燃煤污染物控制
燃煤污染物控制
收录论文详情 共“57”篇论文
1. 垃圾焚烧烟气臭氧同时脱硝脱汞反应动力学研究 2021年27卷第3期
邵嘉铭,王智化,林法伟,等.垃圾焚烧烟气臭氧同时脱硝脱汞反应动力学研究[J].洁净煤技术,2021,27(3):211-216.SHAO Jiaming,WANG Zhihua,LIN Fawei,et al.Investigation on the reaction kinetics of simultaneous removal of NOx and Hg by ozone in waste incineration flue gas[J].Clean Coal Technology,2021,27(
2. 燃煤工业锅炉半干法脱硫除尘系统颗粒物排放特性研究 2021年27卷第3期
王建朋,段璐,纪任山,等.燃煤工业锅炉半干法脱硫除尘系统颗粒物排放特性研究[J].洁净煤技术,2021,27(3):241-247.WANG Jianpeng,DUAN Lu,JI Renshan,et al.Study on particulate matter emission characteristics of semi-dry desulfurization and dust removal system for coal fired industrial boilers[J].Clean Co
3. 燃料流态化预热后NOx生成路径及详细机理研究 2021年27卷第3期
刘玉华,刘敬樟,吕清刚,等.燃料流态化预热后NOx生成路径及详细机理研究[J].洁净煤技术,2021,27(3):232-240.LIU Yuhua,LIU Jingzhang,LYU Qinggang,et al.Study on NOx migration path and detailed mechanism after fuel fluidized preheating[J].Clean Coal Technology,2021,27(3):232-240.
4. 活性焦低温脱除烟气中NO的试验及机理研究 2021年27卷第3期
张媛,陈隆.活性焦低温脱除烟气中NO的试验及机理研究[J].洁净煤技术,2021,27(3):217-224.ZHANG Yuan,CHEN Long.Experiment and mechanism study on NO removal from flue gas by activated coke at low temperature[J].Clean Coal Technology,2021,27(3):217-224.
5. 用于混煤燃烧控制砷排放模型研究 2021年27卷第1期
曹娜,余圣辉,许豪,等.用于混煤燃烧控制砷排放模型研究[J].洁净煤技术,2021,27(1):307-315.CAO Na,YU Shenghui,XU Hao,et al.Study on the model for controlling arsenic emissions from blended coals combustion[J].Clean Coal Technology,2021,27(1):307-315.
6. 颗粒形状对全散射法测量颗粒物质量浓度的影响 2021年27卷第1期
夏继胜,邹军,吴凯,等.颗粒形状对全散射法测量颗粒物质量浓度的影响[J].洁净煤技术,2021,27(1):299-306.XIA Jisheng,ZOU Jun,WU Kai,et al.Effect of particle shape on the concentration measurement of particle mass with light extinction method[J].Clean Coal Technology,2021,27(1):299-306.
7. 煅烧气氛对柠檬酸溶胶凝胶铁氧化物催化剂低温SCR脱硝性能的影响 2020年26卷第5期
宋唯一,朱宝忠,孙运兰,等.煅烧气氛对柠檬酸溶胶凝胶铁氧化物催化剂低温SCR脱硝性能的影响[J].洁净煤技术,2020,26(5):56-63.SONG Weiyi,ZHU Baozhong,SUN Yunlan,et al.Effect of calcination atmosphere on low-temperature denitrification of citric acid sol-gel iron oxide catalyst[J].Clean Coal Technology,2020,2
8. 水泥分解炉中CO还原NO试验研究 2020年26卷第5期
李森,方立军,孙立超,等.水泥分解炉中CO还原NO试验研究[J].洁净煤技术,2020,26(5):64-69.LI Sen,FANG Lijun,SUN Lichao,et al.Experimental study on NO reduction by CO in cement precalciner[J].Clean Coal Technology,2020,26(5):64-69.
9. 臭氧脱硝过程中硝酸盐气溶胶的生成机理及控制 2020年26卷第5期
黄元凯,朱燕群,邵嘉铭,等.臭氧脱硝过程中硝酸盐气溶胶的生成机理及控制[J].洁净煤技术,2020,26(5):77-83.HUANG Yuankai,ZHU Yanqun,SHAO Jiaming,et al.Formation mechanism and control of nitrate aerosol during ozone deNOx process[J].Clean Coal Technology,2020,26(5):77-83.
10. 烟气再循环与空气分级对氢氧化铝焙烧炉运行参数的影响 2020年26卷第5期
李潇峰,邹俊,张扬,等.烟气再循环与空气分级对氢氧化铝焙烧炉运行参数的影响[J].洁净煤技术,2020,26(5):127-135.LI Xiaofeng,ZOU Jun,ZHANG Yang,et al.Effects of flue gas recirculation and air staging on the operating parameters of aluminum hydroxide calciner[J].Clean Coal Technology,2020,26(5):127-135
11. 焦炉烟气钢渣湿法联合脱硫脱硝试验研究 2020年26卷第6期
孟子衡,王晨晔,王兴瑞,等.焦炉烟气钢渣湿法联合脱硫脱硝试验研究[J].洁净煤技术,2020,26(6):210-216.
MENG Ziheng,WANG Chenye,WANG Xingrui,et al.Experimental study on simultaneous desulfurization and denitrification by steelmaking slag for coke oven flue gas[J].Clean Coal Technology,2020,26(6)
12. α-Fe2O3表面SO2吸附及SO3催化生成的密度泛函分析 2020年26卷第6期
王永兵,戴高峰,单志亮,等.α-Fe2O3表面SO2吸附及SO3催化生成的密度泛函分析[J].洁净煤技术,2020,26(6):203-209.
WANG Yongbing,DAI Gaofeng,SHAN Zhiliang,et al.DFT study on the adsorption of SO2 and catalytic formation of SO3 on the α-Fe2O3 surface[J].Clean Coal Technology,2020,26(6):203-209.
13. 基于热力学平衡计算的燃煤电厂烟气中SO3形态研究 2020年26卷第6期
于伟静,马超,谭闻濒,等.基于热力学平衡计算的燃煤电厂烟气中SO3形态研究[J].洁净煤技术,2020,26(6):189-195.
YU Weijing,MA Chao,TAN Wenbin,et al.Reseach on SO3 morphological characteristics in flue gas of coal-fired power plants based on thermodynamic equilibrium calculation[J].Clean Coal Techno
14. 循环流化床床料与燃料粒径对脱硝反应的影响 2020年26卷第6期
张曜,于娟,林晨,等.循环流化床床料与燃料粒径对脱硝反应的影响[J].洁净煤技术,2020,26(6):196-202.
ZHANG Yao,YU Juan,LIN Chen,et al.Influence of particle sizes of bed material and fuel on denitration reaction in circulating fluidized bed[J].Clean Coal Technology,2020,26(6):196-202.
15. 焦炉烟气活性炭法多污染物协同控制工业化试验研究 2020年26卷第6期
王斌,李玉然,刘连继,等.焦炉烟气活性炭法多污染物协同控制工业化试验研究[J].洁净煤技术,2020,26(6):182-188.
WANG Bin,LI Yuran,LIU Lianji,et al.Industrial experimental study on the multi-pollutant collaborative control with activated carbon for coke oven flue gas[J].Clean Coal Technology,2020,26(6
16. 活性焦脱硫脱硝反应器模拟及内构件优化 2020年26卷第6期
张云雷,梁大明,孙仲超,等.活性焦脱硫脱硝反应器模拟及内构件优化[J].洁净煤技术,2020,26(6):175-181.
ZHANG Yunlei,LIANG Daming,SUN Zhongchao,et al.Simulation and internal component optimization of active coke desulfurization and denitrification reactor[J].Clean Coal Technology,2020,26(6):175-1
17. 石墨热分解CaSO4反应机理研究 2020年26卷第6期
赵亮.石墨热分解CaSO4反应机理研究[J].洁净煤技术,2020,26(6):168-174.
ZHAO Liang.Study on the reaction mechanism of thermal decomposition reaction of CaSO4 and graphite[J].Clean Coal Technology,2020,26(6):168-174.
18. 燃煤电厂白色烟羽消除技术现状与展望 2020年26卷第6期
杨晓阳,王飞,杨凤玲,等.燃煤电厂白色烟羽消除技术现状与展望[J].洁净煤技术,2020,26(6):109-117.
YANG Xiaoyang,WANG Fei,YANG Fengling,et al.Current status and prospect of white moist plume elimination technology in coal-fired power plants[J].Clean Coal Technology,2020,26(6):109-117.
19. 气氛对氧化物吸附气相砷的影响及机理分析 2020年26卷第4期
何梓谦,余圣辉,张成,等.气氛对氧化物吸附气相砷的影响及机理分析[J].洁净煤技术,2020,26(4):190-195.HE Ziqian,YU Shenghui,ZHANG Cheng,et al.Effects of atmosphere on gas-phase arsenic adsorption by oxides and mechanism analysis[J].Clean Coal Technology,2020,26(4):190-195.
20. 活性焦低温催化氧化NO脱除性能评价及热再生试验 2020年26卷第4期
李婷,潘冠福.活性焦低温催化氧化NO脱除性能评价及热再生试验[J].洁净煤技术,2020,26(4):175-181.LI Ting,PAN Guanfu.Catalytic oxidation NO removal and thermal regeneration experiment by activated coke at low temperature[J].Clean Coal Technology,2020,26(4):175-181.
21. 循环流化床锅炉高效炉内脱硫理论和关键技术 2020年26卷第4期
谭波,王传志,司硕,等.循环流化床锅炉高效炉内脱硫理论和关键技术[J].洁净煤技术,2020,26(4):168-174.TAN Bo,WANG Chuanzhi,SI Shuo,et al.Theory and key technologies of high efficiency desulfurization in circulating fluidized bed boilers[J].Clean Coal Technology,2020,26(4):168-174.
22. 350 MW机组锅炉SCR脱硝系统优化 2020年26卷第1期
孙雪峰,王强,颜世剑,等.350 MW机组锅炉SCR脱硝系统优化[J].洁净煤技术,2020,26(1):221-227. SUN Xuefeng,WANG Qiang,YAN Shijian,et al.Optimization of SCR denitrification system for 350 MW unit boiler[J].Clean Coal Technology,2020,26(1):221-227.
23. 燃煤水泥窑炉低NOx排放控制技术研究进展 2020年26卷第1期
石朝亭,蔡军,任强强,等.燃煤水泥窑炉低NOx排放控制技术研究进展[J].洁净煤技术,2020,26(1):174-183. SHI Chaoting,CAI Jun,REN Qiangqiang,et al.Research progress of low NOx emission control technologies in coal-fired cement kilns[J].Clean Coal Technology,2020,26(1):174-183.
24. 分解炉空气分级燃烧及NOx排放特性研究 2020年26卷第1期
朱书骏,朱建国.分解炉空气分级燃烧及NOx排放特性研究[J].洁净煤技术,2020,26(1):52-58. ZHU Shujun,ZHU Jianguo.Experimental study on air-staging combustion and NOx emission characteristics in cement precalciner[J].Clean Coal Technology,2020,26(1):52-58.
25. 碳材料对燃煤烟气硫脱除及资源化研究进展 2020年26卷第1期
曲智斌,孙飞,皮信信,等.碳材料对燃煤烟气硫脱除及资源化研究进展[J].洁净煤技术,2020,26(1):151-163. QU Zhibin,SUN Fei,PI Xinxin,et al.Research progress of carbon materials on sulfur removal and resource utilization from coal-fired flue gas[J].Clean Coal Technology,2020,26(1):151-163.
26. 超低排放背景下烟气消白技术路线研究 2019年25卷第2期
谭厚章,刘兴,王文慧,等. 超低排放背景下烟气消白技术路线研究[J]. 洁净煤技术,2019,25(2):38-44. TAN Houzhang,LIU Xing,WANG Wenhui,et al. Research on wet flue gas plume elimination technology in the context of ultra low emission[J]. Clean Coal Technology,2019,25(2):38-44.
27. 新型低氮旋流燃烧器NOx排放特性 2019年25卷第6期
龚彦豪,许鑫玮,王登辉,等. 新型低氮旋流燃烧器NOx排放特性[J]. 洁净煤技术,2019,25(6):118-125. GONG Yanhao,XU Xinwei,WANG Denghui,et al. NOx emissions characteristics of a novel low-NOx swirl burner[J]. Clean Coal Technology,2019,25(6):118-125.
28. 气体燃料再燃脱硝机理及工程应用进展 2019年25卷第6期
王鹏涛,王乃继,梁兴,等. 气体燃料再燃脱硝机理及工程应用进展[J]. 洁净煤技术,2019,25(6):51-60. WANG Pengtao,WANG Naiji,LIANG Xing,et al. Denitration mechanism and engineering application progress of gas fuel reburning[J]. Clean Coal Technology,2019,25(6):51-60.
29. CFB锅炉低氮燃烧对炉内固硫影响研究进展 2019年25卷第6期
郝艳红,孟江涛,王菁,等. CFB锅炉低氮燃烧对炉内固硫影响研究进展[J]. 洁净煤技术,2019,25(6):43-50. HAO Yanhong,MENG Jiangtao,WANG Jing,et al. Research progress on the effect of low-NOx combustion on furnace sulfur fixation in the CFB boiler[J]. Clean Coal Technology,2019,25(6):43-50.
30. 煤矸石及煤泥燃烧过程重金属排放特性 2019年25卷第5期
彭皓,王宝凤,杨凤玲,等. 煤矸石及煤泥燃烧过程重金属排放特性[J]. 洁净煤技术,2019,25(4):118-124. PENG Hao,WANG Baofeng,YANG Fengling,et al. Emission characteristics of heavy metal during combustion of coal gangue and coal slime[J]. Clean Coal Technology,2019,25(4):118-124.
31. 660 MW超超临界循环流化床锅炉超低NOx排放研究 2019年25卷第5期
李影平,辛胜伟,王凤君. 660 MW超超临界循环流化床锅炉超低NOx排放研究[J]. 洁净煤技术,2019,25(5):86-92. LI Yingping,XIN Shengwei,WANG Fengjun. Study on ultra-low NOx emission technology of 660 MW ultra-supercritical circulating fluidized bed boiler[J]. Clean Coal Technology,2019,25(5):86-92
32. 钒基脱硝催化剂SO2氧化率控制研究进展 2019年25卷第5期
李文华,尹顺利,金震楠,等. 钒基脱硝催化剂SO2氧化率控制研究进展[J]. 洁净煤技术,2019,25(5):8-16. LI Wenhua,YIN Shunli,JIN Zhennan,et al. Research progress on the control of SO2 oxidation rate over vanadium based denitrification catalyst[J]. Clean Coal Technology,2019,25(5):8-16.
33. 低温SCR锰系脱硝催化剂的研究进展 2016年22卷第1期
肖翠微,李 婷. 低温SCR锰系脱硝催化剂的研究进展[J]. 洁净煤技术,2016,22(1):95-100. XIAO Cuiwei,LI Ting. Research progress of low-temperature SCR denitrification manganese-based catalysts[J]. Clean Coal Technology,2016,22(1):95-100.
34. 脱硝技术的现状及展望 2017年23卷第2期
苗强. 脱硝技术的现状及展望[J]. 洁净煤技术,2017,23(2):12-19. Miao Qiang. Progress and prospects of denitration technology[J]. Clean Coal Technology,2017,23(2):12-19.
35. 燃煤电厂脱硫废水烟气蒸发技术进展与应用 2019年25卷第2期
柴晋,万忠诚,武凯,等. 燃煤电厂脱硫废水烟气蒸发技术进展与应用[J]. 洁净煤技术,2019,25(2):25-31. CHAI Jin,WAN Zhongcheng,WU Kai,et al. Development and application of flue gas evaporation technology for waste water desulfurization in coal-fired power plants[J]. Clean Coal Technology,2019,25(
36. 燃煤电厂汞排放与控制技术研究进展 2019年25卷第2期
段钰锋,朱纯,佘敏,等. 燃煤电厂汞排放与控制技术研究进展[J]. 洁净煤技术,2019,25(2):1-17. DUAN Yufeng,ZHU Chun,SHE Min,et al. Research progress on mercury emission and control technologies in coal-fired power plants[J]. Clean Coal Technology,2019,25(2):1-17.
37. 基于相离度和博弈论赋权的火电脱硝技术评价 2019年25卷第2期
许霁,王贲,于洁,等. 基于相离度和博弈论赋权的火电脱硝技术评价[J]. 洁净煤技术,2019,25(2):126-133. XU Ji,WANG Ben,YU Jie,et al. Evaluation of coal-fired power denitration technologies based on deviation degree and game theory weighting method[J]. Clean Coal Technology,2019,25(2):126-133.
38. SNCR/烟气再循环协同脱硝技术研究 2019年25卷第3期
雷雨,刘洋,牛艳青,等. SNCR/烟气再循环协同脱硝技术研究[J]. 洁净煤技术,2019,25(3):110-115. LEI Yu,LIU Yang,NIU Yanqing,et al. Research on SNCR/flue gas recycling synergistic denitration technlogy[J]. Clean Coal Technology,2019,25(3):110-115.
39. 220 t/h煤粉锅炉臭氧氧化NOx超低排放试验研究 2019年25卷第3期
张利波,刘佩希,张椰,等. 220 t/h煤粉锅炉臭氧氧化NOx超低排放试验研究[J]. 洁净煤技术,2019,25(3):105-109. ZHANG Libo,LIU Peixi,ZHANG Ye,et al. Experimental study on ultra-low emission of nitrogen oxide using ozone oxidation in 220 t/h coal-fired boiler[J]. Clean Coal Technology,2019,25(3):
40. 煤粉燃烧过程强化脱硝技术研究 2019年25卷第4期
周棋,王勇,刘松霖,等. 煤粉燃烧过程强化脱硝技术研究[J]. 洁净煤技术,2019,25(4):111-118. ZHOU Qi,WANG Yong,LIU Songlin,et al. Research on enhanced denitrification technology in pulverized coal combustion process[J]. Clean Coal Technology,2019,25(4):111-118.
41. 超低排放燃煤电站湿法脱硫和湿式电除尘器中硒含量分布及形态演变 2019年25卷第3期
余学海,张翼,常林,等. 超低排放燃煤电站湿法脱硫和湿式电除尘器中硒含量分布及形态演变[J]. 洁净煤技术,2019,25(3):100-104. YU Xuehai,ZHANG Yi,CHANG Lin,et al. Se partitioning and species in WFGD and WESP system of the ultra-low emission coal fired power plant[J]. Clean Coal Technology,2019,25(3):100-104
42. 钙基脱硫剂对循环流化床NOx排放影响研究进展 2019年25卷第1期
柯希玮,蔡润夏,吕俊复,等. 钙基脱硫剂对循环流化床NOx排放影响研究进展[J]. 洁净煤技术,2019,25(1):1-11. KE Xiwei,CAI Runxia,LYU Junfu,et al. Research progress of the effects of Ca-based sorbents on the NOx reaction in circulating fluidized bed boilers[J]. Clean Coal Technology,2019,25(1):1-11.
43. 燃煤烟气污染物干式高效脱除技术 2018年24卷第6期
柴树,王倩,孟丽,等. 燃煤烟气污染物干式高效脱除技术[J]. 洁净煤技术,2018,24(6):83-87. CHAI Shu,WANG Qian,MENG Li,et al. Dry high-efficiency technology for coal-fired flue gas pollutants control[J]. Clean Coal Technology,2018,24(6):83-87.
44. 0.3 MW CFB燃煤烟气喷射NH4Br改性稻壳焦脱汞试验研究 2019年25卷第2期
谷小兵,陶君,耿新泽,等. 0. 3 MW CFB燃煤烟气喷射NH4Br改性稻壳焦脱汞试验研究[J]. 洁净煤技术,2019,25(2):120-125. GU Xiaobing,TAO Jun,GENG Xinze,et al. Experimental study on flue gas mercury removal with injection of NH4Br modified rice husk coke in a 0. 3 MW CFB coal-fired facility[J]. Cle
45. 基于富里酸的载银碳基吸附剂脱除元素态汞的研究 2019年25卷第1期
刘新强,张华伟. 基于富里酸的载银碳基吸附剂脱除元素态汞的研究[J]. 洁净煤技术,2019,25(1):136-141. LIU Xinqiang,ZHANG Huawei. Research on removal of elemental mercury by fulvic acid carbon-based sorbents loaded with silver[J]. Clean Coal Technology,2019,25(1):136-141.
46. 燃煤烟气多污染物协同治理试验研究 2018年24卷第5期
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