LIGNOCELLULOSIC COMPOSITION AND HEATING VALUE OF FOREST AND AGRICULTURAL BIOMASS: A REVIEW

被引:0
作者
Matin, Bozidar [1 ]
Kricka, Tajana [2 ]
Durovic, Alen [1 ]
Grubor, Mateja [3 ]
Matin, Ana [2 ]
Antonovic, Alan [1 ]
机构
[1] Univ Zagreb, Fac Forestry & Wood Technol, Dept Wood Technol, Svetosimunska Cesta 23, Zagreb 10000, Croatia
[2] Univ Zagreb, Fac Agr, Dept Agr Technol Storage & Transport, Svetosimunska Cesta 25, Zagreb 10000, Croatia
[3] Univ Zagreb, Fac Agr, Dept Agr Engn, Svetosimunska Cesta 25, Zagreb, Croatia
来源
ACTUAL TASKS ON AGRICULTURAL ENGINEERING, ATAE 2023 | 2023年
关键词
lignocellulosic composition; biomass; heating value; ENERGY-PRODUCTION; BIO-ENERGY; WOOD; CONVERSION; LIGNIFICATION; PRETREATMENT; CHALLENGES; PYROLYSIS; CELLULOSE; BIOFUELS;
D O I
暂无
中图分类号
S2 [农业工程];
学科分类号
0828 ;
摘要
Biomass is available in large quantities and is relatively inexpensive. It includes residues from agricultural production, forestry, and wood processing industries. The renewable energy contained in biomass can help reduce greenhouse gas emissions and dependence on fossil fuels, and is a much more environmentally friendly solution as an alternative energy source. The amount of energy that certain biomass can produce depends on the composition of the lignocellulose (lignin, cellulose, and hemicellulose), which directly affects the heating value of the biomass. The calorific value of cellulose and hemicellulose is about 18.60 MJ kg(-1), and that of lignin is 22.2 to 28.5 MJ kg(-1), so it is desirable to have the highest possible lignin content in the biomass. The objective of this work was to determine the lignocellulosic composition of forest and agricultural biomass and to determine if this composition affects the heating value of the biomass.
引用
收藏
页码:331 / 342
页数:12
相关论文
共 82 条
[1]   Bioenergy potential and thermochemical characterization of lignocellulosic biomass residues available in Pakistan [J].
Abdullah, Aisha ;
Ahmed, Ashfaq ;
Akhter, Parveen ;
Razzaq, Abdul ;
Zafar, Muhammad ;
Hussain, Murid ;
Shahzad, Nasir ;
Majeed, Khaliq ;
Khurrum, Shahzad ;
Abu Bakar, Muhammad Saifullah ;
Park, Young-Kwon .
KOREAN JOURNAL OF CHEMICAL ENGINEERING, 2020, 37 (11) :1899-1906
[2]  
Aboagye D., 2017, Journal of Ecology and Environment, V41, P26, DOI 10.1186/s41610-017-0044-1
[3]  
Alonso DM, 2013, ENERG ENVIRON SCI, V6, P76, DOI [10.1039/c2ee23617f, 10.1039/C2EE23617F]
[4]   Chemical Pretreatment of Sunflower Straw Biomass: The Effect on Chemical Composition and Structural Changes [J].
Antonopoulou, Georgia ;
Dimitrellos, George ;
Beobide, Amaia Soto ;
Vayenas, Dimitrios ;
Lyberatos, Gerasimos .
WASTE AND BIOMASS VALORIZATION, 2015, 6 (05) :733-746
[5]  
Antonovic A., 2007, Drvna Industrija, V58, P119
[6]  
Antonovic A., 2017, 52. hrvatski i 12. medunarodni simpozij agronoma, 12. do 17. veljace 2017, Dubrovnik, Hrvatska. Zbornik radova, P623
[7]  
Antonovic A., 2004, Magistarski rad. Sveuciliste u Zagrebu, Sumarski fakultet, P1
[8]   Agro-industrial lignocellulosic biomass a key to unlock the future bio-energy: A brief review [J].
Anwar, Zahid ;
Gulfraz, Muhammad ;
Irshad, Muhammad .
JOURNAL OF RADIATION RESEARCH AND APPLIED SCIENCES, 2014, 7 (02) :163-173
[9]   Torrefaction of Pinus radiata and Eucalyptus globulus: A combined experimental and modeling approach to process synthesis [J].
Arteaga-Perez, Luis E. ;
Segura, Cristina ;
Espinoza, Daniela ;
Radovic, Ljubisa R. ;
Jimenez, Romel .
ENERGY FOR SUSTAINABLE DEVELOPMENT, 2015, 29 :13-23
[10]   Prospect of biofuels as an alternative transport fuel in Australia [J].
Azad, A. K. ;
Rasul, M. G. ;
Khan, M. M. K. ;
Sharma, Subhash C. ;
Hazrat, M. A. .
RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 2015, 43 :331-351
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