2022年28卷
1. 660 MW燃煤锅炉掺烧再燃气燃烧数值模拟 2022年28卷第3期
张小桃,张程俞,刘昊明,等.660 MW燃煤锅炉掺烧再燃气燃烧数值模拟[J].洁净煤技术,2022,28(3):72-81.
ZHANG Xiaotao,ZHANG Chengyu,LIU Haoming,et al.Numerical simulation on combustion of re-burning gas co-firing in a 660 MW coal-fired boiler[J].Clean Coal Technology,2022,28(3):72-81.
2. 燃煤耦合污泥焚烧发电技术研究进展 2022年28卷第3期
王飞,张盛,王丽花.燃煤耦合污泥焚烧发电技术研究进展[J].洁净煤技术,2022,28(3):82-94.
WANG Fei,ZHANG Sheng,WANG Lihua.Research progress of coal-fired coupled sludge incineration power generation technology[J].Clean Coal Technology,2022,28(3):82-94.
3. 燃煤机组耦合蒸气干化污泥能耗特性试验 2022年28卷第3期
李源,郭志成,赵鑫平,等.燃煤机组耦合蒸气干化污泥能耗特性试验[J].洁净煤技术,2022,28(3):95-101.
LI Yuan,GUO Zhicheng,ZHAO Xinping,et al.Experiment of energy consumption characteristic in a coal-fired power unit coupled with steam desiccation sludge[J].Clean Coal Technology,2022,28(3):95-10
4. 330 MWe循环流化床锅炉掺烧污泥性能影响 2022年28卷第3期
柯希玮,孙国瑞,黄中,等.330 MWe循环流化床锅炉掺烧污泥性能影响[J].洁净煤技术,2022,28(3):102-108.
KE Xiwei,SUN Guorui,HUANG Zhong,et al.Operation characteristic analysis on co-combustion of sludge and coal in a 330 MWe circulating fluidized bed boiler[J].Clean Coal Technology,2022,28(3):
5. 烟气循环式燃煤耦合污泥焚烧系统中污泥燃烧及重金属迁移特性 2022年28卷第3期
史明哲,雷凯,张睿.烟气循环式燃煤耦合污泥焚烧系统中污泥燃烧及重金属迁移特性[J].洁净煤技术,2022,28(3):109-117.
SHI Mingzhe,LEI Kai,ZHANG Rui.Characteristics of combustion and heavy metal migration of sludge in a coal power plant coupled with sludge incineration system based on circulating flue ga
6. 煤与污泥混燃及污染物逸出特性 2022年28卷第3期
张自丽,孙光,段伦博.煤与污泥混燃及污染物逸出特性[J].洁净煤技术,2022,28(3):118-129.
ZHANG Zili,SUN Guang,DUAN Lunbo. Combustion characteristic and pollutants emission behavior during co-combustion of coal and municipal sewage sludge[J].Clean Coal Technology,2022,28(3):118-129.
7. 0.3 MWth循环流化床污泥与煤掺烧试验 2022年28卷第3期
蒋孟宴,张自丽,孙光,等.0.3 MWth循环流化床污泥与煤掺烧试验[J].洁净煤技术,2022,28(3):130-138.
JIANG Mengyan,ZHANG Zili,SUN Guang,et al.Co-combustion characteristic of sewage sludge and coal in 0.3 MWth circulating fluidized bed[J].Clean Coal Technology,2022,28(3):130-138.
8. 基于铁基载氧体的污泥化学结构热解分子动力学模拟 2022年28卷第3期
王翠苹,梁文政,王坤,等.基于铁基载氧体的污泥化学结构热解分子动力学模拟[J].洁净煤技术,2022,28(3):139-149.
WANG Cuiping,LIANG Wenzheng,WANG Kun,et al.Molecular dynamics simulation of chemical structure pyrolysis of sludge based on iron-based oxygen carrier[J].Clean Coal Technology,2022,28(3):13
9. 220 t/h锅炉烟气侧耦合垃圾焚烧数值模拟 2022年28卷第3期
史兵权,史明哲,张睿.220 t/h锅炉烟气侧耦合垃圾焚烧数值模拟[J].洁净煤技术,2022,28(3):150-158.
SHI Bingquan,SHI Mingzhe,ZHANG Rui.Numerical simulation of flue gas side coupled municipal solid waste incineration in a 220 t/h boiler[J].Clean Coal Technology,2022,28(3):150-158.
10. 燃煤发电-物理储热耦合技术研究进展与系统调峰能力分析 2022年28卷第3期
周科,李银龙,李明皓,等.燃煤发电-物理储热耦合技术研究进展与系统调峰能力分析[J].洁净煤技术,2022,28(3):159-172.
ZHOU Ke,LI Yinlong,LI Minghao,et al.Research progress on the coupling technology of coal-fired power generation-physical thermal storage and analysis for the system peaking capacity[J].
11. 面向零碳电力的氨燃烧技术研究进展 2022年28卷第3期
高正平,涂安琪,李天新,等.面向零碳电力的氨燃烧技术研究进展[J].洁净煤技术,2022,28(3):173-184.
GAO Zhengping,TU Anqi,LI Tianxin,et al.Recent advances on ammonia combustion technology for zero-carbon power[J].Clean Coal Technology,2022,28(3):173-184.
12. 大比例掺烧NH3对燃煤机组影响分析 2022年28卷第3期
王一坤,邓磊,王涛,等.大比例掺烧NH3对燃煤机组影响分析[J].洁净煤技术,2022,28(3):185-192.
WANG Yikun,DENG Lei,WANG Tao,et al.Influence of large scale coupled NH3 power generation on coal-fired units[J].Clean Coal Technology,2022,28(3):185-192.
13. 燃煤锅炉氨煤混合燃烧工业尺度试验研究 2022年28卷第3期
牛涛,张文振,刘欣,等.燃煤锅炉氨煤混合燃烧工业尺度试验研究[J].洁净煤技术,2022,28(3):193-200.
NIU Tao,ZHANG Wenzhen,LIU Xin,et al.Industrial-scale experimental investigation of ammonia-coal cofiring in coal-fired boiler[J].Clean Coal Technology,2022,28(3):193-200.
14. 深度空气分级下煤粉耦合氨燃烧及NO生成特性 2022年28卷第3期
马仑,方庆艳,张成,等.深度空气分级下煤粉耦合氨燃烧及NO生成特性[J].洁净煤技术,2022,28(3):201-213.
MA Lun,FANG Qingyan,ZHANG Cheng,et al.Combustion and NO formation characteristics of pulverized coal co-firing with ammonia in a deep-air staging condition[J].Clean Coal Technology,2022,28(3)
15. CO2甲烷化镍基催化剂研究进展 2022年28卷第4期
张晓俐,古芳娜,苏发兵,等.CO2甲烷化镍基催化剂研究进展[J].洁净煤技术,2022,28(4):1-17.ZHANG Xiaoli,GU Fangna,SU Fangbing,et al.Research progress of nickel-based catalysts for carbon dioxide methanation[J].Clean Coal Technology,2022,28(4):1-17.
16. 预热燃烧还原性气氛下煤中C/O/N元素的迁移特性 2022年28卷第4期
张毅,朱建国,吕清刚,等.预热燃烧还原性气氛下煤中C/O/N元素的迁移特性[J].洁净煤技术,2022,28(4):18-25.ZHANG Yi,ZHU Jianguo,LYU Qinggang,et al.Analysis of migration characteristics of C/O/N elements in coal under preheated combustion reducing atmosphere[J].Clean Coal Technology,2022,28(4):18-2
17. 基于GRI-Mech 3.0机理的甲烷/空气多孔介质燃烧特性数值分析 2022年28卷第4期
王鹏涛,贾楠,刘鹏中,等.基于GRI-Mech 3.0机理的甲烷/空气多孔介质燃烧特性数值分析[J].洁净煤技术,2022,28(4):26-32.WANG Pengtao,JIA Nan,LIU Pengzhong,et al.Numerical analysis of CH4/air porous media combustion characteristics based on GRI-Mech 3.0 mechanism[J].Clean Coal Technology,2022,28(4):26
18. 煤粉预热低NOx燃烧技术进展 2022年28卷第4期
王帅,刘洋,刘愿武,等.煤粉预热低NOx燃烧技术进展[J].洁净煤技术,2022,28(4):33-41.WANG Shuai,LIU Yang,LIU Yuanwu,et al.A review of preheating-low NOx combustion coupling technology of pulverized coal[J].Clean Coal Technology,2022,28(4):33-41.
19. 氯盐改性堇青石吸附剂氧化烟气中Hg0的试验 2022年28卷第4期
邢向文,方蓓蓓,张肖阳,等.氯盐改性堇青石吸附剂氧化烟气中Hg0的试验[J].洁净煤技术,2022,28(4):51-58.XING Xiangwen,FANG Beibei,ZHANG Xiaoyang,et al.Experimental study on oxidation removal of elemental mercury from flue gas by chloridesalts modified cordierite adsorbents[J].Clean Coal Technolog
20. 基于声学法的堆积煤粉温度场实时监测 2022年28卷第4期
杨庚,闫计栋,沈国清,等.基于声学法的堆积煤粉温度场实时监测[J].洁净煤技术,2022,28(4):59-65.YANG Geng,YAN Jidong,SHEN Guoqing,et al.Real time monitoring of accumulated pulverized coal temperature field based on acoustic method[J].Clean Coal Technology,2022,28(4):59-65.
21. 直接空冷凝汽器流场及性能优化数值模拟 2022年28卷第4期
王淼,黄骞,曹文广,等.直接空冷凝汽器流场及性能优化数值模拟[J].洁净煤技术,2022,28(4):66-74.WANG Miao,HUANG Qian,CAO Wenguang,et al.Numerical investigation on the flow field and performance optimization of the direct air-cooled condenser[J].Clean Coal Technology,2022,28(4):66-74.
22. SCR脱硝氨转化、吸附及飞灰氨脱除技术研究现状 2022年28卷第4期
唐潇,徐仁博,张发捷,等.SCR脱硝氨转化、吸附及飞灰氨脱除技术研究现状[J].洁净煤技术,2022,28(4):75-85.TANG Xiao,XU Renbo,ZHANG Fajie,et al.Research status of SCR ammonia conversion,adsorption and ammonia removal technology from fly ash[J].Clean Coal Technology,2022,28(4):75-85.
23. 煤制乙二醇废水处理关键技术研究进展 2022年28卷第4期
杨芊,魏江波,孙齐,等.煤制乙二醇废水处理关键技术研究进展[J].洁净煤技术,2022,28(4):86-93.YANG Qian,WEI Jiangbo,SUN Qi,et al.Key technologies for treatment of wastewater from coal-to-ethylene glycol[J].Clean Coal Technology,2022,28(4):86-93.
24. Ni2P/Al2O3-TiO2催化剂制备及其菲加氢饱和性能 2022年28卷第4期
陈羽,王九占,李泽,等.Ni2P/Al2O3-TiO2催化剂制备及其菲加氢饱和性能[J].洁净煤技术,2022,28(4):94-102.CHEN Yu,WANG Jiuzhan,LI Ze,et al.Synthesis of Ni2P/Al2O3-TiO2 catalyst and its phenanthrene hydrogenation saturation performance[J].Clean Coal Technology,2022,28(4):94-102.
25. 40 kg神东煤焦炉热解试验及产物分析 2022年28卷第4期
彭德军,邸传耕,张飞.40 kg神东煤焦炉热解试验及产物分析[J].洁净煤技术,2022,28(4):103-109.PENG Dejun,DI Chuangeng,ZHANG Fei.Pyrolysis experiment and product analysis of Shendong coal in 40 kg experimental oven[J].Clean Coal Technology,2022,28(4):103-109.
26. 神东煤回转窑热解破碎特性 2022年28卷第4期
苌亮.神东煤回转窑热解破碎特性[J].洁净煤技术,2022,28(4):110-118.CHANG Liang.Fragmentation characteristics of Shendong coal during pyrolysis in rotary kiln[J].Clean Coal Technology,2022,28(4):110-118.
27. 流化床煤气化过程中焦油生成特性 2022年28卷第4期
邓尚致,姜华伟,李伟强,等.流化床煤气化过程中焦油生成特性[J].洁净煤技术,2022,28(4):119-126.DENG Shangzhi,JIANG Huawei,LI Weiqiang,et al.Generation characteristics of tar in fluidized bed coal gasification[J].Clean Coal Technology,2022,28(4):119-126.
28. 改性处理对煤基电容炭结构及电化学性能的影响 2022年28卷第4期
张兆华,王谦,张步勤,等.改性处理对煤基电容炭结构及电化学性能的影响[J].洁净煤技术,2022,28(4):127-136.ZHANG Zhaohua,WANG Qian,ZHANG Buqin,et al.Effect of modification on structure and electrochemical properties of coal based activated carbon[J].Clean Coal Technology,2022,28(4):127-136.
29. 纤维素、半纤维素和木质素对生物质燃烧行为影响研究 2022年28卷第4期
刘洋,姜通,邹春,等.纤维素、半纤维素和木质素对生物质燃烧行为影响研究[J].洁净煤技术,2022,28(4):137-143.LIU Yang,JIANG Tong,ZOU Chun,et al.Influence of the cellulosehe,micellulose and lignin on the combustion behavior of biomass[J].Clean Coal Technology,2022,28(4):137-143.
30. 燃煤火电机组深度调峰运行试验 2022年28卷第4期
张绪辉,杨兴森,辛刚,等.燃煤火电机组深度调峰运行试验[J].洁净煤技术,2022,28(4):144-150.ZHANG Xuhui,YANG Xingsen,XIN Gang,et al.Experimental study on deep peak regulation operation of coal-fired thermal power unit[J].Clean Coal Technology,2022,28(4):144-150.
31. 中心富燃料直流煤粉燃烧器燃烧及NOx生成特性 2022年28卷第4期
沈涛,宋民航,夏良伟,等.中心富燃料直流煤粉燃烧器的燃烧及NOx生成特性[J].洁净煤技术,2022,28(4):151-159.SHEN Tao,SONG Minhang,XIA Liangwei,et al.Combustion and NOx formation characteristics of a central fuel-rich direct current pulverized coal burner[J].Clean Coal Technology,2022,28(4):151-159
32. 基于反应温度控制的低氮燃烧调整技术研究与应用 2022年28卷第4期
施斌,但振宇,牟克慧,等.基于反应温度控制的低氮燃烧调整技术研究与应用[J].洁净煤技术,2022,28(4):160-165.SHI Bin,DAN Zhenyu,MOU Kehui,et al.Research and application of low nitrogen combustion adjustment technology based on reaction temperature control[J].Clean Coal Technology,2022,28(4):160-165.
33. 燃煤电厂煤及燃烧产物中氟的赋存与浸出特征 2022年28卷第4期
郝乾坤,方全国,陈亚飞,等.燃煤电厂煤及燃烧产物中氟的赋存与浸出特征[J].洁净煤技术,2022,28(4):166-174.HAO Qiankun,FANG Quanguo,CHEN Yafei,et al.Occurrence and leaching characteristics of fluorine in coal and combustion products of coal fired power plant[J].Clean Coal Technology,2022,28(4):166-
34. 基于模糊神经网络的燃煤锅炉炉膛结渣特性研究 2022年28卷第4期
朱超,郁翔,李峰,等.基于模糊神经网络的燃煤锅炉炉膛结渣特性研究[J].洁净煤技术,2022,28(4):175-182.ZHU Chao,YU Xiang,LI Feng,et al.Slagging characteristics of coal fired boiler furnace based on fuzzy neural network[J].Clean Coal Technology,2022,28(4):175-182.
35. 风幕代替中心筒的旋风分离器性能研究 2022年28卷第4期
孙世超,周镇港,袁东辉,等.风幕代替中心筒的旋风分离器性能研究[J].洁净煤技术,2022,28(4):183-190.SUN Shichao,ZHOU Zhengang,YUAN Donghui,et al.Performance of cyclone separator replacing vortex finder with air curtain[J].Clean Coal Technology,2022,28(4):183-190.
36. 氧分级对准东煤富氧燃烧NOx生成与积灰特性的影响 2022年28卷第4期
孙瑞金,王长安,赵林,等.氧分级对准东煤富氧燃烧NOx生成与积灰特性的影响[J].洁净煤技术,2022,28(4):42-50.SUN Ruijin,WANG Chang′an,ZHAO Lin,et al.Effects of staged oxygen on NOx formation and ash deposition characteristics during oxy-fuel combustion of high-alkali coal[J].Clean Coal Technology,20
37. 2060年碳中和目标下煤炭保障性需求预测 2022年28卷第5期
王兵,李璐,鲜玉娇,等.2060年碳中和目标下煤炭保障性需求预测[J].洁净煤技术,2022,28(5):1-13.WANG Bing,LI Lu,XIAN Yujiao,et al.Fundamental coal demand prediction under the goal of carbon neutrality in 2060[J].Clean Coal Technology,2022,28(5):1-13.
38. CH4-CO2重整镍基催化剂抗积碳性能研究进展 2022年28卷第5期
马清祥,张静,王毅婕,等.CH4-CO2重整镍基催化剂抗积碳性能研究进展[J].洁净煤技术,2022,28(5):14-28.MA Qingxiang,ZHANG Jing,WANG Yijie,et al.Research progress in carbon deposition resistance of nickel-based catalysts for carbon dioxide reforming of methane[J].Clean Coal Technology,2022,28(5)
39. 镍基CH4-CO2重整催化剂研究综述 2022年28卷第5期
张云飞,张晓娣,王影,等.镍基CH4-CO2重整催化剂研究综述[J].洁净煤技术,2022,28(5):29-50.ZHANG Yunfei,ZHANG Xiaodi,WANG Ying,et al.Review of nickel-based CH4-CO2 reforming catalysts[J].Clean Coal Technology,2022,28(5):29-50.
40. 限域型甲烷二氧化碳重整催化新材料研究现状 2022年28卷第5期
王晶,曹志化,潘雅晴,等.限域型甲烷二氧化碳重整催化新材料研究现状[J].洁净煤技术,2022,28(5):51-58.WANG Jing,CAO Zhihua,PAN Yaqing,et al.Research progress in new confined catalytic materials for methane carbon dioxide reforming[J].Clean Coal Technology,2022,28(5):51-58.
41. 氮掺杂生物质碳材料催化剂的制备及其催化CH4-CO2重整性能 2022年28卷第5期
马晓,秦晓伟,张晓娣,等.氮掺杂生物质碳材料催化剂的制备及其催化CH4-CO2重整性能[J].洁净煤技术,2022,28(5):59-70.MA Xiao,QIN Xiaowei,ZHANG Xiaodi,et al.Preparation of biomass nitrogen-doped carbon material catalyst and its catalytic performance for CO2 reforming of CH4[J].Clean Coal Technology,202
42. 嵌入型Ni@S1催化剂的制备及其CH4-CO2重整反应性能 2022年28卷第5期
盖希坤,杨丹,朱继成,等.嵌入型Ni@S1催化剂的制备及其CH4-CO2重整反应性能[J].洁净煤技术,2022,28(5):71-80.GAI Xikun,YANG Dan,ZHU Jicheng,et al.Preparation and performance of embedded type Ni@S1 catalyst for CH4-CO2 reforming reaction[J].Clean Coal Technology,2022,28(5):71-80.
43. 电源参数和气体组分对低温等离子体转化煤层甲烷的影响 2022年28卷第5期
朱丽华,张悦,田瑶瑶,等.电源参数和气体组分对低温等离子体转化煤层甲烷的影响[J].洁净煤技术,2022,28(5):81-86.ZHU Lihua,ZHANG Yue,TIAN Yaoyao,et al.Effects of power supply parameters and gas composition on transformation of coal bed methane by low-temperature plasma[J].Clean Coal Technology,2022,28(
44. 燃煤电厂锅炉机组受热面积灰结渣研究现状与展望 2022年28卷第5期
刘鹏宇,李德波,刘彦丰,等.燃煤电厂锅炉机组受热面积灰结渣研究现状与展望[J].洁净煤技术,2022,28(5):87-96.LIU Pengyu,LI Debo,LIU Yanfeng,et al.Current status and prospects of research on ash slagging in heated area of coal-fired power plant boiler unit[J].Clean Coal Technology,2022,28(5):87-96.
45. 热辐射成像法测量大型炉膛内三维温度场的算法新进展 2022年28卷第5期
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46. 煤系黄铁矿理化性质及浮选脱硫研究进展 2022年28卷第5期
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