Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2: Article No. 104814

Agnieszka Drobniak; Maria Mastalerz; Zbigniew Jelonek; Iwona Jelonek; Menandro Acda; Tushar Adsul; Neza Andolsek; Lorenzo Animali; Omid Ardakani; Telma Ataide; Demberelsuren Batbold; Mohd Bhat; Tara Congo; Bryon Donohoe; Olugbenga Ehinola; Deolinda Flores; Carolina Fonseca; Santanu Ghosh; Paula Goncalves; Paul Hackley; James Hower; Luvsanchultem Jargal; Michelle Johnston; Stavros Kalatzidis; Stawomir Kedzior; Wayne Knowles; Susheel Kumar; Jolanta Kus; Grzegorz Lis; Kacper Lis; Bei Liu; Bangjun Liu; Qingyong Luo; Meili Du; Alessio Mencarelli; Divya Mishra; Magdalena Misz-Kennan; Nicola Mitillo; Roksana Muzyka; Jennifer Nedzweckas; Jennifer O'Keefe; Silvia Omodeo-Sale; Luvsannyam Oyunjargal; Jackie Park; Aulia Patria; Richard Pearson; Henrik Petersen; Georgeta Predeanu; Ganzorig Ranjin; Julito Reyes; Joana Ribeiro; Genaro Rodriguez; Arka Rudra; Marcin Sajdak; Margaret Sanders; George Siavalas; Piotr Sosnowski; Atul Varma; Malgorzata Wojtaszek-Kalaitzidi; Mateusz Wolszczak; Zhanjie Xu; Alexander Zdravkov; Lei Zhao; Magdalena Zielinska; Konrad Ziemianin

doi:10.1016/j.coal.2025.104814

Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2: Article No. 104814

Agnieszka Drobniak, Maria Mastalerz, Zbigniew Jelonek, Iwona Jelonek, Menandro Acda, Tushar Adsul, Neza Andolsek, Lorenzo Animali, Omid Ardakani, Telma Ataide, Demberelsuren Batbold, Mohd Bhat, Tara Congo, Bryon Donohoe, Olugbenga Ehinola, Deolinda Flores, Carolina Fonseca, Santanu Ghosh, Paula Goncalves, Paul HackleyJames Hower, Luvsanchultem Jargal, Michelle Johnston, Stavros Kalatzidis, Stawomir Kedzior, Wayne Knowles, Susheel Kumar, Jolanta Kus, Grzegorz Lis, Kacper Lis, Bei Liu, Bangjun Liu, Qingyong Luo, Meili Du, Alessio Mencarelli, Divya Mishra, Magdalena Misz-Kennan, Nicola Mitillo, Roksana Muzyka, Jennifer Nedzweckas, Jennifer O'Keefe, Silvia Omodeo-Sale, Luvsannyam Oyunjargal, Jackie Park, Aulia Patria, Richard Pearson, Henrik Petersen, Georgeta Predeanu, Ganzorig Ranjin, Julito Reyes, Joana Ribeiro, Genaro Rodriguez, Arka Rudra, Marcin Sajdak, Margaret Sanders, George Siavalas, Piotr Sosnowski, Atul Varma, Malgorzata Wojtaszek-Kalaitzidi, Mateusz Wolszczak, Zhanjie Xu, Alexander Zdravkov, Lei Zhao, Magdalena Zielinska, Konrad Ziemianin

Biosciences Center

Research output: Contribution to journal › Article › peer-review

Abstract

As nations transition toward sustainable energy systems, biomass has become a vital component of global energy portfolios. Derived from organic materials such as wood, agricultural residues, forestry byproducts, and organic waste, biomass is a renewable energy source with significant environmental and economic benefits. Responsible biomass energy production can improve waste management, reduce emissions of greenhouse gases, and mitigate environmental pollution. However, as the diversity of biomass-derived fuels increases, robust quality assessment methods are essential to ensure their efficiency, safety, and minimal environmental impact. Reflected light microscopy (RLM) is one such technique with the potential to complement conventional physico-chemical analyses by enabling a rapid identification of material constituents and impurities. To refine this methodology and evaluate the reproducibility of solid biomass component identification using RLM, an interlaboratory study (ILS) was conducted. The study involved the recognition of 58 components across 45 photomicrographs, with the participation of 65 scientists and students from 25 countries. The participants faced high difficulty identifying some of the marked components, and as a result, the percentage of correct answers ranged from 19.0 % to 98.3 %, with an average correct identification rate of 62.7 %. The most challenging aspects of the identification process included distinguishing between woody and non-woody (agro) biomass, accurately identifying petroleum-derived materials, and differentiating agro biomass from inorganic matter. The results suggest that while RLM is an important tool for characterizing solid biomass, further development of methodology guidelines and training are necessary to enhance its effectiveness. Future research should prioritize preparing detailed, image-rich, microscopic morphological descriptions of biomass fuel components, which could improve the accuracy and reliability of using RLM in biomass fuel characterization.

Original language	American English
Number of pages	17
Journal	International Journal of Coal Geology
Volume	307
DOIs	https://doi.org/10.1016/j.coal.2025.104814
State	Published - 2025

NREL Publication Number

NREL/JA-2700-93871

Keywords

biomass fuels
biomass fuels contaminants
interlaboratory study
quality assessment
reflected light microscopy
wood pellets

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10.1016/j.coal.2025.104814

Cite this

Drobniak, A., Mastalerz, M., Jelonek, Z., Jelonek, I., Acda, M., Adsul, T., Andolsek, N., Animali, L., Ardakani, O., Ataide, T., Batbold, D., Bhat, M., Congo, T., Donohoe, B., Ehinola, O., Flores, D., Fonseca, C., Ghosh, S., Goncalves, P., ... Ziemianin, K. (2025). Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2: Article No. 104814. International Journal of Coal Geology, 307. https://doi.org/10.1016/j.coal.2025.104814

@article{f952ed7d9bf34aa288fac113391a941a,

title = "Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2: Article No. 104814",

abstract = "As nations transition toward sustainable energy systems, biomass has become a vital component of global energy portfolios. Derived from organic materials such as wood, agricultural residues, forestry byproducts, and organic waste, biomass is a renewable energy source with significant environmental and economic benefits. Responsible biomass energy production can improve waste management, reduce emissions of greenhouse gases, and mitigate environmental pollution. However, as the diversity of biomass-derived fuels increases, robust quality assessment methods are essential to ensure their efficiency, safety, and minimal environmental impact. Reflected light microscopy (RLM) is one such technique with the potential to complement conventional physico-chemical analyses by enabling a rapid identification of material constituents and impurities. To refine this methodology and evaluate the reproducibility of solid biomass component identification using RLM, an interlaboratory study (ILS) was conducted. The study involved the recognition of 58 components across 45 photomicrographs, with the participation of 65 scientists and students from 25 countries. The participants faced high difficulty identifying some of the marked components, and as a result, the percentage of correct answers ranged from 19.0 \% to 98.3 \%, with an average correct identification rate of 62.7 \%. The most challenging aspects of the identification process included distinguishing between woody and non-woody (agro) biomass, accurately identifying petroleum-derived materials, and differentiating agro biomass from inorganic matter. The results suggest that while RLM is an important tool for characterizing solid biomass, further development of methodology guidelines and training are necessary to enhance its effectiveness. Future research should prioritize preparing detailed, image-rich, microscopic morphological descriptions of biomass fuel components, which could improve the accuracy and reliability of using RLM in biomass fuel characterization.",

keywords = "biomass fuels, biomass fuels contaminants, interlaboratory study, quality assessment, reflected light microscopy, wood pellets",

author = "Agnieszka Drobniak and Maria Mastalerz and Zbigniew Jelonek and Iwona Jelonek and Menandro Acda and Tushar Adsul and Neza Andolsek and Lorenzo Animali and Omid Ardakani and Telma Ataide and Demberelsuren Batbold and Mohd Bhat and Tara Congo and Bryon Donohoe and Olugbenga Ehinola and Deolinda Flores and Carolina Fonseca and Santanu Ghosh and Paula Goncalves and Paul Hackley and James Hower and Luvsanchultem Jargal and Michelle Johnston and Stavros Kalatzidis and Stawomir Kedzior and Wayne Knowles and Susheel Kumar and Jolanta Kus and Grzegorz Lis and Kacper Lis and Bei Liu and Bangjun Liu and Qingyong Luo and Meili Du and Alessio Mencarelli and Divya Mishra and Magdalena Misz-Kennan and Nicola Mitillo and Roksana Muzyka and Jennifer Nedzweckas and Jennifer O'Keefe and Silvia Omodeo-Sale and Luvsannyam Oyunjargal and Jackie Park and Aulia Patria and Richard Pearson and Henrik Petersen and Georgeta Predeanu and Ganzorig Ranjin and Julito Reyes and Joana Ribeiro and Genaro Rodriguez and Arka Rudra and Marcin Sajdak and Margaret Sanders and George Siavalas and Piotr Sosnowski and Atul Varma and Malgorzata Wojtaszek-Kalaitzidi and Mateusz Wolszczak and Zhanjie Xu and Alexander Zdravkov and Lei Zhao and Magdalena Zielinska and Konrad Ziemianin",

year = "2025",

doi = "10.1016/j.coal.2025.104814",

language = "American English",

volume = "307",

journal = "International Journal of Coal Geology",

issn = "0166-5162",

publisher = "Elsevier B.V.",

}

Drobniak, A, Mastalerz, M, Jelonek, Z, Jelonek, I, Acda, M, Adsul, T, Andolsek, N, Animali, L, Ardakani, O, Ataide, T, Batbold, D, Bhat, M, Congo, T, Donohoe, B, Ehinola, O, Flores, D, Fonseca, C, Ghosh, S, Goncalves, P, Hackley, P, Hower, J, Jargal, L, Johnston, M, Kalatzidis, S, Kedzior, S, Knowles, W, Kumar, S, Kus, J, Lis, G, Lis, K, Liu, B, Liu, B, Luo, Q, Du, M, Mencarelli, A, Mishra, D, Misz-Kennan, M, Mitillo, N, Muzyka, R, Nedzweckas, J, O'Keefe, J, Omodeo-Sale, S, Oyunjargal, L, Park, J, Patria, A, Pearson, R, Petersen, H, Predeanu, G, Ranjin, G, Reyes, J, Ribeiro, J, Rodriguez, G, Rudra, A, Sajdak, M, Sanders, M, Siavalas, G, Sosnowski, P, Varma, A, Wojtaszek-Kalaitzidi, M, Wolszczak, M, Xu, Z, Zdravkov, A, Zhao, L, Zielinska, M & Ziemianin, K 2025, 'Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2: Article No. 104814', International Journal of Coal Geology, vol. 307. https://doi.org/10.1016/j.coal.2025.104814

TY - JOUR

T1 - Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2

T2 - Article No. 104814

AU - Drobniak, Agnieszka

AU - Mastalerz, Maria

AU - Jelonek, Zbigniew

AU - Jelonek, Iwona

AU - Acda, Menandro

AU - Adsul, Tushar

AU - Andolsek, Neza

AU - Animali, Lorenzo

AU - Ardakani, Omid

AU - Ataide, Telma

AU - Batbold, Demberelsuren

AU - Bhat, Mohd

AU - Congo, Tara

AU - Donohoe, Bryon

AU - Ehinola, Olugbenga

AU - Flores, Deolinda

AU - Fonseca, Carolina

AU - Ghosh, Santanu

AU - Goncalves, Paula

AU - Hackley, Paul

AU - Hower, James

AU - Jargal, Luvsanchultem

AU - Johnston, Michelle

AU - Kalatzidis, Stavros

AU - Kedzior, Stawomir

AU - Knowles, Wayne

AU - Kumar, Susheel

AU - Kus, Jolanta

AU - Lis, Grzegorz

AU - Lis, Kacper

AU - Liu, Bei

AU - Liu, Bangjun

AU - Luo, Qingyong

AU - Du, Meili

AU - Mencarelli, Alessio

AU - Mishra, Divya

AU - Misz-Kennan, Magdalena

AU - Mitillo, Nicola

AU - Muzyka, Roksana

AU - Nedzweckas, Jennifer

AU - O'Keefe, Jennifer

AU - Omodeo-Sale, Silvia

AU - Oyunjargal, Luvsannyam

AU - Park, Jackie

AU - Patria, Aulia

AU - Pearson, Richard

AU - Petersen, Henrik

AU - Predeanu, Georgeta

AU - Ranjin, Ganzorig

AU - Reyes, Julito

AU - Ribeiro, Joana

AU - Rodriguez, Genaro

AU - Rudra, Arka

AU - Sajdak, Marcin

AU - Sanders, Margaret

AU - Siavalas, George

AU - Sosnowski, Piotr

AU - Varma, Atul

AU - Wojtaszek-Kalaitzidi, Malgorzata

AU - Wolszczak, Mateusz

AU - Xu, Zhanjie

AU - Zdravkov, Alexander

AU - Zhao, Lei

AU - Zielinska, Magdalena

AU - Ziemianin, Konrad

PY - 2025

Y1 - 2025

N2 - As nations transition toward sustainable energy systems, biomass has become a vital component of global energy portfolios. Derived from organic materials such as wood, agricultural residues, forestry byproducts, and organic waste, biomass is a renewable energy source with significant environmental and economic benefits. Responsible biomass energy production can improve waste management, reduce emissions of greenhouse gases, and mitigate environmental pollution. However, as the diversity of biomass-derived fuels increases, robust quality assessment methods are essential to ensure their efficiency, safety, and minimal environmental impact. Reflected light microscopy (RLM) is one such technique with the potential to complement conventional physico-chemical analyses by enabling a rapid identification of material constituents and impurities. To refine this methodology and evaluate the reproducibility of solid biomass component identification using RLM, an interlaboratory study (ILS) was conducted. The study involved the recognition of 58 components across 45 photomicrographs, with the participation of 65 scientists and students from 25 countries. The participants faced high difficulty identifying some of the marked components, and as a result, the percentage of correct answers ranged from 19.0 % to 98.3 %, with an average correct identification rate of 62.7 %. The most challenging aspects of the identification process included distinguishing between woody and non-woody (agro) biomass, accurately identifying petroleum-derived materials, and differentiating agro biomass from inorganic matter. The results suggest that while RLM is an important tool for characterizing solid biomass, further development of methodology guidelines and training are necessary to enhance its effectiveness. Future research should prioritize preparing detailed, image-rich, microscopic morphological descriptions of biomass fuel components, which could improve the accuracy and reliability of using RLM in biomass fuel characterization.

AB - As nations transition toward sustainable energy systems, biomass has become a vital component of global energy portfolios. Derived from organic materials such as wood, agricultural residues, forestry byproducts, and organic waste, biomass is a renewable energy source with significant environmental and economic benefits. Responsible biomass energy production can improve waste management, reduce emissions of greenhouse gases, and mitigate environmental pollution. However, as the diversity of biomass-derived fuels increases, robust quality assessment methods are essential to ensure their efficiency, safety, and minimal environmental impact. Reflected light microscopy (RLM) is one such technique with the potential to complement conventional physico-chemical analyses by enabling a rapid identification of material constituents and impurities. To refine this methodology and evaluate the reproducibility of solid biomass component identification using RLM, an interlaboratory study (ILS) was conducted. The study involved the recognition of 58 components across 45 photomicrographs, with the participation of 65 scientists and students from 25 countries. The participants faced high difficulty identifying some of the marked components, and as a result, the percentage of correct answers ranged from 19.0 % to 98.3 %, with an average correct identification rate of 62.7 %. The most challenging aspects of the identification process included distinguishing between woody and non-woody (agro) biomass, accurately identifying petroleum-derived materials, and differentiating agro biomass from inorganic matter. The results suggest that while RLM is an important tool for characterizing solid biomass, further development of methodology guidelines and training are necessary to enhance its effectiveness. Future research should prioritize preparing detailed, image-rich, microscopic morphological descriptions of biomass fuel components, which could improve the accuracy and reliability of using RLM in biomass fuel characterization.

KW - biomass fuels

KW - biomass fuels contaminants

KW - interlaboratory study

KW - quality assessment

KW - reflected light microscopy

KW - wood pellets

U2 - 10.1016/j.coal.2025.104814

DO - 10.1016/j.coal.2025.104814

M3 - Article

SN - 0166-5162

VL - 307

JO - International Journal of Coal Geology

JF - International Journal of Coal Geology

ER -

Component Identification of Solid Biomass Fuels Using Reflected Light Microscopy: Interlaboratory Study 2: Article No. 104814

Abstract

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Keywords

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