Co-Pyrolysis and Co-Gasification of Biomass and Oil Shale

被引:4
|
作者
Jarvik, Oliver [1 ]
Sulg, Mari [1 ]
Cirici, Pau Cascante [1 ]
Eldermann, Meelis [2 ]
Konist, Alar [1 ]
Gusca, Julija [3 ]
Siirde, Andres [1 ]
机构
[1] Tallinn Univ Technol, Dept Energy Technol, Sch Engn, Ehitajate Tee 5, EE-19086 Tallinn, Estonia
[2] Viru Keemia Grp AS, Jarvekula Tee 14, EE-30328 Kohtla Jarve, Estonia
[3] Riga Tech Univ, Inst Energy Syst & Environm, Azenes Iela 12-1, LV-1048 Riga, Latvia
来源
ENVIRONMENTAL AND CLIMATE TECHNOLOGIES | 2020年 / 24卷 / 01期
关键词
CFB (circulating fluidized bed); char; fixed bed reactor; heating rate; HEATING RATE; LIGNOCELLULOSIC BIOMASS; WOOD BIOMASS; BIO-OIL; BIOCHAR; TEMPERATURE; CHEMICALS; QUALITY; SOLIDS; YIELD;
D O I
10.2478/rtuect-2020-0038
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
The European Union has set an ambitious goal to transform to a carbon neutral economy. The present paper focuses on thermal treatment of oil shale and biomass blends that could be considered as an important pathway for achieving the carbon neutral goal locally in Estonia. The concept of co-pyrolysis and co-gasification of biomass and oil shale offers various advantages such as higher liquid product yield and higher char conversion than if the oil shale and biomass particles were processed individually. In the paper, an overview of the planned actions for merging oil shale industry carbon neutral economy is given. The selected approaches are justified with information found in scientific literature and initial experimental results. Further, the possible future developments for gasification and pyrolysis in Estonia are also highlighted.
引用
收藏
页码:624 / 637
页数:14
相关论文
共 50 条
  • [31] Insights into pyrolysis and catalytic co-pyrolysis upgrading of biomass and waste rubber seed oil to promote the formation of aromatics hydrocarbon
    Zheng, Yunwu
    Tao, Lei
    Yang, Xiaoqing
    Huang, Yuanbo
    Liu, Can
    Zheng, Zhifeng
    INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2018, 43 (34) : 16479 - 16496
  • [32] Thermal plasma co-gasification of polyvinylchloride and biomass mixtures under steam atmospheres: Gasification characteristics and chlorine release behavior
    Chu, Chu
    Wang, Ping
    Bore, Abdoulaye
    Ma, Wenchao
    Chen, Guanyi
    Wang, Pan
    ENERGY, 2023, 262
  • [33] Co-Pyrolysis of Woody Biomass and Oil Shale in a Batch Reactor in CO2, CO2-H2O, and Ar Atmospheres
    Ceron, Alejandro Lyons
    Konist, Alar
    ENERGIES, 2023, 16 (07)
  • [34] A study on machine learning prediction of bio-oil yield from biomass and plastic Co-pyrolysis
    Zhao, Chenxi
    Xia, Qi
    Wang, Siyu
    Lu, Xueying
    Yue, Wenjing
    Chen, Aihui
    Chen, Juhui
    JOURNAL OF THE ENERGY INSTITUTE, 2025, 120
  • [35] Machine learning to predict biochar and bio-oil yields from co-pyrolysis of biomass and plastics
    Alabdrabalnabi, Aessa
    Gautam, Ribhu
    Sarathy, S. Mani
    FUEL, 2022, 328
  • [36] Bio-oil production via co-pyrolysis of almond shell as biomass and high density polyethylene
    Onal, Eylem
    Uzun, Basak Burcu
    Putun, Ayse Eren
    ENERGY CONVERSION AND MANAGEMENT, 2014, 78 : 704 - 710
  • [37] Co-pyrolysis of Chinese lignite and biomass in a vacuum reactor
    Yang, Xiao
    Yuan, Chengyong
    Xu, Jiao
    Zhang, Weijiang
    BIORESOURCE TECHNOLOGY, 2014, 173 : 1 - 5
  • [38] Behaviors, product characteristics and kinetics of catalytic co-pyrolysis spirulina and oil shale
    Dai, Minquan
    Yu, Zhaosheng
    Fang, Shiwen
    Ma, Xiaoqian
    ENERGY CONVERSION AND MANAGEMENT, 2019, 192 : 1 - 10
  • [39] Use of plastic waste as a fuel in the co-pyrolysis of biomass: Part II. Variance analysis of the co-pyrolysis process
    Sajdak, M.
    Slowik, K.
    JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS, 2014, 109 : 152 - 158
  • [40] Co-pyrolysis of lignocellulosic biomass and microalgae: Products characteristics and interaction effect
    Chen, Wei
    Chen, Yingquan
    Yang, Haiping
    Xia, Mingwei
    Li, Kaixu
    Chen, Xu
    Chen, Hanping
    BIORESOURCE TECHNOLOGY, 2017, 245 : 860 - 868
12345