Arsenic in polish coals: Content, mode of occurrence, and distribution during coal combustion process

被引:0
作者
Wierońska-Wiśniewska, Faustyna [1 ,2 ]
Makowska, Dorota [1 ]
Strugala, Andrzej [1 ]
机构
[1] AGH University of Science and Technology, Faculty of Energy and Fuels, Mickiewicz Avenue 30, Krakow,30-059, Poland
[2] AGH University of Science and Technology, AGH Centre of Energy, Czarnowiejska Street 36, Krakow,30-054, Poland
来源
Fuel | 2022年 / 312卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
The research presented in the paper allowed the determination of the content and mode of arsenic occurrence in Polish commercial coal. The selective leaching method showed that in the case of the examined samples, As in coal occurred mostly with mineral matter (mainly with carbonates, sulphates, and disulphides). In addition, a study of As distribution in the combustion process of the coals was conducted at temperatures of 800 °C, 1000 °C, and 1200 °C. The amount of As that, during combustion, passed to gas was affected by the parameters of the combustion process (temperature and combustion rate) and chemical composition of the coals. Moreover, statistical analysis showed that the amount of Asgas in the flue gas is significantly influenced by the presence of this toxic element in coal mainly in association with disulphides (pyrite), carbonates, and sulphates. In addition to the research methods, statistical analysis based on significance assessment was used. © 2021 Elsevier Ltd
引用
收藏
相关论文
共 50 条
[31]   A prediction of arsenic and selenium emission during the process of bituminous and lignite coal co-combustion [J].
Jun Han ;
Zijiang Xiong ;
Bo Zhao ;
Yangshuo Liang ;
Yu Wang ;
Linbo Qin .
Chemical Papers, 2020, 74 :2079-2089
[32]   A prediction of arsenic and selenium emission during the process of bituminous and lignite coal co-combustion [J].
Han, Jun ;
Xiong, Zijiang ;
Zhao, Bo ;
Liang, Yangshuo ;
Wang, Yu ;
Qin, Linbo .
CHEMICAL PAPERS, 2020, 74 (07) :2079-2089
[33]   Insight of arsenic transformation behavior during high-arsenic coal combustion [J].
Yang, Yuhan ;
Hu, Hongyun ;
Xie, Kang ;
Huang, Yongda ;
Liu, Huan ;
Li, Xian ;
Yao, Hong ;
Narus, Ichiro .
PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2019, 37 (04) :4443-4450
[34]   Assessment of the content of arsenic in solid by-products from coal combustion [J].
Wieronska, Faustyna ;
Makowska, Dorota ;
Strugala, Andrzej .
ENERGY AND FUELS 2016, 2017, 14
[35]   Arsenic in Coal: Modes of Occurrence, Distribution in Different Fractions, and Partitioning Behavior during Coal Separation-A Case Study [J].
Zhou, Chang-Chun ;
Zhang, Ning-Ning ;
Peng, Chang-Bin ;
Cong, Long-Fei ;
Ouyang, Chang-Heng ;
Han, Rui .
ENERGY & FUELS, 2016, 30 (04) :3233-3240
[36]   Effect of coal blending on arsenic and fine particles emission during coal combustion [J].
Zhao, Bo ;
Chen, Geng ;
Qin, Linbo ;
Han, Yuxin ;
Zhang, Qiang ;
Chen, Wangsheng ;
Han, Jun .
JOURNAL OF CLEANER PRODUCTION, 2021, 311 (311)
[37]   Enrichment of arsenic, lead, and antimony in Balingian coal from Sarawak, Malaysia: Modes of occurrence, origin, and partitioning behaviour during coal combustion [J].
Sia, Say-Gee ;
Abdullah, Wan Hasiah .
INTERNATIONAL JOURNAL OF COAL GEOLOGY, 2012, 101 :1-15
[38]   Reaction mechanism of arsenic and nitrous oxides during coal combustion [J].
Zou, Chan ;
Wang, Chun-Bo ;
Xing, Jia-Ying .
Ranliao Huaxue Xuebao/Journal of Fuel Chemistry and Technology, 2019, 47 (02) :138-143
[39]   Mechanism of arsenic migration and transformation during pulverized coal combustion [J].
Huang, Yongda ;
Li, Aijun ;
Hu, Hongyun ;
Li, Shuai ;
Zou, Chan ;
Zou, Renjie ;
Wu, Xiaojiang ;
Naruse, Ichiro ;
Yao, Hong .
PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2024, 40 (1-4)
[40]   Review of Arsenic Transformation and Emission Control During Coal Combustion [J].
Gong H. ;
Hu H. ;
Liu H. ;
Li S. ;
Huang Y. ;
Fu B. ;
Luo G. ;
Yao H. .
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, 2020, 40 (22) :7337-7351
12345