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主管:国家煤矿安全监察局

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燃料掺混燃烧关键技术

[1] 刘宏宇,张守玉,宋晓冰,等.抗结渣生物质燃料研究进展[J].洁净煤技术,2020,26(1):22-31.

LIU Hongyu,ZHANG Shouyu,SONG Xiaobing,et al.Advance in the research on slag-resistant biomass briquette preparation[J].Clean Coal Technology,2020,26(1):22-31.

[2] 张平,陈陆剑,江华,等.300 MW循环流化床锅炉大比例掺烧煤泥试验研究[J].洁净煤技术,2020,26(1):65-70.

ZHANG Ping,CHEN Lujian,JIANG Hua,et al.Research on large proportion of coal slimeco-combustion in a 300 MW CFB boiler[J].Clean Coal Technology,2020,26(1):65-70.

[3] 刘家利,王志超,邓凤娇,等.大型煤粉电站锅炉直接掺烧生物质研究进展[J].洁净煤技术,2019,25(5):17-23.

LIU Jiali,WANG Zhichao,DENG Fengjiao,et al.Research progress on direct blending biomass in pulverized coal fired boilers of large power plants[J].Clean Coal Technology,2019,25(5):17-23.

[4] 李美军,程晓磊,杨石,等.两类锅炉中兰炭粉和生物质混燃特性数值模拟[J].洁净煤技术,2019,25(4):72-79.

LI Meijun,CHENG Xiaolei,YANG Shi,et al.Numerical simulation of co-firing characteristics of pulverized semi-coke and biomass in the two different boilers[J].Clean Coal Technology,2019,25(4):72-79.

[5] 程晓磊.双锥燃烧器燃用污泥水煤浆的燃烧特性和数值模拟[J].洁净煤技术,2019,25(4):87-93.

CHENG Xiaolei.Combustion characteristics and numerical simulation of sludge coal water slurry fired by double cone combustor[J].Clean Coal Technology,2019,25(4):87-93.

[6] 徐皓鹏,任少辉,邵敬爱,等.对冲锅炉生物质气与煤粉混燃模拟研究[J].洁净煤技术,2018,24(5):61-67.

XU Haopeng,REN Shaohui,SHAO Jing'ai,et al.Numerical study on co-combustion process of biomass gas and pulverized coal in an opposed boiler[J].Clean Coal Technology,2018,24(5):61-67.

[7] 莫日根,王乃继,程晓磊.水煤浆在双锥逆喷燃烧器内燃烧过程的数值分析[J].洁净煤技术,2018,24(2):83-89.

MO Rigen,WANG Naiji,CHENG Xiaolei.Numerical analysis of coal water mixture combustion in double cone reversed injection burner[J].Clean Coal Technology,2018,24(2):83-89.

 

传统燃烧控制理论与技术

[1] 朱超,吴鹏举,王永庆,等.超超临界锅炉流动不稳定性的形成机理及研究进展[J].洁净煤技术,2020,26(1):32-40.

ZHU Chao,WU Pengju,WANG Yongqing,et al.Formation mechanism and research progress of flow instability in ultra-supercritical boiler[J].Clean Coal Technology,2020,26(1):32-40.

[2] 周建明,崔豫泓,贾楠,等.煤粉工业锅炉技术发展及应用[J].洁净煤技术,2020,26(1):41-51.

ZHOU Jianming,CUI Yuhong,JIA Nan,et al.Development and application of the technology of pulverized coal industrial boiler[J].Clean Coal Technology,2020,26(1):41-51.

[3] 仝声,王治宙,康亚倩,等.碱金属氯化物对金属材料的高温腐蚀特性研究[J].洁净煤技术,2020,26(1):77-82.

TONG Sheng,WANG Zhizhou,KANG Yaqian,et al.Studies on high temperature corrosion characteristics of alkali metal chloride to metal materials[J].Clean Coal Technology,2020,26(1):77-82.

[4] 邓晓川,胡龙彬,李斌,等.1 000 MW机组低温省煤器及烟道流场模拟优化研究[J].洁净煤技术,2019,25(6):158-164.

DENG Xiaochuan,HU Longbin,LI Bin,et al.Simulation and optimization study of low temperature economizer and flue flow field of 1 000 MW unit[J].Clean Coal Technology,2019,25(6):158-164.

[5] 罗伟.环形逆向射流流场结构特性的模拟研究[J].洁净煤技术,2019,25(5):80-85.

LUO Wei.Numerical simulation study on the structural characteristics of annular counterflow jets flow field [J].Clean Coal Technology,2019,25(5):80-85.

[6] 刘贤东,张扬,杨海瑞,等.循环流化床返料阀结构对循环流率动态响应特性的影响[J].洁净煤技术,2019,25(3):94-99.

LIU Xiandong,ZHANG Yang,YANG Hairui,et al.Effect of loop seal structure of circulating fluidized bed on the dynamic response characteristics of circulating flow rate[J].Clean Coal Technology,2019,25(3):94-99.

[7] 李智,张仲侬,娄春.大型燃煤锅炉内辐射熵产及辐射火用试验研究[J].洁净煤技术,2019,25(3):88-93.

LI Zhi,ZHANG Zhongnong,LOU Chun.Experimental investigation on radiative entropy generation and radiative exergy in a large coal-fired boiler[J].Clean Coal Technology,2019,25(3):88-93.

[8] 高毅,姚凯,张海丹,等.1 000 MW超超临界锅炉折焰角斜坡积灰与塌灰计算分析[J].洁净煤技术,2019,25(2):114-119.

GAO Yi,YAO Kai,ZHANG Haidan,et al.Calculation and analysis of ash deposition and collapse at the furnace arch of 1 000 MW ultra-supercritical coal-fired boiler[J].Clean Coal Technology,2019,25(2):114-119.

[9] 胡南,徐梦,杨海瑞,等.循环流化床锅炉炉膛横向温度非均匀性模型研究[J].洁净煤技术,2019,25(2):102-107.

HU Nan,XU Meng,YANG Hairui,et al.Modeling study on lateral temperature non-uniformity in CFB boiler furnace[J].Clean Coal Technology,2019,25(2):102-107.

[10] 杨帆,郑雄,李建波,等.下行移动床颗粒流动特性冷模试验研究[J].洁净煤技术,2019,25(2):89-95.

YANG Fan,ZHENG Xiong,LI Jianbo,et al.Experimental study on the particle flow characteristics in a downward moving bed[J].Clean Coal Technology,2019,25(2):89-95.

[11] 张红霞,王玉召,张海.动态分离器内部流场的PIV测量[J].洁净煤技术,2019,25(2):76-82.

ZHANG Hongxia,WANG Yuzhao,ZHANG Hai.PIV measurement of flow field in dynamic separator[J].Clean Coal Technology,2019,25(2):76-82.

[12] 周怀春,范海鸿,赵钧,等.燃煤电站锅炉总风量跟随负荷控制理念分析[J].洁净煤技术,2019,25(2):18-24.

ZHOU Huaichun,FAN Haihong,ZHAO Jun,et al.Analysis of control of total air flowrate following load demand for coal-fired utility boilers[J].Clean Coal Technology,2019,25(2):18-24.

[13] 翟永强,杨永伟,张路涛,等.风扇磨出口氧量对塔式炉燃烧特性影响数值模拟[J].洁净煤技术,2018,24(1):60-65.ZHAI Yongqiang,YANG Yongwei,ZHANG Lutao,et al.Numerical simulation on combustion optimization of tower furnace with change of oxygen content of fan mill[J].Clean Coal Technology,2018,24(1):60-65.

[14] 马仑,汪涂维,方庆艳,等.混煤燃烧过程中的交互作用:过量空气系数对混煤燃尽特性的影响[J].洁净煤技术,2017,23(4):42-46.

Ma Lun,Wang Tuwei,Fang Qingyan,et al.Interaction of blended-coal combustion process:Influence of excess air coefficient on burnout characteristics[J].Clean Coal Technology,2017,23(4):42-46.

[15] 武建军,郭凡辉,孙少杰,等.中国民用煤洁净化利用现状及展望[J].洁净煤技术,2017,23(4):1-11.

Wu Jianjun,Guo Fanhui,Sun Shaojie,et al.Status and prospect of cleaning utilization of civil coal in China[J].Clean Coal Technology,2017,23(4):1-11.

 

低氮燃烧关键技术

[1] 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.

[2] 陈涛,于洁,赵鹏,等.420 t/h四角切圆锅炉低氮燃烧改造数值模拟研究[J].洁净煤技术,2019,25(5):73-79.

CHEN Tao,YU Jie,ZHAO Peng,et al.Numerical si mulation of low NOxburner retrofit of a 420 t/h tangentially lean coal-fired boiler[J].Clean Coal Technology,2019,25(5):73-79.

[3] 魏增涛,程智海,郭永红.超临界对冲旋流燃烧锅炉低氮改造[J].洁净煤技术,2017,23(3):106-111.

Wei Zengtao,Cheng Zhihai,Guo Yonghong.Low NOx improvement scheme of supercritical swirling combustion boiler[J].Clean Coal Technology,2017,23(3):106-111.

[4] 肖寒,蒙晨玮,吴玉新,等.燃尽风率对二次再热锅炉热量分配及NOx的影响[J].洁净煤技术,2019,25(4):80-86.

XIAO Han,MENG Chenwei,WU Yuxin,et al.Influence of over fire air ratio on heat absorption and NOx of a double reheated boiler[J].Clean Coal Technology,2019,25(4):80-86.

[5] 伍俊宇,陈涛,于洁,等.300 MW四角切圆贫煤锅炉三次风布置对NOx排放的影响[J].洁净煤技术,2019,25(4):65-71.

WU Junyu,CHEN Tao,YU Jie,et al.Influence of tertiary air arrangement on NOx emissions in a 300 MW tangentially lean coal-fired boiler[J].Clean Coal Technology,2019,25(4):65-71.

[6] 颜祝明,马仑,叶骥,等.深度空气分级下混煤未燃尽碳与NOx协同优化数值模拟[J].洁净煤技术,2019,25(3):82-87.

YAN Zhuming,MA Lun,YE Ji,et al.Numerical simulation of synergistic optimization of un-burned carbon and NOx of blended coal under deep air staging condition[J].Clean Coal Technology,2019,25(3):82-87.

[7] 杨协和,蔡润夏,张扬,等.空气分级技术对焙烧炉内煤气燃烧NOx生成的影响[J].洁净煤技术,2019,25(3):75-81.

YANG Xiehe,CAI Runxia,ZHANG Yang,et al.Effect of air grading technology on NOxformation of coal gas combustion in a calciner[J].Clean Coal Technology,2019,25(3):75-81.

[8] 陈登高,李振山,蔡宁生.煤粉空气分级燃烧中还原性气氛的模拟预测及分析[J].洁净煤技术,2019,25(1):109-122.

CHEN Denggao,LI Zhenshan,CAI Ningsheng.Numerical simulation and analysis of reductive atmosphere in air staged pulverized coal combustion[J].Clean Coal Technology,2019,25(1):109-122.

[9] 王鹏涛,王乃继,程晓磊,等.煤粉工业锅炉空气深度分级数值模拟研究[J].洁净煤技术,2018,24(5):68-76.

WNAG Pengtao,WANG Naiji,CHENG Xiaolei,et al.Numerical simulation of deep air-staged technology in pulverized coal industrial boiler[J].Clean Coal Technology,2018,24(5):68-76.

[10] 兰艳旭,王晖,邱福岗,等.乏气风布置对“W”型火焰锅炉低氮燃烧特性的影响[J].洁净煤技术,2017,23(6):76-82.

LAN Yanxu,WANG Hui,QIU Fugang,et al.Influence of tertiary air arrangement on low-NOxcombustion characteristics for a "W" type flame boiler[J].Clean Coal Technology,2017,23(6):76-82.

 

新型燃烧技术研究

[1] 吴柯,鲍中凯,段伦博,等.燃煤sCO2布雷顿循环及其工质传热特性研究进展[J].洁净煤技术,2020,26(1):9-21.

WU Ke,BAO Zhongkai,DUAN Lunbo,et al.Research progress on supercritical CO2 Brayton cycle and its working fluid heat transfer characteristics for coal-fired power generation [J].Clean Coal Technology,2020,26(1):9-21.

[2] 彭潮,兰彦冰,邹春,等.煤粉富氧燃烧着火温度预测的优化随机森林(GA-RF)模型[J].洁净煤技术,2020,26(1):71-76.

PENG Chao,LAN Yanbing ,ZOU Chun,et al.Prediction of ignition temperature of pulverized coal under oxy-fuel combustion condition based on optimized random forest(GA-RF) model[J].Clean Coal Technology,2020,26(1):71-76.

[3] 闫小川,张宝军,王调妮,等.纳米CaO-Fe(Cp)2复合催化剂对烟煤燃烧性能的影响[J].洁净煤技术,2019,25(6):126-131.

YAN Xiaochuan,ZHANG Baojun,WANG Tiaoni,et al.Effect of composite catalyst of nano-scale CaO supported ferrocene on combustion characteristics of bituminous coal[J].Clean Coal Technology,2019,25(6):126-131.

[4] 张恬,闫凯,乌晓江,等.O2/CO2气氛下烟气物性参数对燃煤锅炉对流传热影响的模拟研究[J].洁净煤技术,2019,25(1):123-130.

ZHANG Tian,YAN Kai,WU Xiaojiang,et al.Effect of flue gas physical properties on convective heat transfer of coal-fired boiler in O2/CO2 atmosphere[J].Clean Coal Technology,2019,25(1):123-130.

[5] 杜杰,戴高峰,李帅帅,等.气化细渣基础燃烧特性试验研究[J].洁净煤技术,2019,25(2):83-88.

DU Jie,DAI Gaofeng,LI Shuaishuai,et al.Experimental study on the fundamental combustion characteristics of fine slag from gasification[J].Clean Coal Technology,2019,25(2):83-88.

[6] 段晓丽,张彦迪,朱晨钊,等.五彩湾煤在O2/CO2燃烧条件下的积灰特性[J].洁净煤技术,2019,25(2):53-61.

DUAN Xiaoli,ZHANG Yandi,ZHU Chenzhao,et al.Ash deposition characteristics of Wucaiwan coal under the combustion condition of O2/CO2[J].Clean Coal Technology,2019,25(2):53-61.

[7] 刘兴,和宇,卢旭超,等.煤粉热解气化耦合燃烧超低氮燃烧技术进展[J].洁净煤技术,2019,25(2):32-37.

LIU Xing,HE Yu,LU Xuchao,et al.Review of ultra-low NOx combustion technology of pulverized coal pyrolysis and gasfication coupled with combustion[J].Clean Coal Technology,2019,25(2):32-37.

[8] 曹忠耀,张守玉,黄小河,等.生物质预处理制成型燃料研究进展[J].洁净煤技术,2019,25(1):12-20.

CAO Zhongyao,ZHANG Shouyu,HUANG Xiaohe,et al.Research progress on the briquette prepared from pretreated biomss[J].Clean Coal Technology,2019,25(1):12-20.

[9] 祝鑫阳,张立麒,罗俊伟,等.O2和水蒸气对煤粉MILD燃烧影响的数值模拟[J].洁净煤技术,2018,24(3):68-74.

ZHU Xinyang,ZHANG Liqi,LUO Junwei,et al.Numerical simulation of effect of water vapor and oxygen concentration on pulverized coal MILD combustion[J].Clean Coal Technology,2018,24(3):68-74.

 

粉煤灰回收利用技术

[1] 王敏,王辉,杨海瑞,等.准东煤灰提取氧化铝和白炭黑技术研究[J].洁净煤技术,2020,26(1):194-206.

WANG Min,WANG Hui,YANG Hairui,et al.Study on the technology of extracting Al2O3 and SiO2 from Zhundong coal ash[J].Clean Coal Technology,2020,26(1):194-206.

[2] 王庭苇,郑正旗,贺行洋,等.粉煤灰用于橡胶的研究现状及展望[J].洁净煤技术,2019,25(5):24-29.

WANG Tingwei,ZHENG Zhengqi,HE Xingyang,et al.Research progress and prospect of pulverized fly ash in rubber[J].Clean Coal Technology,2019,25(5):24-29.

[3] 张建波,李占兵,杨晨年,等.粉煤灰中非晶态硅赋存形态及定量分析方法研究[J].洁净煤技术,2019,25(3):116-121.

ZHANG Jianbo,LI Zhanbing,YANG Chennian,et al.Investigation on the occurrence morphology and quantitative analysis of amorphous silicon in coal fly ash[J].Clean Coal Technology,2019,25(3):116-121.

[4] 竹小宇,黄科林,孙振华,等.高铝粉煤灰碱法提铝过程镓的吸附研究[J].洁净煤技术,2019,25(4):137-144.

ZHU Xiaoyu,HUANG Kelin,SUN Zhenhua,et al.Adsorption of gallium in alkali extraction of aluminum from high alumina fly ash[J].Clean Coal Technology,2019,25(4):137-144.

[5] 胡永健,王志刚,付世辉,等.粉煤灰焙烧活化过程中矿物质变化规律[J].洁净煤技术,2018,24(6):55-59.

HU Yongjian,WANG Zhigang,FU Shihui,et al.Mineral change law of coal fly ash in the process of roasting activation[J].Clean Coal Technology,2018,24(6):55-59.

[6] 王英明,姜亮,董彦博,等.粉煤灰基地质聚合物制备条件和孔隙结构与Cu2+吸附性能[J].洁净煤技术,2018,24(5):120-125,131.

WANG Yingming,JIANG Liang,DONG Yanbo,et al.Preparation condition and Cu2+ adsorption properties of fly ash based geopolymer[J].Clean Coal Technology,2018,24(5):120-125,131.

[7] 胡朋朋,张建波,李少鹏,等.基于高铝粉煤灰的堇青石-莫来石复合材料制备[J].洁净煤技术,2018,24(5):113-119.

HU Pengpeng,ZHANG Jianbo,LI Shaopeng,et al.Preparation of cordierite-mullite composite from high-alumina coal fly ash[J].Clean Coal Technology,2018,24(5):113-119.

[8] 李晓光,丁书强,卓锦德,等.粉煤灰提取氧化铝技术研究现状及工业化进展[J].洁净煤技术,2018,24(5):1-11.

LI Xiaoguang,DING Shuqiang,JOW Jinder,et al.Research status and industrialization progress of extracting Al2O3 from fly ash[J].Clean Coal Technology,2018,24(5):1-11.

[9] 段雪蕾,卓锦德,董阳,等.基于双气氛热重法的粉煤灰碳含量测定[J].洁净煤技术,2018,24(4):146-150.

DUAN Xuelei,JOW Jinder,DONG Yang,et al.Dual atmosphere thermogravimetric test method to measure carbon content of fly ash[J].Clean Coal Technology,2018,24(4):146-150.

[10] 王霞,卓锦德,季宏伟,等.分级粉煤灰对地质聚合物发泡材料性能的影响[J].洁净煤技术,2018,24(4):136-140.

WANG Xia,JOW Jinder,JI Hongwei,et al.Influence of the separated fly ash on the performance of geopolymer foam material[J].Clean Coal Technology,2018,24(4):136-140.

[11] 李会泉,张建波,王晨晔,等.高铝粉煤灰伴生资源清洁循环利用技术的构建与研究进展[J].洁净煤技术,2018,24(2):1-8.

LI Huiquan,ZHANG Jianbo,WANG Chenye,et al.Construct and research advance in clean and cyclic utilizations of associated resources in highalumina coal fly ash[J].Clean Coal Technology,2018,24(2):1-8.

[12] 宿 宇,方华峰.我国粉煤灰相关政策研究[J].洁净煤技术,2016,22(4):52-55,61.SU Yu,FANG Huafeng.Research on fly ash policy in China[J].Clean Coal Technology,2016,22(4):52-55,61.

 

煤化工废水处理技术

[1] 彭思伟,何绪文,白玉勇,等.基于催化臭氧氧化去除煤化工废水中污染物——苯系物[J].洁净煤技术,2020,26(1):207-212.

PENG Siwei,HE Xuwen,BAI Yuyong,et al.Removal of benzenes from coal chemical wastewater by catalytic ozonation[J].Clean Coal Technology,2020,26(1):207-212.

[2] 竹涛,袁前程,金鑫睿,等.火电行业废水排放绩效评估[J].洁净煤技术,2020,26(1):213-220.

ZHU Tao,YUAN Qiancheng,JIN Xinrui,et al.Performance evaluation of waste water discharge in thermal power[J].Clean Coal Technology,2020,26(1):213-220.

[3] 边岳,苏鑫,何红兴,等.煤粉对选矿废水中乙硫氮的吸附特性研究[J].洁净煤技术,2019,25(6):171-176.

BIAN Yue,SU Xin,HE Hongxing,et al.Study on adsorption characteristics of diethyldithiocarbamate in mineral processing wastewater by coal[J].Clean Coal Technology,2019,25(6):171-176.

[4] 张超,王吉坤,王宏义,等.臭氧催化氧化对固定床蒸氨脱酚废水COD去除效果研究[J].洁净煤技术,2019,25(6):165-170.

ZHANG Chao,WANG Jikun,WANG Hongyi,et al.Study on the removal effect of ozone catalytic oxidation on COD from the steam ammonia dephenolic wastewater in fixed bed[J].Clean Coal Technology,2019,25(6):165-170.

[5] 付楚芮,曲思建,董卫果,等.煤化工废水萃取脱酚流程模拟[J].洁净煤技术,2017,23(3):94-99.

Fu Churui,Qu Sijian,Dong Weiguo,et al.Process simulation of extraction and removal of phenol from coal chemical wastewater[J].Clean Coal Technology,2017,23(3):94-99.

[6] 闫博华,李希龙,蒋庆,等.焦粉吸附深度处理焦化废水研究[J].洁净煤技术,2019,25(1):160-167.

YAN Bohua,LI Xilong,JIANG Qing,et al.Study on advanced treatment of coking wastewater by coke powder adsorption[J].Clean Coal Technology,2019,25(1):160-167.

[7] 何灿,陈卓苗,李懿南,等.不同高级氧化工艺处理焦化废水二级生化工艺出水研究[J].洁净煤技术,2019,25(3):122-128.

HE Can,CHEN Zhuomiao,LI Yi'nan,et al.Treatment of the secondary biochemical effluent from coking wastewater by different advanced oxidation processes[J].Clean Coal Technology,2019,25(3):122-128.

[8] 马双忱,别璇,孙尧,等.湿法脱硫烟气水回收技术研究进展[J].洁净煤技术,2019,25(1):64-70.

MA Shuangchen,BIE Xuan,SUN Yao,et al.Research progress on flue gas water recovery technology in wet FGD[J].Clean Coal Technology,2019,25(1):64-70.

[9] 刘转年,邵华帆,韩晓刚,等.煤基聚苯胺对苯酚废水的吸附性能和机理研究[J].洁净煤技术,2018,24(1):136-141.

LIU Zhuannian,SHAO Huafan,HAN Xiaogang,et al.Adsorption properties and mechanism of coal-based polyaniline to phenol wastewater[J].Clean Coal Technology,2018,24(1):136-141.

[10] 王吉坤,杜松.络合萃取脱酚工艺性能试验[J].洁净煤技术,2018,24(1):90-95.

WANG Jikun,DU Song.Experiment on the performance of complexation extraction process[J].Clean Coal Technology,2018,24(1):90-95.

[11] 董卫果,王吉坤,周 娜,等.固定床气化废水酚回收技术的现状及发展[J].洁净煤技术,2017,23(1):91-94.

DONG Weiguo,WANG Jikun,ZHOU Na,et al.Status and development of phenol removal technologies of fixed bed gasification waste water[J].Clean Coal Technology,2017,23(1):91-94.

[12] 崔粲粲,梁 睿,罗 霂,等.现代煤化工含盐废水处理技术进展及对策建议[J].洁净煤技术,2016,22(6):95-100,65.

CUI Cancan,LIANG Rui,LUO Mu,et al.Research progress and suggestion of coal chemical salty waste water treatment technologies[J].Clean Coal Technology,2016,22(6):95-100,65.

[13] 陆小泉.煤化工废水处理技术进展及发展方向[J].洁净煤技术,2016,22(4):126-131.

LU Xiaoquan.Progress and development of coal chemical industrial wastewater treatment technologies[J].Clean Coal Technology,2016,22(4):126-131.

 

煤气化技术

[1] 曲江山,张建波,孙志刚,等.煤气化渣综合利用研究进展[J].洁净煤技术,2020,26(1):184-193.

QU Jiangshan,ZHANG Jianbo,SUN Zhigang,et al.Research progress on comprehensive utilization of coal gasification slag[J].Clean Coal Technology,2020,26(1):184-193.

[2] 方薪晖,安海泉,刘臻,等.煤粉加压密相输送特性研究[J].洁净煤技术,2019,25(5):59-65.

FANG Xinhui,AN Haiquan,LIU Zhen,et al.Study on characteristics of the dense phase transportation of pulverized coal pressure[J].Clean Coal Technology,2019,25(5):59-65.

[3] 臧雪晶,陈亚飞,董卫果,等.低焦油固定床气化研究进展[J].洁净煤技术,2019,25(5):30-38.

ZANG Xuejing,CHEN Yafei,DONG Weiguo,et al.Research progress on low tar fixed bed gasification[J].Clean Coal Technology,2019,25(5):30-38.

[4] 邹震江,陈贵锋,董卫果,等.固定床熔渣气化高速射流区气固运动行为研究[J].洁净煤技术,2017,23(3):45-50.

Zou Zhenjiang,Chen Guifeng,Dong Weiguo,et al.Research on the gas-solid two-phase movement behavior in turbulent flow region of fixed bed slagging gasifier[J].Clean Coal Technology,2017,23(3):45-50.

[5] 曾梅,赵蒙,徐红东,等.基于等转化率法的煤焦-CO2气化动力学研究[J].洁净煤技术,2017,23(3):33-38.

Zeng Mei,Zhao Meng,Xu Hongdong,et al.Study on gasification kinetics of char-CO2reaction by iso-conversional method[J].Clean Coal Technology,2017,23(3):33-38.

[6] 李寒旭,毛立睿,陶然,等.含钙和含铁矿物对粉煤气化堵渣的影响机理[J].洁净煤技术,2019,25(1):103-108.

LI Hanxu,MAO Lirui,TAO Ran,et al.Effect mechanism of calcium-bearing and iron-bearing minerals on slag blockage of pulverized coal gasification[J].Clean Coal Technology,2019,25(1):103-108.

[7] 樊红莉,李风海,黄戒介.神木煤焦与流化床气化带出细粉的CO2气化特性[J].洁净煤技术,2019,25(1):98-102.

FAN Hongli,LI Fenghai,HUANG Jiejie.CO2 gasification properties of coal chars and fine chars from fluidized bed gasification of Shenmu coal[J].Clean Coal Technology,2019,25(1):98-102.

[8] 吾买尔江·卡瓦,林雄超,杨远平,等.新疆高碱煤四喷嘴气化炉结渣特性研究[J].洁净煤技术,2019,25(3):62-67.

KAWA Omarjiang,LIN Xiongchao,YANG Yuanping,et al.Study on the slagging characteristics of Xinjiang high-alkali coal in four-nozzle gasifier[J].Clean Coal Technology,2019,25(3):62-67.

[9] 葛晓东.低温甲醇洗典型异常工况尾气硫含量模拟控制及优化[J].洁净煤技术,2019,25(4):26-32.

GE Xiaodong.Simulation and optimization of sulfur content of tail gas under typical abnormal operation conditions of rectisol[J].Clean Coal Technology,2019,25(4):26-32.

[10] 曲洋.长焰煤热碎半焦的成型-干燥特性研究[J].洁净煤技术,2019,25(4):20-25.

QU Yang.Research on molding-drying characteristics of heat fragmentation semi-coke of flame coal[J].Clean Coal Technology,2019,25(4):20-25.

[11] 胡文豪,张建波,李少鹏,等.煤气化渣制备聚合氯化铝工艺研究[J].洁净煤技术,2019,25(1):154-159.

HU Wenhao,ZHANG Jianbo,LI Shaopeng,et al.Study on the preparation of polyaluminium chloride from coal gasification residue[J].Clean Coal Technology,2019,25(1):154-159.

[12] 龚泽儒,王晓娜,吕俊复,等.等离子体煤气化技术研究进展[J].洁净煤技术,2019,25(1):35-40.

GONG Zeru,WANG Xiaona,LYU Junfu,et al.Research on plasma gasification technology of coal[J].Clean Coal Technology,2019,25(1):35-40.

[13] 黄于益,梁鼎成,解强.气流床气化炉的原料反应性评价、过程强化及环境影响[J].洁净煤技术,2019,25(1):21-28.

HUANG Yuyi,LIANG Dingcheng,XIE Qiang.Feed coal reactivity evaluation,process intensification and environmental impact of entrained-flow coal gasification[J].Clean Coal Technology,2019,25(1):21-28.

[14] 黄于益,解强.气流床煤气化条件下煤(焦)气化反应性评价[J].洁净煤技术,2018,24(1):85-89.

HUANG Yuyi,XIE Qiang.Evaluation of coal/char gasification reactivity under condition of entrained flow coal gasification[J].Clean Coal Technology,2018,24(1):85-89.

 

燃煤污染物控制

[1] 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.

[2] 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.

[3] 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.

[4] 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.

[5] 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.

[6] 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.

[7] 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.

[8] 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.

[9] 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.

[10] 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.

[11] 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.

[12] 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(2):25-31.

[13] 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.

[14] 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.

[15] 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.

[16] 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):105-109.

[17] 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.

[18] 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.

[19] 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.

[20] 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.

[21] 娄彤,方晓东,陆明智,等.燃煤烟气多污染物协同治理试验研究[J].洁净煤技术,2018,24(5):132-135,141.

LOU Tong,FANG Xiaodong,LU Mingzhi,et al.Experimental study on synergistic treatment of multi-pollutants from coal-fired flue gas[J].Clean Coal Technology,2018,24(5):132-135,141.

[22] 祝鑫阳,张立麒,罗俊伟,等.O2和水蒸气对煤粉MILD燃烧影响的数值模拟[J].洁净煤技术,2018,24(3):68-74.

ZHU Xinyang,ZHANG Liqi,LUO Junwei,et al.Numerical simulation of effect of water vapor and oxygen concentration on pulverized coal MILD combustion[J].Clean Coal Technology,2018,24(3):68-74.

[23] 汪伟,祁云,齐庆杰.燃煤过程中卤族元素-溴的析出行为及治理研究[J].洁净煤技术,2017,23(4):71-76.

Wang Wei,Qi Yun,Qi Qingjie.Separation behavior and Governance Research of halogen-bromine in coal combustion process[J].Clean Coal Technology,2017,23(4):71-76.

[24] 王贺飞,王春波,邹潺,等.燃煤过程中水蒸气对砷释放特性的影响[J].洁净煤技术,2017,23(4):53-57,62.

Wang Hefei,Wang Chunbo,Zou Chan,et al.Effect of steam on arsenic volatile characteristics during coal combustion[J].Clean Coal Technology,2017,23(4):53-57,62.

[25] 李壮扬,苏乐春,宋子健,等.660 MW燃煤机组SCR流场模拟优化与喷氨优化运行[J].洁净煤技术,2017,23(4):47-52,11.

Li Zhuangyang,Su Lechun,Song Zijian,et al.Optimization of flow and ammonia injection by numerical simulation of SCR for a 660 MW coal-fired unit[J].Clean Coal Technology,2017,23(4):47-52,11.

[26] 周煜明,杨建平,赵永椿,等.可循环再生吸附剂脱汞技术现状及发展趋势[J].洁净煤技术,2017,23(4):29-35.

Zhou Yuming,Yang Jianping,Zhao Yongchun,et al.Review of regenerable sorbents for mercury removal from coal-fired flue gas[J].Clean Coal Technology,2017,23(4):29-35.

[27] 马双忱,温佳琪,万忠诚,等.中国燃煤电厂脱硫废水处理技术研究进展及标准修订建议[J].洁净煤技术,2017,23(4):18-28,35.

Ma Shuangchen,Wen Jiaqi,Wan Zhongcheng,et al.Treatment progress and standard modification suggestion for FGD wastewater from coal-fire power plants in China[J].Clean Coal Technology,2017,23(4):18-28,35.

[28] 何绪文.民用燃煤大气污染物控排技术对策[J].洁净煤技术,2017,23(4):12-17.

He Xuwen.Countermeasure of air pollutant controlled pollutation for civilian coal[J].Clean Coal Technology,2017,23(4):12-17.

 

炭材料

[1] 张天开,王琪,张永发.煤基碳纳米管制备技术和生长机理研究进展[J].洁净煤技术,2020,26(1):139-150.

ZHANG Tiankai,WANG Qi,ZHANG Yongfa.Research progress on preparation technology and growth mechanism of coal-based carbon nanotubes[J].Clean Coal Technology,2020,26(1):139-150.

[2] 李双双,秦志宏,杨小芹,等.Ni(OH)2与不同碳质材料复合制备超级电容器电极材料研究进展[J].洁净煤技术,2020,26(1):121-128.

LI Shuangshuang,QIN Zhihong,YANG Xiaoqin,et al.Research progress on composite of Ni(OH)2 with different carbonaceous materials as electrode material for supercapacitors[J].Clean Coal Technology,2020,26(1):121-128.

[3] 杜俊涛,聂毅,吕家贺,等.中间相炭微球在锂离子电池负极材料的应用进展[J].洁净煤技术,2020,26(1):129-138.

DU Juntao,NIE Yi,LYU Jiahe,et al.Application progress on mesocarbon microbeads as anode materials for lithium ion batteries[J].Clean Coal Technology,2020,26(1):129-138.

[4] 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.

[5] 张进华,曲思建,王鹏,等.变压吸附法提纯煤层气中甲烷研究进展[J].洁净煤技术,2019,25(6):78-87.

ZHANG Jinhua,QU Sijian,WANG Peng,et al.Research progress on the recovery of methane from coalbed methane by pressure swing adsorption[J].Clean Coal Technology,2019,25(6):78-87.

[6] 刘迎宾,黄光许,李媛媛,等.煤系腐植酸基层次孔炭的制备及电化学性能[J].洁净煤技术,2019,25(1):148-153.

LIU Yingbin,HUANG Guangxu,LI Yuanyuan,et al.Electrochemical performance of hierarchical porous carbons prepared from coal based humic acid[J].Clean Coal Technology,2019,25(1):148-153.

[7] 罗化峰,乔元栋,徐青云,等.大同煤温和超临界热溶-炭化耦合转化过程研究[J].洁净煤技术,2019,25(1):142-147.

LUO Huafeng,QIAO Yuandong,XU Qingyun,et al.Study on conversion process by mild supercritical thermal extraction coupled with carbonization technology of Datong coal[J].Clean Coal Technology,2019,25(1):142-147.

[8] 鲍倜傲,王振帅,马爱玲,等.新型煤基微晶炭的制备及电容特性研究[J].洁净煤技术,2019,25(3):68-74.

BAO Ti'ao,WANG Zhenshuai,MA Ailing,et al.Preparation and capacitance characteristics study of new coal-based microcrystalline carbon[J].Clean Coal Technology,2019,25(3):68-74.

[9] 李对春,邢斌,刘红艳,等.Fe,Co,Ni改性SAPO-34分子筛上MTO反应的理论研究[J].洁净煤技术,2018,24(5):103-112.

LI Duichun,XING Bin,LIU Hongyan,et al.Theoretically study of MTO conversion on Fe,Co and Ni modified SAPO-34 zeolite[J].Clean Coal Technology,2018,24(5):103-112.

[10] 蒋煜,刘德钱,解强.我国煤基活性炭生产技术现状及发展趋势[J].洁净煤技术,2018,24(1):26-32.

JIANG Yu,LIU Deqian,XIE Qiang.Status and development trend of coal-based activated carbon production technology in China[J].Clean Coal Technology,2018,24(1):26-32.

[11] 吴倩,梁大明,王鹏,等.活性炭酸碱法脱灰的研究现状与展望[J].洁净煤技术,2017,23(6):11-16.

WU Qian,LIANG Daming,WANG Peng,et al.Research progress and prospect of acid-alkali demineralization with activated carbon [J].Clean Coal Technology,2017,23(6):11-16.

[12] 李兰廷.煤层气浓缩用碳分子筛的研制及性能研究[J].洁净煤技术,2016,22(2):1-4,8.

LI Lanting.Preparation and separation performances of carbon molecular sieve for coal-bed methane purification[J].Clean Coal Technology,2016,22(2):1-4,8.

 

煤液化技术

[1] 胡发亭,王学云,毛学锋,等.煤直接液化制油技术研究现状及展望[J].洁净煤技术,2020,26(1):99-109.

HU Fating,WANG Xueyun,MAO Xuefeng,et al.Research progress and prospect of direct liquefaction technology from coal to oil[J].Clean Coal Technology,2020,26(1):99-109.

[2] 王学云,胡发亭,王光耀.煤间接液化合成油技术研究现状及展望[J].洁净煤技术,2020,26(1):110-120.

WANG Xueyun,HU Fating,WANG Guangyao.Research status and prospect of coal indirect liquefaction synthetic oil technology[J].Clean Coal Technology,2020,26(1):110-120.

[3] 赵渊,王光耀.煤焦油加氢油品中重质芳烃的溶剂萃取规律[J].洁净煤技术,2019,25(5):66-72.

ZHAO Yuan,WANG Guangyao.Solvent extraction rules of heavy aromatics in products generated by hydrogenation of coal tar[J].Clean Coal Technology,2019,25(5):66-72.

[4] 常卫科,徐洁,孙伟,等.煤液化残渣中硫的迁移和转化研究现状及展望[J].洁净煤技术,2017,23(3):1-6,15.

Chang Weike,Xu Jie,Sun Wei,et al.Research progress and prospect of sulfur migration and transformation in coal liquefaction residue[J].Clean Coal Technology,2017,23(3):1-6,15.

[5] 常鸿雁,张元新,李克健,等.热聚合温度对煤液化沥青制备中间相沥青的影响[J].洁净煤技术,2017,23(3):76-80.

Chang Hongyan,Zhang Yuanxin,Li Kejian,et al.Effect of temperature on the preparation of mesophase pitch from coal liquefaction pitch[J].Clean Coal Technology,2017,23(3):76-80.

[6] 杜冰,王涛,刘潇,等.高温对浆态床中Fe-Cu-K-Si催化剂费托合成反应性能的影响[J].洁净煤技术,2017,23(3):51-55.

Du Bing,Wang Tao,Liu Xiao,et al.Effect of high temperature on the performance of Fe-Cu-K-Si catalyst for Fischer-Tropsch synthesis in slurry phase[J].Clean Coal Technology,2017,23(3):51-55.

[7] 钟金龙,毛学锋,朱肖曼.渣油加氢转化过程结焦物分析与表征[J].洁净煤技术,2019,25(4):46-51.

ZHONG Jinlong,MAO Xuefeng,ZHU Xiaoman.Analyzation and characterization of coke in petroleum residue hydro-conversion process[J].Clean Coal Technology,2019,25(4):46-51.

[8] 赵鹏.新疆东疆褐煤直接加氢液化特性[J].洁净煤技术,2019,25(4):40-45.

ZHAO Peng.Direct hydroliquefaction characteristics of lignite in eastern area of Xinjiang[J].Clean Coal Technology,2019,25(4):40-45.

[9] 盛英,张胜振,梁文斌,等.煤直接液化沥青基道路改性沥青老化性能研究[J].洁净煤技术,2019,25(4):33-39.

SHENG Ying,ZHANG Shengzhen,LIANG Wenbin,et al.Study on the aging properties of coal direct liquefaction asphalt-road modified asphalt[J].Clean Coal Technology,2019,25(4):33-39.

[10] 胡发亭,颜丙峰,王光耀,等.我国煤制燃料油技术进展及工业化现状[J].洁净煤技术,2019,25(1):57-63.

HU Fating,YAN Bingfeng,WANG Guangyao,et al.Technical progress and industrialization status of coal to fuel oil in China[J].Clean Coal Technology,2019,25(1):57-63.

[11] 胡发亭,赵渊,颜丙峰.重质油和低阶煤共加氢油煤浆的黏温特性[J].洁净煤技术,2018,24(6):49-54.HU Fating,ZHAO Yuan,YAN Bingfeng.Study on viscosity-temperature characteristics of coal-oil slurry in heavy oil and low rank coal hydro-coprocessing[J].Clean Coal Technology,2018,24(6):49-54.

[12] 胡发亭,李军芳.我国典型重质油供氢及热解性能[J].洁净煤技术,2018,24(5):56-60,67.

HU Fating,LI Junfang.Hydrogen supply and pyrolysis performances of typical heavy oils in China[J].Clean Coal Technology,2018,24(5):56-60,67.

[13] 李军芳.液相色谱系统峰对煤基油品烃族组成的影响[J].洁净煤技术,2018,24(5):50-55.

LI Junfang.Effect of system peaks in liquid chromatography on hydrocarbons of coal-derived oil[J].Clean Coal Technology,2018,24(5):50-55.

[14] 谷小会.煤焦油分离方法及组分性质研究现状与展望[J].洁净煤技术,2018,24(4):1-6,12.

GU Xiaohui.Status and prospect of separation methods and composition characteristics of coal tar[J].Clean Coal Technology,2018,24(4):1-6,12.

[15] 王光耀,颜丙峰.芳烃共炭化对煤基中间相炭微球生成的影响[J].洁净煤技术,2018,24(3):51-56,62.

WANG Guangyao,YAN Bingfeng.Effect of aromatic co-carbonization on formation of coal-based mesophase carbon microbeads[J].Clean Coal Technology,2018,24(3):51-56,62.

[16] 胡发亭.煤焦油加氢裂化复合型催化剂开发及活性评价[J].洁净煤技术,2018,24(3):63-67.

HU Fating.Development and activity evaluation of complex catalyst for coal tar hydrogenation[J].Clean Coal Technology,2018,24(3):63-67.

[17] 李伟林,黄澎,赵渊,等.煤焦油重油馏分加氢裂化反应动力学[J].洁净煤技术,2018,24(3):40-45.

LI Weilin,HUANG Peng,ZHAO Yuan,et al.Kinetics of hydrocracking for heavy coal tar oil[J].Clean Coal Technology,2018,24(3):40-45.

[18] 赵鹏.固体酸催化新疆褐煤直接加氢液化研究[J].洁净煤技术,2017,23(5):13-17.

ZHAO Peng.Solid acid for hydroliquefaction of a lignite from Xinjiang[J].Clean Coal Technology,2017,23(5):13-17.

[19] 王勇.神华煤液化反应初期动力学研究[J].洁净煤技术,2017,23(2):49-55.

Wang Yong.Study on the liquefaction kinetics of Shenhua coal at initial stage[J].Clean Coal Technology,2017,23(2):49-55.

[20] 王向辉,门卓武,吕毅军,等.铁基费托催化剂还原机理及动力学研究进展[J].洁净煤技术,2017,23(2):1-7.

Wang Xianghui,Men Zhuowu,Lyu Yijun,et al.Research advances in reduction mechanism and kinetics of iron-based Fisher-Tropsch catalyst[J].Clean Coal Technology,2017,23(2):1-7.

[21] 杜 冰,刘 潇,王 涛,等.费托合成反应器应用研究进展及展望[J].洁净煤技术,2016,22(5):35-40.

DU Bing,LIU Xiao,WANG Tao,et al.Application progress and prospect of Fischer-Tropsch synthesis reactor[J].Clean Coal Technology,2016,22(5):35-40.

[22] 刘子梁,孙英杰,李卫华,等.煤间接液化工艺中气化炉渣综合利用研究进展[J].洁净煤技术,2016,22(1):118-123.

LIU Ziliang,SUN Yingjie,LI Weihua,et al.Research progress of gasification slag utilization from indirect coal liquefaction process[J].Clean Coal Technology,2016,22(1):118-123.

 

煤的灰化学

[1] 颜婷珪,白进,孔令学,等.煤灰流动性研究方法进展[J].洁净煤技术,2020,26(1):90-98.

YAN Tinggui,BAI Jin,KONG Lingxue,et al.Advances in research methods of coal ash fluidity[J].Clean Coal Technology,2020,26(1):90-98.

[2] 邵徇,张凝凝,麻栋,等.煤中典型矿物在高温下演变规律[J].洁净煤技术,2019,25(6):111-117.

SHAO Xun,ZHANG Ningning,MA Dong,et al.Evolution law of typical minerals in coal under high temperature[J].Clean Coal Technology,2019,25(6):111-117.

[3] 尹洪清.超洁净煤制备过程中矿物质的反应热力学特性[J].洁净煤技术,2018,24(4):34-39,45.

YIN Hongqing.Thermodynamic properties of minerals during the preparation of ultra-clean coal[J].Clean Coal Technology,2018,24(4):34-39,45.

[4] 张衡,张鹏启,王祖威,等.准东粉煤不均匀熔融规律研究[J].洁净煤技术,2018,24(3):91-95.

ZHANG Heng,ZHANG Pengqi,WANG Zuwei,et al.Heterogeneous ash melting behavior of pulverized Zhundong coal[J].Clean Coal Technology,2018,24(3):91-95.

[5] 王航,袁春伟,赵基钢,等.冷轧摩擦铁粉对河南九里山煤灰熔融性的影响[J].洁净煤技术,2018,24(2):79-82.

WANG Hang,YUAN Chunwei,ZHAO Jigang,et al.Effect of iron powder by cold rolled friction as flux on the melting characteristics of coal ash from Jiulishan Coal Mine in Henan province[J].Clean Coal Technology,2018,24(2):79-82.

[6] 宋明光,王群英,岳益锋,等.基于FactSage软件的煤灰熔融行为预测[J].洁净煤技术,2018,24(2):68-73.

SONG Mingguang,WANG Qunying,YUE Yifeng,et al.Prediction of coal ash melting behavior using FactSage[J].Clean Coal Technology,2018,24(2):68-73.

[7] 刘 硕,杨伏生,张小艳,等.煤灰熔融温度预测方法研究现状[J].洁净煤技术,2016,22(1):60-65.

LIU Shuo,YANG Fusheng,ZHANG Xiaoyan,et al.Research progress on prediction methods of coal ash melting temperature[J].Clean Coal Technology,2016,22(1):60-65.

 

煤热解技术

[1] 解强,梁鼎成,刘金昌.高碱低阶煤热解及热解半焦研究进展[J].洁净煤技术,2020,26(1):83-89.

XIE Qiang,LIANG Dingcheng,LIU Jinchang.Research progress on pyrolysis and pyrolysis of char of low-rank coal with high alkali [J].Clean Coal Technology,2020,26(1):83-89.

[2] 李运甲,李长明,刘周恩,等.热解焦化过程烟气末端净化关键技术与应用进展[J].洁净煤技术,2020,26(1):164-173.

LI Yunjia,LI Changming,LIU Zhouen,et al.Key technologies and application progress of flue gas purification from pyrolysis and coking process[J].Clean Coal Technology,2020,26(1):164-173.

[3] 张屿,马明明,孙鸣,等.煤原位热解研究进展[J].洁净煤技术,2019,25(6):71-77.

ZHANG Yu,MA Mingming,SUN Ming,et al.Research progress on coal in-situ pyrolysis[J].Clean Coal Technology,2019,25(6):71-77.

[4] 丁肖肖,李洪娟,王亚涛.褐煤低温热解分级利用现状分析及展望[J].洁净煤技术,2019,25(5):1-7.

DING Xiaoxiao,LI Hongjuan,WANG Yatao.Present situation analysis and prospect of classification and utilization of lignite pyrolysis at low temperature[J].Clean Coal Technology,2019,25(5):1-7.

[5] 潘凤萍,罗嘉,张煜枫,等.钙及其赋存形态对煤热解过程中氮转化的影响[J].洁净煤技术,2019,25(1):92-97.

PAN Fengping,LUO Jia,ZHANG Yufeng,et al.Effects of Ca and occurrence forms on transformation behavior of nitrogen during coal pyrolysis[J].Clean Coal Technology,2019,25(1):92-97.

[6] 曲洋.长焰煤热碎半焦的成型-干燥特性研究[J].洁净煤技术,2019,25(4):20-25.

QU Yang.Research on molding-drying characteristics of heat fragmentation semi-coke of flame coal[J].Clean Coal Technology,2019,25(4):20-25.

[7] 王岩,白效言,袁殷.中低温热解煤气热量清洁利用技术途径分析与策略建议[J].洁净煤技术,2019,25(4):1-7.

WANG Yan,BAI Xiaoyan,YUAN Yin.Approach analysis and strategy suggestions for clean utilization technology of medium and low temperature pyrolysis gas heat[J].Clean Coal Technology,2019,25(4):1-7.

[8] 杨凤玲,任磊,贾阳杰,等.煤中低温热解挥发分和硫脱除研究进展[J].洁净煤技术,2019,25(1):47-56.

YANG Fengling,REN Lei,JIA Yangjie,et al.Research progress on volatiles and sulfur removal during low temperature pyrolysis of coal[J].Clean Coal Technology,2019,25(1):47-56.

[9] 殷蒙蒙,张燕鹏,田斌,等.反应型焦生产技术研究现状及展望[J].洁净煤技术,2018,24(4):13-18.

YIN Mengmeng,ZHANG Yanpeng,TIAN Bin,et al.Present situation and forecast on production technology of reactive coke[J].Clean Coal Technology,2018,24(4):13-18.

[10] 王玉丽,陈水渺,孙宝林,等.粒径和入炉煤水分对白音华褐煤热解特性的影响[J].洁净煤技术,2018,24(3):24-28.

WANG Yuli,CHEN Shuimiao,SUN Baolin,et al.Influence of coal particle size and moisture content on pyrolysis characteristics of Baiyinhua lignite[J].Clean Coal Technology,2018,24(3):24-28.

[11] 张飏.新型低阶煤移动床热解装备中试试验研究[J].洁净煤技术,2018,24(2):51-55,61.

ZHANG Yang.Pilot test study on new moving bed equipment for low rank coal pyrolysis[J].Clean Coal Technology,2018,24(2):51-55,61.

[12] 郭龙飞,左海滨,赵骏,等.超精煤热解行为及动力学研究[J].洁净煤技术,2018,24(2):40-45,50.

GUO Longfei,ZUO Haibin,ZHAO Jun,et al.Thermal behavior and kinetics of the pyrolysis of hyper coal[J].Clean Coal Technology,2018,24(2):40-45,50.

[13] 马栋,李文博,裴贤丰,等.工艺条件对内旋式移动床停留时间的影响[J].洁净煤技术,2018,24(1):74-79.

MA Dong,LI Wenbo,PEI Xianfeng,et al.Effect of technological conditions on residence time of coal particle in internal rotating reactor[J].Clean Coal Technology,2018,24(1):74-79.

[14] 敬旭业,王坤,董鹏飞,等.240 t/d固体热载体粉煤热解工艺及中试研究[J].洁净煤技术,2018,24(1):50-56.

JING Xuye,WANG Kun,DONG Pengfei,et al.Pilot plant study on 240 t/d pulverized coal pyrolysis technology with solid heat carrier[J].Clean Coal Technology,2018,24(1):50-56.

[15] 郑化安.中低温煤热解技术研究进展及产业化方向[J].洁净煤技术,2018,24(1):13-18.

ZHENG Huaan.Research status and industrial direction of middle and low temperature coal pyrolysis technology[J].Clean Coal Technology,2018,24(1):13-18.

[16] 裴贤丰.低阶煤中低温热解工艺技术研究进展及展望[J].洁净煤技术,2016,22(3):40-44.

PEI Xianfeng.Research progress of low rank coal pyrolysis technology at medium-and-low temperature[J].Clean Coal Technology,2016,22(3):40-44.

[17] 白宗庆,白 进,李 文.焦炉煤气综合利用及CO2减排潜力分析[J].洁净煤技术,2016,22(1):90-94,100.

BAI Zongqing,BAI Jin,LI Wen.Utilization of coke oven gas in China and its potential for reduction of CO2 emission[J].Clean Coal Technology,2016,22(1):90-94,100.

[18] 孙任晖,高 鹏,刘爱国,等.低阶煤催化热解研究进展及展望[J].洁净煤技术,2016,22(1):54-59,25.

SUN Renhui,GAO Peng,LIU Aiguo,et al.Research progress and prospect of low rank coal catalytic pyrolysis[J].Clean Coal Technology,2016,22(1):54-59,25.

[19] 裴贤丰.低阶煤热转化产品特性影响因素研究及展望[J].洁净煤技术,2016,22(1):33-37.

PEI Xianfeng.Research and development of thermal conversion characteristics for low rank coal[J].Clean Coal Technology,2016,22(1):33-37.

 

煤制甲醇-烯烃-芳烃

[1] 高振,侯建国,穆祥宇,等.甲烷化技术国产化研究进展[J].洁净煤技术,2017,23(3):16-19.

Gao Zhen,Hou Jianguo,Mu Xiangyu,et al.Progress of the methanation technology in China[J].Clean Coal Technology,2017,23(3):16-19.

[2] 孙晓伟,梁旭辉,郝勇,等.MTO装置新型催化剂试验研究[J].洁净煤技术,2018,24(1):127-131.

SUN Xiaowei,LIANG Xuhui,HAO Yong,et al.Experimental study on new catalyst in the MTO unit[J].Clean Coal Technology,2018,24(1):127-131.

[3] 王琪,毛熙康,王晓龙,等.高丙烯选择性FMTP催化剂的合成及研究[J].洁净煤技术,2018,24(1):121-126.

WANG Qi,MAO Xikang,WANG Xiaolong,et al.Synthesis and characterization of high propene selectivity FMTP catalyst[J].Clean Coal Technology,2018,24(1):121-126.

[4] 巴黎明,张 峰,黄 峰,等.大型煤制烯烃工程蒸汽动力系统研究[J].洁净煤技术,2017,23(1):75-79,85.

BA Liming,ZHANG Feng,HUANG Feng,et al.Research on steam power system in larger scale coal to olefin plant[J].Clean Coal Technology,2017,23(1):75-79,85.

[5] 刘 弓,张亚秦,王邓军.甲醇制烯烃技术产业化进展[J].洁净煤技术,2016,22(5):100-102,107.

LIU Gong,ZHANG Yaqin,WANG Dengjun.Industrialization progress of methanol to olefins[J].Clean Coal Technology,2016,22(5):100-102,107.

[6] 徐瑞芳,张亚秦,刘 弓,等.煤制芳烃技术进展及发展建议[J].洁净煤技术,2016,22(5):48-52.

XU Ruifang,ZHANG Yaqin,LIU Gong,et al.Technoical progress and development suggestions of coal to aromatics[J].Clean Coal Technology,2016,22(5):48-52.

[7] 郝西维,刘秋芳,刘 弓,等.对二甲苯生产技术开发进展及展望[J].洁净煤技术,2016,22(5):25-30.

HAO Xiwei,LIU Qiufang,LIU Gong,et al.Progress and prospect of p-xylene production technologies[J].Clean Coal Technology,2016,22(5):25-30.

 

水煤浆技术

[1] 张孝雨,何国锋,李磊,等.水煤浆性能的影响因素及技术进展[J].洁净煤技术,2019,25(6):96-104.

ZHANG Xiaoyu,HE Guofeng,LI Lei,et al.Influence factors and technical progress of CWS performance[J].Clean Coal Technology,2019,25(6):96-104.

[2] 段清兵,吕向阳,徐明磊,等.三峰分形级配水煤浆提浓技术研究[J].洁净煤技术,2018,24(6):37-42.DUAN Qingbing,LYU Xiangyang,XU Minglei,et al.Study of coal water slurry concentration technology based on three-peak fractal gradation[J].Clean Coal Technology,2018,24(6):37-42.

[3] 李发林,尚庆雨,王国房,等.低阶煤制备高浓度水煤浆技术现状及发展趋势[J].洁净煤技术,2018,24(6):20-26.

LI Falin,SHANG Qingyu,WANG Guofang,et al.Progress and technology development of preparing high concentration coal water slurry from low-rank coal[J].Clean Coal Technology,2018,24(6):20-26.

[4] 杜丽伟,何红兴,蔡洪涛,等.间断级配工艺制备气化水煤浆试验研究[J].洁净煤技术,2018,24(5):38-42.

DU Liwei,HE Hongxing,CAI Hongtao,et al.Experimental study on preparation of gasification coal water slurry by gap-graded process[J].Clean Coal Technology,2018,24(5):38-42.

[5] 杨纯,陈慧,徐莹璐,等.木质素系水煤浆分散剂的制备与试验评价[J].洁净煤技术,2018,24(3):19-23.

YANG Chun,CHEN Hui,XU Yinglu,et al.Preparation and evaluation of lignin-based dispersant for coal water slurry[J].Clean Coal Technology,2018,24(3):19-23.

[6] 周永涛.三峰分形级配水煤浆提浓技术研究[J].洁净煤技术,2018,24(1):63-68,73.

ZHOU Yongtao.Three peak fractal grading coal water slurry concentration technology[J].Clean Coal Technology,2018,24(1):63-68,73.

[7] 王晓雷,陈权,仝胜录,等.水煤浆气化黑灰水系统降硬研究[J].洁净煤技术,2017,23(6):113-117.

WANG Xiaolei,CHEN Quan,TONG Shenglu,et al.Decrease of hardness of the coal water slurry gasification black ash water system[J].Clean Coal Technology,2017,23(6):113-117.

[8] 段艳松,张立麒,毛志慧,等.水煤浆MILD燃烧数值模拟研究[J].洁净煤技术,2017,23(4):36-41,46.

Duan Yansong,Zhang Liqi,Mao Zhihui,et al.Numerical simulation of MILD combustion on coal-water slurry[J].Clean Coal Technology,2017,23(4):36-41,46.

[9] 李春启.水热处理制备高浓度褐煤水煤浆技术研究进展及展望[J].洁净煤技术,2017,23(1):36-41.

LI Chunqi.Research progress and industrialization prospect of high concentration lignite water slurry prepared by hydrothermal treatment[J].Clean Coal Technology,2017,23(1):36-41.

 

煤中碱金属、微量元素

[1] 王建江,魏博,张雪慧,等.准东煤加压气化过程中Na迁移规律的热力学研究[J].洁净煤技术,2019,25(2):134-138.

WANG Jianjiang,WEI Bo,ZHANG Xuehui,et al.Thermodynamic research on Na migration rules during the pressurized gasification process of Zhundong coal[J].Clean Coal Technology,2019,25(2):134-138.

[2] 赵京,魏小林,张玉锋,等.准东煤中碱金属Na的赋存形态及含量分析[J].洁净煤技术,2019,25(2):96-101.

ZHAO Jing,WEI Xiaolin,ZHANG Yufeng,et al.Occurrence modes and content analysis of alkali metal Na in Zhundong coal[J].Clean Coal Technology,2019,25(2):96-101.

[3] 李慧君,谢兴运,赵京,等.小麦秸秆燃烧过程中碱金属释放特性[J].洁净煤技术,2019,25(2):62-68.

LI Huijun,XIE Xingyun,ZHAO Jing,et al.Release characteristics of alkali metals during wheat straw burning[J].Clean Coal Technology,2019,25(2):62-68.

[4] 高继录,盛增庆,陈晓利,等.准东煤燃烧过程中碱金属迁移规律[J].洁净煤技术,2019,25(4):100-105.

GAO Jilu,SHENG Zengqing,CHEN Xiaoli,et al.Migration law of alkali metals during Zhundong coal combustion[J].Clean Coal Technology,2019,25(4):100-105.

[5] 周玲妹,王晓兵,郭豪,等.煤中重金属赋存对其释放行为影响的研究进展[J].洁净煤技术,2018,24(6):8-13.

[6] ZHOU Lingmei,WANG Xiaobing,GUO Hao,et al.Research progress on influence of heavy metal occurrence mode on release behavior during coal conversion[J].Clean Coal Technology,2018,24(6):8-13.

[7] 赵勇纲,史航,吴玉新,等.高碱煤中碱金属及氯元素析出特性[J].洁净煤技术,2018,24(5):33-37.

ZHAO Yonggang,SHI Hang,WU Yuxin,et al.Release characteristics of alkali metal and Cl species in high alkali coal[J].Clean Coal Technology,2018,24(5):33-37.

[8] 洪 伟,张 衡,张春田,等.煤品质变化及有害元素迁移的研究进展[J].洁净煤技术,2016,22(5):108-112.

HONG Wei,ZHANG Heng,ZHANG Chuntian,et al.Research progress on coal quality changes and migration of harmful elements[J].Clean Coal Technology,2016,22(5):108-112.

 

煤结构、煤岩学及应用

[1] 王善彪,秦志宏,周婧兰,等.分子动力学模拟在煤结构及相关研究中的应用[J].洁净煤技术,2019,25(1):29-34.

WANG Shanbiao,QIN Zhihong,ZHOU Jinglan,et al.Application of molecular dynamics simulation in coal structure and related fields[J].Clean Coal Technology,2019,25(1):29-34.

[2] 赵伟,屈进州,李振,等.电浮选-电凝聚法分离煤岩显微组分的影响因素[J].洁净煤技术,2018,24(1):57-62.

ZHAO Wei,QU Jinzhou,LI Zhen,et al.Influencing factors of electroflotation-electrocoagulation seperation of coal macerals[J].Clean Coal Technology,2018,24(1):57-62.

[3] 张飏.陕北低阶烟煤显微组分结构特征及分子结构模型[J].洁净煤技术,2017,23(2):25-30.

Zhang Yang.Structure characters and molecular structure models of low-rank bituminous coal macerals in northern Shaanxi[J].Clean Coal Technology,2017,23(2):25-30.

[4] 王 岩.基于加权计算的焦煤煤岩亚组分基础特性[J].洁净煤技术,2017,23(1):13-18.

WANG Yan.Basic characteristics of coking coal submaceral based on weighted calculation[J].Clean Coal Technology,2017,23(1):13-18.

[5] 王 凤,李光跃,李莹莹,等.煤化学结构模型研究进展及应用[J].洁净煤技术,2016,22(1):26-32.

WANG Feng,LI Guangyue,LI Yingying,et al.Application and research progress of coal chemical structure model[J].Clean Coal Technology,2016,22(1):26-32.

 

煤层气综合利用

[1] 张进华,曲思建,王鹏,等.变压吸附法提纯煤层气中甲烷研究进展[J].洁净煤技术,2019,25(6):78-87.

ZHANG Jinhua,QU Sijian,WANG Peng,et al.Research progress on the recovery of methane from coalbed methane by pressure swing adsorption[J].Clean Coal Technology,2019,25(6):78-87.

[2] 李雪飞.低浓度煤层气变压吸附提质利用技术现状与展望[J].洁净煤技术,2018,24(4):19-24.

LI Xuefei.Status and prospect of quality upgrading and utilization technology by pressure swing adsorption of low concentration coal bed methane[J].Clean Coal Technology,2018,24(4):19-24.

[3] 李雪飞.低浓度煤层气提质制压缩天然气技术经济性分析[J].洁净煤技术,2018,24(1):127-133.LI Xuefei.Technical and economic analysis of compressed natural gas production with coal-bed methane[J].Clean Coal Technology,2018,24(1):127-133.

[4] 张瑜,宋鹏飞,侯建国,等.煤制合成天然气流化床甲烷化催化剂研究进展[J].洁净煤技术,2018,24(2):15-19.

ZHANG Yu,SONG Pengfei,HOU Jianguo,et al.Research progress on methanation catalyst research for synthetic natural gas from coal in fluidized bed[J].Clean Coal Technology,2018,24(2):15-19.

[5] 赵路正.煤矿区煤层气利用潜力分析[J].洁净煤技术,2017,23(2):119-123.

Zhao Luzheng.Analysis of the utilization potential of coal mine methane[J].Clean Coal Technology,2017,23(2):119-123.

[6] 高 振,侯建国,王秀林,等.我国沿海地区进口煤炭发展煤制天然气前景分析[J].洁净煤技术,2016,22(3):65-68.

GAO Zhen,HOU Jianguo,WANG Xiulin,et al.Prospect analysis of synthetic natural gas based import coal in coastal area of China[J].Clean Coal Technology,2016,22(3):65-68.

 

煤化工VOCs排放与治理

[1] 刘丹,张鑫,张凤莲,等.以煤为原料的合成氨企业挥发性有机物排放特征研究[J].洁净煤技术,2019,25(6):1-9.

LIU Dan,ZHANG Xin,ZHANG Fenglian,et al.Study on the emission characteristics of volatile organic compounds(VOCs) from coal-based ammonia plant[J].Clean Coal Technology,2019,25(6):1-9.

[2] 张凯,刘舒予,向杉,等.现代煤化工企业VOCs排放源项解析及排放量核算[J].洁净煤技术,2019,25(6):10-18.

ZHANG Kai,LIU Shuyu,XIANG Shan,et al.Analysis and accounting of VOCs emission sources in modern coal chemical plants[J].Clean Coal Technology,2019,25(6):10-18.

[3] 王建兵,郭东芝,周昊,等.现代煤化工行业VOCs排放在线监测系统标准研究[J].洁净煤技术,2019,25(6):19-23.

WANG Jianbing,GUO Dongzhi,ZHOU Hao,et al.Research on on-line monitoring system standard of VOCs emission in modern coal chemical industry[J].Clean Coal Technology,2019,25(6):19-23.

[4] 胡江亮,赵永,王建成,等.焦化行业VOCs排放特征与控制技术研究进展[J].洁净煤技术,2019,25(6):24-31.

HU Jiangliang,ZHAO Yong,WANG Jiancheng,et al.Research progress on VOCs emission characteristics and control technology in coking industry[J].Clean Coal Technology,2019,25(6):24-31.

 

煤粉工业锅炉技术

[1] 王翰锋.中国燃煤工业锅炉政策解析与展望[J].洁净煤技术,2020,26(2):1-6.

WANG Hanfeng.Policy analysis and prospects of China′s coal-fired industrial boiler[J].Clean Coal Technology,2020,26(2):1-6.

[2] 贾楠,牛芳,周建明,等.逆向射流燃烧技术研究进展[J].洁净煤技术,2020,26(2):7-15.

JIA Nan,NIU Fang,ZHOU Jianming,et al.Research progress of reverse jet combustion technology[J].Clean Coal Technology,2020,26(2):7-15.

[3] 王学文,王乃继,陈福仲,等.煤粉燃烧热态试验研究方法综述[J].洁净煤技术,2020,26(2):16-23.

WANG Xuewen,WANG Naiji,CHEN Fuzhong,et al.A review of experimental research methods for pulverized coal combustion hot-state[J].Clean Coal Technology,2020,26(2):16-23.

[4] 崔名双,李小炯,苗鹏,等.低NOx燃气燃烧技术研究进展[J].洁净煤技术,2020,26(2):24-33.

CUI Mingshuang,LI Xiaojiong,MIAO Peng,et al.Research progress of low NOx gas combustion technology[J].Clean Coal Technology,2020,26(2):24-33.

[5] 王建朋,段璐,王乃继,等.燃煤锅炉烟气脱硫技术对颗粒物排放影响研究进展[J].洁净煤技术,2020,26(2):34-42.

WANG Jianpeng,DUAN Lu,WANG Naiji,et al.Research progress on the effect of flue gas desulfurization technology of coal-fired boiler on particulate matter emission[J].Clean Coal Technology,2020,26(2):34-42.

[6] 程晓磊.基于EDM、PDF和FR/ED模型的煤粉燃烧过程适应性研究[J].洁净煤技术,2020,26(2):43-49.

CHENG Xiaolei.Study on the adaptability of EDM,PDF and FR/ED models to pulverized coal combustion process simulation[J].Clean Coal Technology,2020,26(2):43-49.

[7] 王永英,杨石,张深.空气冷却式煤粉燃烧室数值模拟研究[J].洁净煤技术,2020,26(2):50-57.

WANG Yongying,YANG Shi,ZHANG Shen.Numerical simulation on pulverized coal combustion chamber with air cooling[J].Clean Coal Technology,2020,26(2):50-57.

[8] 张朝,崔豫泓,刘羽,等.风粉混合器内气固两相流动的模拟及试验研究[J].洁净煤技术,2020,26(2):58-65.

ZHANG Chao,CUI Yuhong,LIU Yu,et al.Simulation and experimental study of gas-solid two-phase flow in the air-powder mixer[J].Clean Coal Technology,2020,26(2):58-65.

[9] 张鑫,陈隆.高速煤粉燃烧器内燃烧特性数值模拟及结构优化[J].洁净煤技术,2020,26(2):66-72.

ZHANG Xin,CHEN Long.Numerical simulation of burning characteristics and structural optimization design of the high speed combustor of pulverized coal[J].Clean Coal Technology,2020,26(2):66-72.

[10] 牛芳.预燃室对逆喷旋流煤粉燃烧器流场特性作用研究[J].洁净煤技术,2020,26(2):73-77.

NIU Fang.Influence of pre combustion chamber on flow characteristics of reverse swirl pulverized coal burner[J].Clean Coal Technology,2020,26(2):73-77.

[11] 段璐,王实朴.NGD反应器气相流场及能耗特性研究[J].洁净煤技术,2020,26(2):78-85.

DUAN Lu,WANG Shipu.Study on the characteristics of gas flow field and energy consumption of NGD reactor[J].Clean Coal Technology,2020,26(2):78-85.

[12] 李美军.煤粉大比例掺混不同生物质的混燃特性研究[J].洁净煤技术,2020,26(2):86-92.

LI Meijun.Study on co-combustion characteristics of pulverized coal and different biomass at large mixing ratios[J].Clean Coal Technology,2020,26(2):86-92.

[13] 罗伟.焦炭气化反应对煤粉空气深度分级燃烧NO生成的影响[J].洁净煤技术,2020,26(2):93-101.

LUO Wei.Effect of char gasification reactions on NOx formation in pulverized coal deep air-staged combustion[J].Clean Coal Technology,2020,26(2):93-101.

[14] 杨石.两段式滴管内烟煤富氧空气分级燃烧NOx排放特性研究[J].洁净煤技术,2020,26(2):102-108.

YANG Shi.Research on NOx emission characteristics of bituminous coal with oxygen enriched air staged combustion in two-stage dropper tube furnace[J].Clean Coal Technology,2020,26(2):102-108.

[15] 李慧,杨石,周建明.半焦空气分级燃烧NOx排放试验研究[J].洁净煤技术,2020,26(2):109-114.

LI Hui,YANG Shi,ZHOU Jianming.Experimental study on NOemission of semi-coke air-staged combustion[J].Clean Coal Technology,2020,26(2):109-114.

[16] 潘昊.煤粉锅炉污染物限值排放综合控制系统研究[J].洁净煤技术,2020,26(2):115-122.

PAN Hao.Research on integrated limited pollutant emission control system of pulverized coal fired boiler[J].Clean Coal Technology,2020,26(2):115-122.

[17] 李婷.NO氧化耦合灰钙循环(半干法)脱除试验[J].洁净煤技术,2020,26(2):123-129.

LI Ting.NO removal experiment of oxidation coupled ash-calcium recycling(semi dry method)[J].Clean Coal Technology,2020,26(2):123-129.

[18] 陈福仲.高倍率灰钙循环脱硫过程及影响因素研究[J].洁净煤技术,2020,26(2):130-136.

CHEN Fuzhong.Study on the process and influencing factors of circulating desulfurization with high ratio of ash and calcium[J].Clean Coal Technology,2020,26(2):130-136.

[19] 王志强.煤种性质对煤粉工业锅炉结焦的影响[J].洁净煤技术,2020,26(2):137-144.

WANG Zhiqiang.Influence of coal properties on coking of pulverized coal industrial boilers[J].Clean Coal Technology,2020,26(2):137-144.

[20] 刘振宇.煤粉工业锅炉运行数据与供料参数的相关性研究[J].洁净煤技术,2020,26(2):145-151.

LIU Zhenyu.Study on the correlation between operation data and feed parameters of pulverized coal industrial boiler[J].Clean Coal Technology,2020,26(2):145-151.

 

煤炭分选理论与技术

[1] 叶贵川,马力强.螺旋分选机研究进展[J].洁净煤技术,2020,26(1):1-8.

YE Guichuan,MA Liqiang.Research progress of spiral separator[J].Clean Coal Technology,2020,26(1):1-8.

[2] 潘淼,段晨龙,石巍,等.刚柔耦合弹性筛分机理与动力煤3 mm分级试验[J].洁净煤技术,2019,25(3):43-48.

PAN Miao,DUAN Chenlong,SHI Wei,et al.Mechanism of rigid-flexible coupling elastic screening and 3 mm classification test of steam coal[J].Clean Coal Technology,2019,25(3):43-48.

[3] 马椽栋,刘嘉友,张庆建,等.基于响应面法优化SDBS对低阶煤泥浮选的促进作用[J].洁净煤技术,2019,25(3):35-42.

MA Chuandong,LIU Jiayou,ZHANG Qingjian,et al.Optimization of promoting effect of SDBS on low rank coal flotation utilizing based on response surface method[J].Clean Coal Technology,2019,25(3):35-42.

[4] 王梦霞,车晓宇,吕梦璇,等.无机盐与表面活性剂在低阶煤表面的协同吸附[J].洁净煤技术,2019,25(1):77-85.

WANG Mengxia,CHE Xiaoyu,LYU Mengxuan,et al.Synergistic adsorption of inorganic salt and surfactants on the surface of low rank coal[J].Clean Coal Technology,2019,25(1):77-85.

[5] 任豹,闵凡飞,陈军,等.疏水改性聚丙烯酰胺的合成方法研究进展[J].洁净煤技术,2018,24(1):1-7.

REN Bao,MIN Fanfei,CHEN Jun,et al.Research progress on synthesis of hydrophobically modified polyacrylamides[J].Clean Coal Technology,2018,24(1):1-7.

[6] 卢智强,刁海瑞,李彩霞,等.难浮煤泥浮选试验研究[J].洁净煤技术,2018,24(4):50-53.

LU Zhiqiang,DIAO Hairui,LI Caixia,et al.Experimental study on floatation test of difficult floated coal[J].Clean Coal Technology,2018,24(4):50-53.

[7] 冯岸岸,周伟,朱金波,等.煤泥水沉降特性试验研究[J].洁净煤技术,2018,24(3):14-18.

FENG An'an,ZHOU Wei,ZHU Jinbo,et al.Experimental study on sedimentation characteristics of slime water[J].Clean Coal Technology,2018,24(3):14-18.

[8] 赵建峰,刘令云,陈军,等.季铵盐作用下微细石英颗粒聚团沉降试验研究[J].洁净煤技术,2018,24(2):35-39.

ZHAO Jianfeng,LIU Lingyun,CHEN Jun,et al.Research on aggregation settlement of fine quartz by quaternary ammonium salt[J].Clean Coal Technology,2018,24(2):35-39.

[9] 朱金波,韩有理,费之奎,等.喷射-搅拌耦合式煤泥浮选装置研究[J].洁净煤技术,2018,24(1):69-73.

ZHU Jinbo,HAN Youli,FEI Zhikui,et al.Research on jet-stirring coupling coal slime flotation device[J].Clean Coal Technology,2018,24(1):69-73.

[10] 朱子祺.等离子体反浮选分离黄铁矿与煤的可行性研究[J].洁净煤技术,2018,24(1):45-49.

ZHU Ziqi.Feasibility study on reverse flotation of pyrite and coal by plasma pre-treatment[J].Clean Coal Technology,2018,24(1):45-49.

[11] 马力强,孙先凤,黄根,等.煤泥调浆机理与设备发展历程及应用[J].洁净煤技术,2018,24(1):1-5.

MA Liqiang,SUN Xianfeng,HUANG Gen,et al.Mechanism of coal slime conditioning and equipment development history and industrial application[J].Clean Coal Technology,2018,24(1):1-5.

[12] 任瑞晨,陈康,王国良,等.浮选尾煤脱泥再选及其可浮性评价[J].洁净煤技术,2017,23(6):32-37.

REN Ruichen,CHEN Kang,WANG Guoliang,et al.Recleaning of coal flotation tailings desliming and floatability evaluation[J].Clean Coal Technology,2017,23(6):32-37.

[13] 邓建军,张孝逐,林喆,等.基于光电测量的煤泥水自动加药系统研究[J].洁净煤技术,2017,23(2):92-97,102.

Deng Jianjun,Zhang Xiaozhu,Lin Zhe,et al.Study on the automatic dosing system of coal slurry based on photoelectric measurement[J].Clean Coal Technology,2017,23(2):92-97,102.

[14] 朱志波,朱书全,陈慧昀,等.浮选动力学模型研究进展及展望[J].洁净煤技术,2017,23(2):20-24.

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