Torrefaction of Flax Shives as a Process of Preparation Waste Vegetable Biomass for Energy Purposes

ABOGUNDE ABDULYEKEEN K., ABULFATHI UMAR A., FAZLY ABDUL PATAH M., WAN MOHD ASHRI WAN D. 2021. Torrefaction of biomass: Production of enhanced solid biofuel from municipal solid waste and other types of biomass. Renewable and Sustainable Energy Reviews 150: 111436 ABOGUNDE ABDULYEKEENK. ABULFATHI UMARA. FAZLY ABDUL PATAHM. WAN MOHD ASHRI WAND. 2021 Torrefaction of biomass: Production of enhanced solid biofuel from municipal solid waste and other types of biomass Renewable and Sustainable Energy Reviews 150 111436 Search in Google Scholar

ACHARYA B., DUTTA A., MINARET J. 2015. Review on comparative study of dry and wet torrefaction. Sustainable Energy Technologies and Assessments 12: 26–37. ACHARYAB. DUTTAA. MINARETJ. 2015 Review on comparative study of dry and wet torrefaction Sustainable Energy Technologies and Assessments 12 26 37 Search in Google Scholar

AKBARI M., OLAJIRE A., KUMAR A. 2020. Techno-economic assessment of wet and dry torrefaction of biomass feedstock. Energy 207: 118287. AKBARIM. OLAJIREA. KUMARA. 2020 Techno-economic assessment of wet and dry torrefaction of biomass feedstock Energy 207 118287 Search in Google Scholar

CHENA D., GAOA A., PRICE K., ZHANGA J., CAOA X., MA Z. 2018. Investigation of biomass torrefaction based on three major components: Hemicellulose, cellulose, and lignins. Energy Conversion and Management 169, 1: 228–237. CHENAD. GAOAA. PRICEK. ZHANGAJ. CAOAX. MAZ. 2018 Investigation of biomass torrefaction based on three major components: Hemicellulose, cellulose, and lignins Energy Conversion and Management 169 1 228 237 Search in Google Scholar

EMSLEY A.M. 1994. The kinetics and mechanisms of degradation of cellulosic insulation in power transformers. Polymer Degradation and Stability 11: 343–349. EMSLEYA.M. 1994 The kinetics and mechanisms of degradation of cellulosic insulation in power transformers Polymer Degradation and Stability 11 343 349 Search in Google Scholar

IVANOVSKI M., GORICANEC D., KROPE J., URBANCL D. 2022. Torrefaction pretreatment of lignocellulosic biomass for sustainable solid biofuel production. Energy 240: 122483 IVANOVSKIM. GORICANECD. KROPEJ. URBANCLD. 2022 Torrefaction pretreatment of lignocellulosic biomass for sustainable solid biofuel production Energy 240 122483 Search in Google Scholar

LIU X., YUAN L., YANG X. 2021. Evolution of chemical functional groups during torrefaction of rice straw. Bioresource Technology 320: 124328 LIUX. YUANL. YANGX. 2021 Evolution of chemical functional groups during torrefaction of rice straw Bioresource Technology 320 124328 Search in Google Scholar

MOLENDA J., SWAT M., OSUCH-SŁOMKA E. 2018. Effect of thermal conditions of pyrolysis process on the quality of biochar obtained from vegetable waste. Engineering and Protection of Environment 3: 289–302. MOLENDAJ. SWATM. OSUCH-SŁOMKAE. 2018 Effect of thermal conditions of pyrolysis process on the quality of biochar obtained from vegetable waste Engineering and Protection of Environment 3 289 302 Search in Google Scholar

RYBAK W. 2006. Combustion and co-combustion of solid biofuels. Publishing House of the Wrocław University of Science and Technology, Wrocław (in Polish). RYBAKW. 2006 Combustion and co-combustion of solid biofuels Publishing House of the Wrocław University of Science and Technology Wrocław (in Polish) Search in Google Scholar

Statistical elaboration of the Central Statistical Office - collective work: “Energy consumption in households in 2018”. 2019. Statistical Publishing House, Warsaw (in Polish). Statistical elaboration of the Central Statistical Office - collective work: “Energy consumption in households in 2018” 2019 Statistical Publishing House Warsaw (in Polish) Search in Google Scholar

THENGANE S., KUNG K., GOMEZ-BAREA A., GHONIEM A. 2022. Advances in biomass torrefaction: Parameters, models, reactors, applications, deployment, and market. Progress in Energy and Combustion Science 93: 101040. THENGANES. KUNGK. GOMEZ-BAREAA. GHONIEMA. 2022 Advances in biomass torrefaction: Parameters, models, reactors, applications, deployment, and market Progress in Energy and Combustion Science 93 101040 Search in Google Scholar

WANG W., SHI Y., CUI Y., LI X. 2018. Catalytic fast pyrolysis of cellulose for increasing contents of furans and aromatics in biofuel production. Journal of Analytical and Applied Pyrolysis 131: 93–100. WANGW. SHIY. CUIY. LIX. 2018 Catalytic fast pyrolysis of cellulose for increasing contents of furans and aromatics in biofuel production Journal of Analytical and Applied Pyrolysis 131 93 100 Search in Google Scholar

WEI-HSIN C., BO-JHIH L., YU-YING L., YEN-SHIH C., ARISTOTLE U.T., PAU LOKE S., HWAI CHYUAN O., JO-SHU C., SHIHHSIN H., CULABA A.B., PÉTRISSANS A., PÉTRISSANS M. 2021. Progress in biomass torrefaction: Principles, applications and challenges. Progress in Energy and Combustion Science 82: 100887. WEI-HSINC. BO-JHIHL. YU-YINGL. YEN-SHIHC. ARISTOTLEU.T. PAU LOKES. HWAI CHYUANO. JO-SHUC. SHIHHSINH. CULABAA.B. PÉTRISSANSA. PÉTRISSANSM. 2021 Progress in biomass torrefaction: Principles, applications and challenges Progress in Energy and Combustion Science 82 100887 Search in Google Scholar

WILSON K. 2014. How biochar works in soil. The Biochar Journal. www.biochar-journal.org/en/ct/32. WILSONK. 2014 How biochar works in soil The Biochar Journal www.biochar-journal.org/en/ct/32. Search in Google Scholar

Act of 25 August 2006 on the fuel quality monitoring and control system (Journal of Laws 2022, item 1315, as amended). Act of 25 August 2006 on the fuel quality monitoring and control system (Journal of Laws 2022, item 1315, as amended). Search in Google Scholar

Act of 7 June 2018 amending the Renewable Energy Sources Act and certain other acts (Journal of Laws 2018, item 1276). Act of 7 June 2018 amending the Renewable Energy Sources Act and certain other acts (Journal of Laws 2018, item 1276). Search in Google Scholar