Citation: | GUO Qing-hua, WEI Jun-tao, GONG Yan, YU Guang-suo. Mechanism analysis of synergy behavior during blended char co-gasification of bituminous coal and rice straw[J]. Journal of Fuel Chemistry and Technology, 2018, 46(4): 399-405. |
[1] |
王辅臣, 于广锁, 龚欣, 刘海峰, 王亦飞, 周志杰, 陈雪莉.大型煤气化技术的研究与发展[J].化工进展, 2009, 28(2):173-180. doi: 10.3969/j.issn.1008-4800.2015.09.056
WANG Fu-chen, YU Guang-suo, GONG Xin, LIU Hai-feng, WANG Yi-fei, ZHOU Zhi-jie, CHEN Xue-li. Research and development of large-scale coal gasification technology[J]. Chem Ind Eng Prog, 2009, 28(2):173-180. doi: 10.3969/j.issn.1008-4800.2015.09.056
|
[2] |
任海君, 张永奇, 房倚天, 王洋.煤焦与生物质焦共气化反应特性研究[J].燃料化学学报, 2012, 40(2):143-148. http://rlhxxb.sxicc.ac.cn/CN/Y2012/V40/I02/143
REN Hai-jun, ZHANG Yong-qi, FANG Yi-tian, WANG Yang. Co-gasification properties of coal char and biomass char[J]. J Fuel Chem Technol, 2012, 40(2):143-148. http://rlhxxb.sxicc.ac.cn/CN/Y2012/V40/I02/143
|
[3] |
RIZKIANA J, GUAN G Q, WIDAYATNO W B, HAO X G, HUANG W, TSUTSUMI A, ABUDULA A. Effect of biomass type on the performance of co-gasification of low rank coal with biomass at relatively low temperatures[J]. Fuel, 2014, 134:414-419. doi: 10.1016/j.fuel.2014.06.008
|
[4] |
陈鸿伟, 杨新, 韩悦, 赵振虎.制焦条件对稻秆与大同烟煤共气化特性影响的实验研究[J].热能动力工程, 2017, 32(8):94-99. http://mall.cnki.net/magazine/magadetail/RNWS201708.htm
CHEN Hong-wei, YANG Xin, HAN Yue, ZHAO Zhen-hu. Experimental study on the influence of pyrolysis condition on co-gasification characteristics of rice straw and Datong bituminous coal[J]. J Eng Therm Energ Power, 2017, 32(8):94-99. http://mall.cnki.net/magazine/magadetail/RNWS201708.htm
|
[5] |
ZHANG Y, ZHENG Y, YANG M J, SONG Y C. Effect of fuel origin on synergy during co-gasification of biomass and coal in CO2[J]. Bioresour Technol, 2016, 200:789-794. doi: 10.1016/j.biortech.2015.10.076
|
[6] |
DING L, ZHANG Y Q, WANG Z Q, HUANG J J, FANG Y T. Interaction and its induced inhibiting or synergistic effects during co-gasification of coal char and biomass char[J]. Bioresour Technol, 2014, 173:11-20. doi: 10.1016/j.biortech.2014.09.007
|
[7] |
HABIBI R, KOPYSCINSKI J, MASNADI M S, LAM J, GRACE J R, MIMS C A, HILL J M. Co-gasification of biomass and non-biomass feedstocks:Synergistic and inhibition effects of switchgrass mixed with sub-bituminous coal and fluid coke during CO2 gasification[J]. Energy Fuels, 2012, 27:494-500. https://www.researchgate.net/publication/263656626_Co-gasification_of_Biomass_and_Non-biomass_Feedstocks_Synergistic_and_Inhibition_Effects_of_Switchgrass_Mixed_with_Sub-bituminous_Coal_and_Fluid_Coke_During_CO2_Gasification
|
[8] |
邱朋华, 杜昌帅, 刘栗.热解酸洗煤焦结构特性以及与其反应性关系研究[J].煤炭学报, 2017, 42(S1):233-239. http://mall.cnki.net/magazine/magadetail/MTXB2017S1.htm
QIU Peng-hua, DU Chang-shuai, LIU Li. Structural characteristics of char derived from acid-washed coal pyrolysis and its corrections with char reactivity[J]. J China Coal Soc, 2017, 42(S1):233-239. http://mall.cnki.net/magazine/magadetail/MTXB2017S1.htm
|
[9] |
CHEN H D, CHEN X L, QIAO Z, LIU H F. Release and transformation characteristics of K and Cl during straw torrefaction and mild pyrolysis[J]. Fuel, 2016, 167:31-39. doi: 10.1016/j.fuel.2015.11.059
|
[10] |
KANG K, AZARGOHAR R, DALAI A K, WANG H. Hydrogen production from lignin, cellulose and waste biomass via supercritical water gasification:Catalyst activity and process optimization study[J]. Energy Convers Manage, 2016, 117:528-537. doi: 10.1016/j.enconman.2016.03.008
|
[11] |
MARCHAND D J, SCHNEIDER E, WILLIAMS B P, JOO Y L, KIM J, KIM G T, KIM S H. Physical and chemical changes of coal during catalytic fluidized bed gasification[J]. Fuel Process Technol, 2015, 130:292-298. doi: 10.1016/j.fuproc.2014.10.039
|
[12] |
GIL M V, RIAZA J, ÁLVAREZ L, PEVIDA C, RUBIERA F. Biomass devolatilization at high temperature under N2 and CO2:Char morphology and reactivity[J]. Energy, 2015, 91:655-662. doi: 10.1016/j.energy.2015.08.074
|
[13] |
HUO W, ZHOU Z J, CHEN X L, DAI Z H, YU G S. Study on CO2 gasification reactivity and physical characteristics of biomass, petroleum coke and coal chars[J]. Bioresour Technol, 2014, 159:143-149. doi: 10.1016/j.biortech.2014.02.117
|
[14] |
MA Z, BAI J, LI W, BAI Z Q, KONG L X. Mineral transformation in char and its effect on coal char gasification reactivity at high temperatures, Part 1:Mineral transformation in char[J]. Energy Fuels, 2013, 27:4545-4554. doi: 10.1021/ef4010626
|
[15] |
向银花, 王洋, 张建民, 董众兵, 李斌.煤焦气化过程中比表面积和孔容积变化规律及其影响因素研究[J].燃料化学学报, 2002, 30(2):108-112. http://d.wanfangdata.com.cn/Periodical_rlhxxb200202003.aspx
XIANG Yin-hua, WANG Yang, ZHANG Jian-min, DONG Zhong-bing, LI Bin. Study on structural properties and their affecting factors during gasification of chars[J]. J Fuel Chem Technol, 2002, 30(2):108-112. http://d.wanfangdata.com.cn/Periodical_rlhxxb200202003.aspx
|
[16] |
LI S, WHITTY K J. Physical phenomena of char-slag transition in pulverized coal gasification[J]. Fuel Process Technol, 2012, 95(2):127-136. https://www.sciencedirect.com/science/article/pii/S0378382011004176
|
[17] |
张凯, 汤达祯, 陶树, 刘彦飞, 陈世达.不同变质程度煤吸附能力影响因素研究[J].煤炭科学技术, 2017, 45(5):192-197. http://www.cnki.com.cn/Article/CJFDTotal-MKKC201501006.htm
ZHANG Kai, TANG Da-zhen, TAO Shu, LIU Yan-fei, CHEN Shi-da. Study on influence factors of adsorption capacity of different metamorphic degree coals[J]. Coal Sci Technol, 2017, 45(5):192-197. http://www.cnki.com.cn/Article/CJFDTotal-MKKC201501006.htm
|
[18] |
OKUNO T, SONOYAMA N, HAYASHI J, LI C Z, SATHE C, CHIBA T. Primary release of alkali and alkaline earth metallic species during the pyrolysis of pulverized biomass[J]. Energy Fuels, 2005, 19:2164-2171. doi: 10.1021/ef050002a
|
[19] |
LU X C, LI F C, WASTON A T. Adsorption measurements in devomianshales[J]. Fuel, 1995, 74:599-603. doi: 10.1016/0016-2361(95)98364-K
|