加圧条件をパラメータにしたバイオコークスの圧縮強度特性

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Published in	スマートプロセス学会誌 Vol. 14; no. 3; pp. 113 - 122
Main Authors	水野, 諭, 井田, 民男
Format	Journal Article
Language	Japanese
Published	一般社団法人スマートプロセス学会（旧高温学会） 10.05.2025
Online Access	Get full text
ISSN	2186-702X 2187-1337
DOI	10.7791/jspmee.14.113

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Author	水野, 諭井田, 民男
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References	8） AI. Osman, ZY. Lai, M. Farghali, CL. Yiin, AM. Elgarahy, A.Hammad, I. Ihara, AS. Al-Fatesh, DW. Rooney and PS. Yap:“Optimizing biomass pathways to bioenergy and biochar applicationin electricity generation, biodiesel production, and biohydrogenproduction”, Environmental Chemistry Letters, 21 （2023）, 2639-2705. 11） DCC. Ceballos, K. Hawboldt and R. Hellleur: “Effect of productionconditions on self-heating propensity of torrefied sawmill residues”,Fuel, 160 （2015）, 227-237. 15） NSK. Baharin, N. Tagami-Kanada, S. Cherdkeattikul, H. Hara and T.Ida: “Effects of repetitive production on the mechanical characteristicand chemical structure of green tea bio-coke”, Renewable Energy,222 （2024）, https://doi.org/10.1016/j.renene.2023.119926 12） T. Wongthonglueang, P. Rousset, JM. Commandre, L. Van De Steeneand J. Valette: “Spontaneous combustion of wheat straw residue atdifferent cooling temperatures: Combined effect of water sorptionand air oxidation”, Thermochimica Acta, 712 （2022）.https://doi.org/10.1016/j.tca.2022.179216 25） M. Ashizawa, M. Otaka, T. Shoji, A. Yamaguchi and H. Yamamoto:“Study on self-heating behavior of carbonized woody biomassduring storage”, J. Japan Solar Energy Society, 48-1 （2022）, 69-78.（in Japanese 4） United Nations: “Transforming our world: the 2030 Agenda forSustainable Development”, （2015）.https://sdgs.un.org/2030agenda 14） S. Cherdleattikul, Y. Morisawa, N. Tagami-Kanada and T. Ida: “FTIRand chemometric study of densified solid biofuel produced undersubcritical water conditions and its compressive strength affected bylignocellulose substances”, Fuel, 342 （2023）.https://doi.org/10.1016/j.fuel.2023.127835 18） Y. Furuta: “Rheological behavior and thermal properties of wood”,Materials science and technology, 42-3 （2005）, 15-20. 22） K. Kulasinski, R. Guyer, D. Derome and J. Carmeliet: “Poroelasticmodel for adsorption-induced deformation of biopolymers obtainedfrom molecular simulations”, Physical review e, 92-2 （2015）.https://doi.org/10.1103/PhysRevE.92.022605 1） T. Toichi, S. Sudo, T. Nogami, N. Akiyama, T. Abiru, R. Takeishi,N. Hatasa and K. Yanagida: “Japan’s resource diplomacy and energycooperation”, The Japan Institute of International Affairs, （2016）,61-104. （in Japanese 16） S. Mizuno, T. Ida, M. Fuchihata, K. Namba, A. Kakosaka and O.Fujita: “Formation characteristics of high-density and high-hardness new briquette based on herby biomass”, J. Japan Institute of Energy,91-1 （2012）, 41-47. （in Japanese 6） Cabinet Office: “Cross-ministerial Strategic Innovation PromotionProgram Energy Carrier Research and development Plan”, （2018）.（in Japanese）https://www8.cao.go.jp/cstp/gaiyo/sip/keikaku/4_enekyari.pdf 23） T. Ida, R. Takagi, S. Mizuno, E. Sanchez Jr. and K. Namba: “A studyon the physical properties as affected by formation conditions of highdensity bio-solid fuel made from green tea”, J. Smart Processing, 2-2（2013）, 83-87. （in Japanese 24） T. Ida: “Next-generation solid bioenergy; combustion behavior ofbio-coke in melting furnaces and movements in developing newsolid bio-fuel for carbon neutral society formation”, J. CombustionSociety of Japan, 64-209 （2022）, 237-244. （in Japanese 2） Y. Matsuo, R. Komiyama, Y. Nagatomi, S. Suehiro, Y. Shibata,N. Doi, M. Ahoshima, Z. Lu, M. Soufukuwaki, T. Hachiuma, M.Kako, K. Sugii, Y. Morita and K. Ito: “Energy Supply and DemandAnalysis for Asia and the World up to 2035”, 27th Conference onEnergy, Economy, and Environment, （2011）. （ in Japanese 17） N. Takamura: “Studies on hot pressing and drying process in theproduction of fibreboard. III. Softening of fibre components in hotpressing of fibre mat”, J. Wood Science, 14-2 （1968）, 75-79. 3） International Energy Agency, International Renewable EnergyAgency, United Nations Department of Economic and Social Affairs,World Bank, World Health Organization: “Tracking SDG7: TheEnergy Progress Report 2021”, （2021）. 10） S. Hayashi, Y. Hiraiwa, N. Ooi and S. Murata: “Development oftorrefied pellet: From the study of laboratory scale to the operationof commercial plant”, J. Japan Institute of Energy, 101 （2022）, 27-37. （in Japanese 9） A. Anand, S. Pathak, V. Kumar and P. Kaushal: “Biochar productionfrom crop residues, its characterization and utilization for electricitygeneration in India”, J. Cleaner Production, 368 （2022）.https://doi.org/10.1016/j.jclepro.2022.133074 21） A. Mihranyan, AP. Llagostera, R. Karmhag, M. Stromme and R. Ek:“Moisture sorption by cellulose powders of varying crystallinity”,Int’l J. Pharmaceutics, 269-2 （2004）, 433-442. 19） WP. Abasolo, M. Yoshida, H. Yamamo and T. Okuyama: “Influenceof structure and chemical composition on thermal softening ofPalasan canes（ Calamus merrillii）”, 26-3 （2005）, 363-374. 20） MY. Chen, B. Coasne, R. Guyer, D. Derome and J. Carmeliet: “Roleof hydrogen bonding in hysteresis observed in sorption-inducedswelling of soft nanoporous polymers”, Nature Communications, 9（2018）. https://doi.org/10.1038/s41467-018-05897-9 5） Agency for Natural Resources and Energy: “6th Strategic EnergyPlan”, （2021）. （in Japanese 7） Ministry of Agriculture, Forestry and Fisheries of Japan: “Outlineof the New Basic Plan for the Promotion of Biomass Utilization”,（2022）.https://www.maff.go.jp/j/shokusan/biomass/attach/pdf/index-23.pdf 13） K . Ohashi , K . Sasauchi , S. Mizuno, T. Ida and M .Fuchihata:”Thermal Properties of Biocoke for Safety Storage”, J.Smart Processing, 5-3 （2016）, 198-206. （in Japanese
References_xml	– reference: 13） K . Ohashi , K . Sasauchi , S. Mizuno, T. Ida and M .Fuchihata:”Thermal Properties of Biocoke for Safety Storage”, J.Smart Processing, 5-3 （2016）, 198-206. （in Japanese） – reference: 17） N. Takamura: “Studies on hot pressing and drying process in theproduction of fibreboard. III. Softening of fibre components in hotpressing of fibre mat”, J. Wood Science, 14-2 （1968）, 75-79. – reference: 18） Y. Furuta: “Rheological behavior and thermal properties of wood”,Materials science and technology, 42-3 （2005）, 15-20. – reference: 22） K. Kulasinski, R. Guyer, D. Derome and J. Carmeliet: “Poroelasticmodel for adsorption-induced deformation of biopolymers obtainedfrom molecular simulations”, Physical review e, 92-2 （2015）.https://doi.org/10.1103/PhysRevE.92.022605 – reference: 4） United Nations: “Transforming our world: the 2030 Agenda forSustainable Development”, （2015）.https://sdgs.un.org/2030agenda – reference: 19） WP. Abasolo, M. Yoshida, H. Yamamo and T. Okuyama: “Influenceof structure and chemical composition on thermal softening ofPalasan canes（ Calamus merrillii）”, 26-3 （2005）, 363-374. – reference: 10） S. Hayashi, Y. Hiraiwa, N. Ooi and S. Murata: “Development oftorrefied pellet: From the study of laboratory scale to the operationof commercial plant”, J. Japan Institute of Energy, 101 （2022）, 27-37. （in Japanese） – reference: 21） A. Mihranyan, AP. Llagostera, R. Karmhag, M. Stromme and R. Ek:“Moisture sorption by cellulose powders of varying crystallinity”,Int’l J. Pharmaceutics, 269-2 （2004）, 433-442. – reference: 11） DCC. Ceballos, K. Hawboldt and R. Hellleur: “Effect of productionconditions on self-heating propensity of torrefied sawmill residues”,Fuel, 160 （2015）, 227-237. – reference: 5） Agency for Natural Resources and Energy: “6th Strategic EnergyPlan”, （2021）. （in Japanese） – reference: 7） Ministry of Agriculture, Forestry and Fisheries of Japan: “Outlineof the New Basic Plan for the Promotion of Biomass Utilization”,（2022）.https://www.maff.go.jp/j/shokusan/biomass/attach/pdf/index-23.pdf – reference: 3） International Energy Agency, International Renewable EnergyAgency, United Nations Department of Economic and Social Affairs,World Bank, World Health Organization: “Tracking SDG7: TheEnergy Progress Report 2021”, （2021）. – reference: 16） S. Mizuno, T. Ida, M. Fuchihata, K. Namba, A. Kakosaka and O.Fujita: “Formation characteristics of high-density and high-hardness new briquette based on herby biomass”, J. Japan Institute of Energy,91-1 （2012）, 41-47. （in Japanese） – reference: 6） Cabinet Office: “Cross-ministerial Strategic Innovation PromotionProgram Energy Carrier Research and development Plan”, （2018）.（in Japanese）https://www8.cao.go.jp/cstp/gaiyo/sip/keikaku/4_enekyari.pdf – reference: 25） M. Ashizawa, M. Otaka, T. Shoji, A. Yamaguchi and H. Yamamoto:“Study on self-heating behavior of carbonized woody biomassduring storage”, J. Japan Solar Energy Society, 48-1 （2022）, 69-78.（in Japanese） – reference: 1） T. Toichi, S. Sudo, T. Nogami, N. Akiyama, T. Abiru, R. Takeishi,N. Hatasa and K. Yanagida: “Japan’s resource diplomacy and energycooperation”, The Japan Institute of International Affairs, （2016）,61-104. （in Japanese） – reference: 20） MY. Chen, B. Coasne, R. Guyer, D. Derome and J. Carmeliet: “Roleof hydrogen bonding in hysteresis observed in sorption-inducedswelling of soft nanoporous polymers”, Nature Communications, 9（2018）. https://doi.org/10.1038/s41467-018-05897-9 – reference: 9） A. Anand, S. Pathak, V. Kumar and P. Kaushal: “Biochar productionfrom crop residues, its characterization and utilization for electricitygeneration in India”, J. Cleaner Production, 368 （2022）.https://doi.org/10.1016/j.jclepro.2022.133074 – reference: 12） T. Wongthonglueang, P. Rousset, JM. Commandre, L. Van De Steeneand J. Valette: “Spontaneous combustion of wheat straw residue atdifferent cooling temperatures: Combined effect of water sorptionand air oxidation”, Thermochimica Acta, 712 （2022）.https://doi.org/10.1016/j.tca.2022.179216 – reference: 2） Y. Matsuo, R. Komiyama, Y. Nagatomi, S. Suehiro, Y. Shibata,N. Doi, M. Ahoshima, Z. Lu, M. Soufukuwaki, T. Hachiuma, M.Kako, K. Sugii, Y. Morita and K. Ito: “Energy Supply and DemandAnalysis for Asia and the World up to 2035”, 27th Conference onEnergy, Economy, and Environment, （2011）. （ in Japanese） – reference: 8） AI. Osman, ZY. Lai, M. Farghali, CL. Yiin, AM. Elgarahy, A.Hammad, I. Ihara, AS. Al-Fatesh, DW. Rooney and PS. Yap:“Optimizing biomass pathways to bioenergy and biochar applicationin electricity generation, biodiesel production, and biohydrogenproduction”, Environmental Chemistry Letters, 21 （2023）, 2639-2705. – reference: 23） T. Ida, R. Takagi, S. Mizuno, E. Sanchez Jr. and K. Namba: “A studyon the physical properties as affected by formation conditions of highdensity bio-solid fuel made from green tea”, J. Smart Processing, 2-2（2013）, 83-87. （in Japanese） – reference: 14） S. Cherdleattikul, Y. Morisawa, N. Tagami-Kanada and T. Ida: “FTIRand chemometric study of densified solid biofuel produced undersubcritical water conditions and its compressive strength affected bylignocellulose substances”, Fuel, 342 （2023）.https://doi.org/10.1016/j.fuel.2023.127835 – reference: 24） T. Ida: “Next-generation solid bioenergy; combustion behavior ofbio-coke in melting furnaces and movements in developing newsolid bio-fuel for carbon neutral society formation”, J. CombustionSociety of Japan, 64-209 （2022）, 237-244. （in Japanese） – reference: 15） NSK. Baharin, N. Tagami-Kanada, S. Cherdkeattikul, H. Hara and T.Ida: “Effects of repetitive production on the mechanical characteristicand chemical structure of green tea bio-coke”, Renewable Energy,222 （2024）, https://doi.org/10.1016/j.renene.2023.119926
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Title	加圧条件をパラメータにしたバイオコークスの圧縮強度特性
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