew Gize
, Paula Alexandra Goncalves
, Paul Hackley
, Javin Hatcherian
, James C. Hower
, Stavros Kalaitzidis

Sławomir Kędzior, Wayne Knowles, Jolanta Kus, Kacper Lis, Grzegorz Lis, Bei Liu, Qingyong Luo, Meili Du, Divya Mishra, Magdalena Misz-Kennan, Theophile Mugerwa, Jennifer L. Nedzweckas, Jennifer M.K. O'Keefe, Jackie Park, Richard Pearson, Henrik I. Petersen, Julito Reyes, Joana Ribeiro, Genaro de la Rosa-Rodriguez, Piotr Sosnowski, Brett Valentine, Atul Kumar Varma, Małgorzata Wojtaszek-Kalaitzidi, Zhanjie Xu, Alexander Zdravkov, Konrad Ziemianin

Producción científica: Article › revisión exhaustiva

9 Citas (Scopus)

Resumen

Considering global market trends and concerns about climate change and sustainability, increased biomass use for energy is expected to continue. As more diverse materials are being utilized to manufacture solid biomass fuels, it is critical to implement quality assessment methods to analyze these fuels thoroughly. One such method is reflected light microscopy (RLM), which has the potential to complement and enhance current standard testing, leading to improving fuel quality assessment and, ultimately, preventing avoidable air pollution. An interlaboratory study (ILS) was conducted to test the reproducibility of biomass fuels component identification using a reflected light microscopy technique. The exercise was conducted on thirty photomicrographs showing biomass and various undesired components (like plastics or mineral matter), which were purposely added (by the ILS organizers) to contaminate wood pellets and charcoal-based grilling fuels. Forty-six participants had various levels of difficulty identifying the marked components, and as a result, the percentage of correct answers ranged from 52.2 to 94.4%. Among the most difficult components to distinguish were petroleum products and inorganic matter. Various reasons led to the misidentification, including insufficient morphological descriptions of the components provided to participants, ambiguities of the nomenclature, limitations of the analytical and exercise method, and insufficient experience of the participants. Overall, the results indicate that RLM has the potential to enhance the quality assessment of biomass fuels. However, they also demonstrate that the petrographic classification used in this exercise requires further refinement before it can be standardized. While a new simplified classification of solid biomass fuels components was created as an outcome of this study, future research is necessary to refine the nomenclature, develop a microscopic morphological description of the components, and verify the accuracy of component identification with a follow-up ILS.

Idioma original	English
Número de artículo	104331
Publicación	International Journal of Coal Geology
Volumen	277
DOI	https://doi.org/10.1016/j.coal.2023.104331
Estado	Published - sept 1 2023

Nota bibliográfica

Publisher Copyright:
© 2023 Elsevier B.V.

Financiación

The project is co-financed by the Polish National Agency for Academic Exchange within Polish Returns Programme (BPN/PPO/2021/1/00005/DEC/1), the National Science Center, Poland (2022/01/1/ST10/00024), and the research activities co-financed by the funds granted under the Research Excellence Initiative of the University of Silesia in Katowice, Poland. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.

Financiadores	Número del financiador
U.S. Government
Narodowym Centrum Nauki	2022/01/1/ST10/00024
Narodowym Centrum Nauki
Narodowa Agencja Wymiany Akademickiej	BPN/PPO/2021/1/00005/DEC/1
Narodowa Agencja Wymiany Akademickiej
Uniwersytet Śląski w Katowicach

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

Climate action

ASJC Scopus subject areas

Fuel Technology
Geology
Economic Geology
Stratigraphy

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10.1016/j.coal.2023.104331

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Drobniak, A., Mastalerz, M., Jelonek, Z., Jelonek, I., Adsul, T., Andolšek, N. M., Ardakani, O. H., Congo, T., Demberelsuren, B., Donohoe, B. S., Douds, A., Flores, D., Ganzorig, R., Ghosh, S., Gize, A., Goncalves, P. A., Hackley, P., Hatcherian, J., Hower, J. C., ... Ziemianin, K. (2023). Interlaboratory study: Testing reproducibility of solid biofuels component identification using reflected light microscopy. International Journal of Coal Geology, 277, Artículo 104331. https://doi.org/10.1016/j.coal.2023.104331

@article{1416f0ead8434fa488ea3ce6c8a211ef,

title = "Interlaboratory study: Testing reproducibility of solid biofuels component identification using reflected light microscopy",

abstract = "Considering global market trends and concerns about climate change and sustainability, increased biomass use for energy is expected to continue. As more diverse materials are being utilized to manufacture solid biomass fuels, it is critical to implement quality assessment methods to analyze these fuels thoroughly. One such method is reflected light microscopy (RLM), which has the potential to complement and enhance current standard testing, leading to improving fuel quality assessment and, ultimately, preventing avoidable air pollution. An interlaboratory study (ILS) was conducted to test the reproducibility of biomass fuels component identification using a reflected light microscopy technique. The exercise was conducted on thirty photomicrographs showing biomass and various undesired components (like plastics or mineral matter), which were purposely added (by the ILS organizers) to contaminate wood pellets and charcoal-based grilling fuels. Forty-six participants had various levels of difficulty identifying the marked components, and as a result, the percentage of correct answers ranged from 52.2 to 94.4\%. Among the most difficult components to distinguish were petroleum products and inorganic matter. Various reasons led to the misidentification, including insufficient morphological descriptions of the components provided to participants, ambiguities of the nomenclature, limitations of the analytical and exercise method, and insufficient experience of the participants. Overall, the results indicate that RLM has the potential to enhance the quality assessment of biomass fuels. However, they also demonstrate that the petrographic classification used in this exercise requires further refinement before it can be standardized. While a new simplified classification of solid biomass fuels components was created as an outcome of this study, future research is necessary to refine the nomenclature, develop a microscopic morphological description of the components, and verify the accuracy of component identification with a follow-up ILS.",

keywords = "Biomass, Biomass fuels, Biomass fuels contaminants, Charcoal, Interlaboratory study, Quality assessment, Reflected light microscopy, Wood pellets",

author = "Agnieszka Drobniak and Maria Mastalerz and Zbigniew Jelonek and Iwona Jelonek and Tushar Adsul and Andol{\v s}ek, \{Ne{\v z}a Malen{\v s}ek\} and Ardakani, \{Omid Haeri\} and Tara Congo and Batbold Demberelsuren and Donohoe, \{Bryon S.\} and Ashley Douds and Deolinda Flores and Ranjin Ganzorig and Santanu Ghosh and Andrew Gize and Goncalves, \{Paula Alexandra\} and Paul Hackley and Javin Hatcherian and Hower, \{James C.\} and Stavros Kalaitzidis and S{\l}awomir K{\c e}dzior and Wayne Knowles and Jolanta Kus and Kacper Lis and Grzegorz Lis and Bei Liu and Qingyong Luo and Meili Du and Divya Mishra and Magdalena Misz-Kennan and Theophile Mugerwa and Nedzweckas, \{Jennifer L.\} and O'Keefe, \{Jennifer M.K.\} and Jackie Park and Richard Pearson and Petersen, \{Henrik I.\} and Julito Reyes and Joana Ribeiro and \{de la Rosa-Rodriguez\}, Genaro and Piotr Sosnowski and Brett Valentine and Varma, \{Atul Kumar\} and Ma{\l}gorzata Wojtaszek-Kalaitzidi and Zhanjie Xu and Alexander Zdravkov and Konrad Ziemianin",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier B.V.",

year = "2023",

month = sep,

day = "1",

doi = "10.1016/j.coal.2023.104331",

language = "English",

volume = "277",

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Drobniak, A, Mastalerz, M, Jelonek, Z, Jelonek, I, Adsul, T, Andolšek, NM, Ardakani, OH, Congo, T, Demberelsuren, B, Donohoe, BS, Douds, A, Flores, D, Ganzorig, R, Ghosh, S, Gize, A, Goncalves, PA, Hackley, P, Hatcherian, J, Hower, JC, Kalaitzidis, S, Kędzior, S, Knowles, W, Kus, J, Lis, K, Lis, G, Liu, B, Luo, Q, Du, M, Mishra, D, Misz-Kennan, M, Mugerwa, T, Nedzweckas, JL, O'Keefe, JMK, Park, J, Pearson, R, Petersen, HI, Reyes, J, Ribeiro, J, de la Rosa-Rodriguez, G, Sosnowski, P, Valentine, B, Varma, AK, Wojtaszek-Kalaitzidi, M, Xu, Z, Zdravkov, A & Ziemianin, K 2023, 'Interlaboratory study: Testing reproducibility of solid biofuels component identification using reflected light microscopy', International Journal of Coal Geology, vol. 277, 104331. https://doi.org/10.1016/j.coal.2023.104331

TY - JOUR

T1 - Interlaboratory study

T2 - Testing reproducibility of solid biofuels component identification using reflected light microscopy

AU - Drobniak, Agnieszka

AU - Mastalerz, Maria

AU - Jelonek, Zbigniew

AU - Jelonek, Iwona

AU - Adsul, Tushar

AU - Andolšek, Neža Malenšek

AU - Ardakani, Omid Haeri

AU - Congo, Tara

AU - Demberelsuren, Batbold

AU - Donohoe, Bryon S.

AU - Douds, Ashley

AU - Flores, Deolinda

AU - Ganzorig, Ranjin

AU - Ghosh, Santanu

AU - Gize, Andrew

AU - Goncalves, Paula Alexandra

AU - Hackley, Paul

AU - Hatcherian, Javin

AU - Hower, James C.

AU - Kalaitzidis, Stavros

AU - Kędzior, Sławomir

AU - Knowles, Wayne

AU - Kus, Jolanta

AU - Lis, Kacper

AU - Lis, Grzegorz

AU - Liu, Bei

AU - Luo, Qingyong

AU - Du, Meili

AU - Mishra, Divya

AU - Misz-Kennan, Magdalena

AU - Mugerwa, Theophile

AU - Nedzweckas, Jennifer L.

AU - O'Keefe, Jennifer M.K.

AU - Park, Jackie

AU - Pearson, Richard

AU - Petersen, Henrik I.

AU - Reyes, Julito

AU - Ribeiro, Joana

AU - de la Rosa-Rodriguez, Genaro

AU - Sosnowski, Piotr

AU - Valentine, Brett

AU - Varma, Atul Kumar

AU - Wojtaszek-Kalaitzidi, Małgorzata

AU - Xu, Zhanjie

AU - Zdravkov, Alexander

AU - Ziemianin, Konrad

PY - 2023/9/1

Y1 - 2023/9/1

N2 - Considering global market trends and concerns about climate change and sustainability, increased biomass use for energy is expected to continue. As more diverse materials are being utilized to manufacture solid biomass fuels, it is critical to implement quality assessment methods to analyze these fuels thoroughly. One such method is reflected light microscopy (RLM), which has the potential to complement and enhance current standard testing, leading to improving fuel quality assessment and, ultimately, preventing avoidable air pollution. An interlaboratory study (ILS) was conducted to test the reproducibility of biomass fuels component identification using a reflected light microscopy technique. The exercise was conducted on thirty photomicrographs showing biomass and various undesired components (like plastics or mineral matter), which were purposely added (by the ILS organizers) to contaminate wood pellets and charcoal-based grilling fuels. Forty-six participants had various levels of difficulty identifying the marked components, and as a result, the percentage of correct answers ranged from 52.2 to 94.4%. Among the most difficult components to distinguish were petroleum products and inorganic matter. Various reasons led to the misidentification, including insufficient morphological descriptions of the components provided to participants, ambiguities of the nomenclature, limitations of the analytical and exercise method, and insufficient experience of the participants. Overall, the results indicate that RLM has the potential to enhance the quality assessment of biomass fuels. However, they also demonstrate that the petrographic classification used in this exercise requires further refinement before it can be standardized. While a new simplified classification of solid biomass fuels components was created as an outcome of this study, future research is necessary to refine the nomenclature, develop a microscopic morphological description of the components, and verify the accuracy of component identification with a follow-up ILS.

AB - Considering global market trends and concerns about climate change and sustainability, increased biomass use for energy is expected to continue. As more diverse materials are being utilized to manufacture solid biomass fuels, it is critical to implement quality assessment methods to analyze these fuels thoroughly. One such method is reflected light microscopy (RLM), which has the potential to complement and enhance current standard testing, leading to improving fuel quality assessment and, ultimately, preventing avoidable air pollution. An interlaboratory study (ILS) was conducted to test the reproducibility of biomass fuels component identification using a reflected light microscopy technique. The exercise was conducted on thirty photomicrographs showing biomass and various undesired components (like plastics or mineral matter), which were purposely added (by the ILS organizers) to contaminate wood pellets and charcoal-based grilling fuels. Forty-six participants had various levels of difficulty identifying the marked components, and as a result, the percentage of correct answers ranged from 52.2 to 94.4%. Among the most difficult components to distinguish were petroleum products and inorganic matter. Various reasons led to the misidentification, including insufficient morphological descriptions of the components provided to participants, ambiguities of the nomenclature, limitations of the analytical and exercise method, and insufficient experience of the participants. Overall, the results indicate that RLM has the potential to enhance the quality assessment of biomass fuels. However, they also demonstrate that the petrographic classification used in this exercise requires further refinement before it can be standardized. While a new simplified classification of solid biomass fuels components was created as an outcome of this study, future research is necessary to refine the nomenclature, develop a microscopic morphological description of the components, and verify the accuracy of component identification with a follow-up ILS.

KW - Biomass

KW - Biomass fuels

KW - Biomass fuels contaminants

KW - Charcoal

KW - Interlaboratory study

KW - Quality assessment

KW - Reflected light microscopy

KW - Wood pellets

UR - https://www.scopus.com/pages/publications/85168546328

UR - https://www.scopus.com/pages/publications/85168546328#tab=citedBy

U2 - 10.1016/j.coal.2023.104331

DO - 10.1016/j.coal.2023.104331

M3 - Article

AN - SCOPUS:85168546328

SN - 0166-5162

VL - 277

JO - International Journal of Coal Geology

JF - International Journal of Coal Geology

M1 - 104331

ER -

Interlaboratory study: Testing reproducibility of solid biofuels component identification using reflected light microscopy

Resumen

Nota bibliográfica

Financiación

ODS de las Naciones Unidas

ASJC Scopus subject areas

Acceder al documento

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