机械与能源工程 |
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添加剂强化钙基湿法烟气脱硫的试验研究 |
王惠挺,丁红蕾,姚国新,张涌新,郑成航,高翔,骆仲泱,岑可法 |
浙江大学 能源清洁利用国家重点实验室,浙江 杭州 310027 |
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Experimental study on SO2 absorption rate enhanced by additive in limestone-gypsum WFGD process |
WANG Hui-ting, DING Hong-lei, YAO Guo-xin, ZHANG Yong-xin,
ZHENG Cheng-hang, GAO Xiang, LUO Zhong-yang, CEN Ke-fa |
State Key Laboratory of Clean Energy Utilization, Zhejiang University, Hangzhou 310027, China |
引用本文:
王惠挺,丁红蕾,姚国新,张涌新,郑成航,高翔,骆仲泱,岑可法. 添加剂强化钙基湿法烟气脱硫的试验研究[J]. J4, 2014, 48(1): 50-55.
WANG Hui-ting, DING Hong-lei, YAO Guo-xin, ZHANG Yong-xin,. Experimental study on SO2 absorption rate enhanced by additive in limestone-gypsum WFGD process. J4, 2014, 48(1): 50-55.
链接本文:
http://www.zjujournals.com/eng/CN/10.3785/j.issn.1008-973X.2014.01.008
或
http://www.zjujournals.com/eng/CN/Y2014/V48/I1/50
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[1] OLAUSSON S, WALLIM M, BJERLE I. A model for the absorption of sulfur dioxide into a limestone slurry [J]. The Chemical Engineering Journal, 1993, 51(2): 99-108.
[2] MAROCCO L, INZOLI F. Multiphase Euler–Lagrange CFD simulation applied to wet flue gas desulphurization technology International [J]. Journal of Multiphase Flow, 2009, 35(2): 185-194.
[3] FRANDSEN J BW, KIIL S, JOHNSSON J E. Optimization of a wet FGD pilot plant using fine limestone and organic acids [J]. Chemical Engineering Science, 2001, 56(10): 3275-3287.
[4] LI Na, ZHOU Qu-lan, KONG De-juan, et al. Mass transfer characteristics in double-contact-flow absorber with liquid column/screen flow type: modeling and experiment [J]. Chemical Engineering Science, 2010, 65(8): 2619-2628.
[5] 韩玉霞,李鑫,赵爽,等.有机羧酸添加剂对石灰石WFGD工艺过程的影响[J]. 能源研究与利用, 2010(1): 39-43.
HAN Yu-xia, LI Xin, ZHAO Shuang, et al. Intensifying effect of organic acid on wet flue gas desulfurization [J]. Energy Research and Utilization, 2010(1): 39-43.
[6] 张虎,佟会玲,董善宁,等.使用添加剂调质钙基脱硫剂[J]. 化工学报, 2006, 57(2): 385-389.
ZHANG Hu, TONG Hui-ling, DONG Shan-ning, et al. Effects of additives on sorbent preparation and use of calcium for SO2 removal [J]. Journal of Chemical Industry and Engineering, 2006, 57(2): 385-389.
[7] 侯家涛,王丰,于燕.不同脱硫剂和脱硫添加剂在文丘里洗涤器上脱硫性能的研究[J].能源环境保护, 2011, 4(6): 33-38.
HOU Jia-tao, WANG Feng, YU Yan. Study on flue gas desulfurization performance of multi-venturi scrubber using different desulfurizers and additives [J]. Energy Environmental Protection, 2011, 4(6): 33-38.
[8] 曹宏伟,董芃.烟气脱硫添加剂的研究现状[J].节能技术, 2003, 21(2): 10-12.
CAO Hong-wei, DONG Peng. Study status of additives for efficient sulfur retention in FGD [J]. Energy Conservation Technology, 2003, 21(2): 10-12.
[9] CHI C T, LESTER J H. Utilization of adipic acid byproducts for energy recovery and enhancement of flue gas desulfurization [J]. Environment Process, 1989, 8(4): 223-226.
[10] 张三虎,牛亚尊,包俊江,等.己二酸和己二酸钠强化石灰石WFGD的对比研究[J].环境工程学报, 2009, 11(3): 2043-2046.
ZHANG San-hu, NIU Ya-zun, BAO Jun-jiang, et al. Comparative study on enhancement limestone WFGD with adipic acid and sodium adipate [J]. Techniques and Equipment for Environmental Pollution Control, 2009, 11(3): 2043-2046.
[11] 薛娟琴,汪孔奋,杨娟娟,等.柠檬酸盐法烟气脱硫机理[J]. 化工学报, 2009, 11(3): 2043-2046.
XUE Juan-qin, WANG Kong-fen, YANG Juan-juan, et al. Mechanism of flue gas desulfurization with citrate solution [J]. Journal of Chemical Industry and Engineering, 2009, 11(3): 2043-2046.
[12] LIU Zhen-shu, WEI Ming-yen, LIN Chiou-liang. Simultaneous control of acid gases and PAHs using a spray dryer combined with a fabric filter using different additives [J]. Journal of Hazardous Materials, 2002, 91(1/2/3): 129-141.
[13] 黄梅,李绍箕.有机羧酸对低浓度CaCO3吸收液烟气脱硫系统影响的初步研究[J]. 热力发电, 1999(6): 29-31.
HUANG Mei, LI Shao-ji. Study on low concentration CaCO3 absorption in flue gas desulfurization system influenced by carboxylic acid [J]. Thermal Power Generation, 1999(6): 2931.
[14] 孙志国. 腐植酸钠吸收烟气中SO2和NO2的实验及机理研究[D]. 上海: 上海交通大学, 2011.
SUN Zhi-guo. Experiment and mechanism research of a novel process of removing SO2 and NO2 from flue gas by sodium humate [D]. Shanghai: Shanghai JiaoTong University, 2011.
[15] MOBLEY J D, CASSIDY M A. Organic acids can enhance wet limestone flue gas scrubbing [J]. Power Engineering, 1986, 90(5): 3235.
[16] EDEN D, LUCKAS M. A heat and mass transfer model for the simulation of the wet limestone flue gas scrubbing process [J]. Chemical Engineering Technology, 1998, 21 (1): 56-60.
[17] OLAUSSON S, WALLIN M, BJERLE J I. A model for the absorption of sulfur dioxide into limestone slurry [J]. Chemical Engineering Journal, 1993, 51(2): 99-108.
[18] 杜振. 湿式氨法烟气脱硫脱硝过程中NOx吸收的试验研究[D]. 杭州: 浙江大学, 2011.
DU Zhen. Study of NOx absorption in ammonia–based wet flue gas desulfurization and denitrification process [D]. Hangzhou: Zhejiang University, 2011.
[19] GAO Xiang, DING Hong-lei, DU Zhen, et al. Gas-liquid absorption reaction between (NH4)2SO3 solution and SO2 for ammonia-based wet flue gas desulfurization [J]. Applied Energy, 2010, 87(8): 2647-2651.
[20] 孙文寿.添加剂强化石灰石/石灰湿式烟气脱硫研究[D]. 杭州: 浙江大学, 2001.
SUN Wen-shou. Studies of the wet additive-enhanced limestone/lime flue gas desulfurization [D]. Hangzhou: Zhejiang University, 2001. |
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