2018

[1] Liu Yacheng, Fan Weidong, Wu Xiaofeng, Zhang Xiang. Chlorine-Induced High-Temperature Corrosion of Boiler Steels Combusting Sha Erhu Coal Compared to Biomass [J]. Energy & Fuels, 2018,32(4): 4237-4247.

[2] Zhang Rui-zhi, Luo Yong-hao, Yin Ren-hao. Experimental study on dioxin formation in an MSW gasification-combustion process: An attempt for the simultaneous control of dioxins and nitrogen oxides. Waste Manag 2018, 82: 292–301.

[3] Zhang Rui-zhi, Yin Ren-hao, Luo Yong-hao. Inhibition of C–Cl formation during the combustion of MSW gasification syngas: An experimental study on the synergism and competition between oxidation and chlorination. Waste Manag 2018, 76: 472–482.

[4] Fengyuan Zhang, Yaodong Zhou, Wenqiang Sun, Shengya Hou, Lijun Yu. CO₂ capture from reheating furnace based on the sensible heat of continuous casting slabs [J]. International Journal of Energy Research, Volume 42, 14 January 2018, 2273-2283.

[5] Jiaxuan Zhang, Sheng Cao, Lijun Yu, Yaodong Zhou. Comparison of Combined Cooling, Heating and Power (CCHP) Systems with Different Cooling Modes Based on Energetic, Environmental and Economic Criteria [J]. Energy Conversion and Management, Volume 160, 15 March 2018, 60-73.

[6] Hou S, Zhang F, Yu L, et al. Optimization of a Combined Cooling, Heating and Power System Using CO₂ as Main Working Fluid Driven by Gas Turbine Waste Heat [J]. Energy Conversion & Management, Volume 178, 23 September 2018, 235-249.

[7] Shengya Hou, Yaodong Zhou, Lijun Yu, Fengyuan Zhang, Sheng Cao. Optimization of the Combined Supercritical CO₂ Cycle and Organic Rankine Cycle Using Zeotropic Mixtures for Gas Turbine Waste Heat Recovery [J]. Energy Conversion and Management, Volume 160C, 15 March 2018, 313-325.

[8] Shengya Hou, Yaodong Zhou, Lijun Yu, Fengyuan Zhang, Sheng Cao, Yuandan Wu. Optimization of a novel cogeneration system including a gas turbine, a supercritical CO₂ recompression cycle, a steam power cycle and an organic Rankine cycle [J]. Energy Conversion and Management, Volume 172, 18 July 2018, 457-471.

[9] Shengya Hou, Sheng Cao, Lijun Yu, Yaodong Zhou, Yuandan Wu, FengYuan Zhang. Performance optimization of combined supercritical CO2 recompression cycle and regenerative organic Rankine cycle using zeotropic mixture fluid [J]. Energy Conversion and Management, Volume 166, 11 April 2018, 187-200.

[10] Wendong Wu, Adewale Adeosun, Richard L. Axelbaum. A new method of flame temperature measurement utilizing the acoustic emissions from laser-induced plasmas, Proceedings of the Combustion Institute, 2018, ISSN 1540-7489, https://doi.org/10.1016/j.proci.2018.07.096.

[11] Ma, Junfang; Shen, Jun; Liu, Jiaxun; Ma, Yang; Jiang, Xiumin. Reburning study of superfine pulverized coal in high CO2 concentration. Fuel, 2018, 220, 25-31.

[12] Luo, Lei; Yao, Wang; Liu, Jiaxun; Zhang, Hai; Ma, Junfang; Jiang, Xiumin. Evolution of NOX precursors of superfine pulverized coal with a fixed bed in N2 and CO2. Fuel, 2018, 234: 263-275.

[13] Hai Zhang, Jiaxun Liu,Jianguo Liu , Lei Luo, Xiumin Jiang. DFT study on the alternative NH3 formation path and its functional group effect. Fuel, 2018, 214, 108-114.

[14] Anyao Jiao, Hai Zhang, Jiaxun Liu, Xiumin Jiang. Quantum chemical and kinetics calculations for the NO reduction withchar(N): Influence of the carbon monoxide. Combustion and Flame, 2018,196, 377–385.

[15] Mu Mao; Han Xiangxin; Jiang Xiumin. Combined fluidized bed retorting and circulating fluidized bed combustion system of oil shale: 3. Exergy analysis. Energy, 2018, 151, 930-939.

[16] Y.L. You, X.X. Han, J.G. Liu, X.M. Jiang.  Structural characteristics and pyrolysis behaviors of huadian oil shale kerogens using solid-state C-13 NMR, Py-GCMS and TG. Journal of Thermal Analysis and Calorimetry, 2018, 131(2): 1845-1855.

[17] Wang, Sha; Song Lizhi, Jiang, Xiumin.  Catalytic effects of Fe- and Ca-based additives on gas evolution during pyrolysis of Dachengzi oil shale of China. Oil Shale, 2018, 35(1): 39-55.

[18] Shen, Jun; Liu, Jiaxun; Xing, Yanfeng; Zhang, Hai; Luo, Lei; Jiang, Xiumin. Application of TG-FTIR analysis to superfine pulverized coal. Journal of Analytical and Applied Pyrolysis, 2018, 133, 154-161.

[19] Enlu Wang, Kai Li, Naveed Husnain, Deli Li, Jinda Mao, Wei Wu, Tianwei Yang. Experimental study on flue gas condensate capture and heat transfer in staggered tube bundle heat exchangers [J]. Applied Thermal Engineering, 2018, 141: 819-827.

[20] Wang E., Li K., Mao J. et al. Experimental study of flow and heat transfer in rotary air preheaters with honeycomb ceramics and metal corrugated plates [J]. Applied Thermal Engineering, 2018, 130: 1549-1557.

[21] Haojie Fan, Zhongxiao Zhang, Jiancong Dong, Wei Xu, China’s R&D of advanced ultra-supercritical coal-fired power generation for addressing climate change, Thermal Science and Engineering Progress, 2018, 5:364-371.

[22] Haojie Fan, Daochuan Guo, Jiancong Dong, Xuan Cui, Mingchuan Zhang, Zhongxiao Zhang, Discrete element method simulation of the mixing process of particles with and without cohesive interparticle forces in a fluidized bed, Powder Technology,2018, 327:223-231.

[23] Haojie Fan, Bo Chen, Rundong Yang, Daochuan Guo. Experimental simulation of particle agglomeration in an internally circulating fluidized bed. Experimental Thermal and Fluid Science, 2018, 91: 277–282.

[24] Fengguo Tian, Haojie Fan, Dengfei Mei, discrete element study of bubble behaviors in type d particle fluidization with and without interparticle cohesive forces, Granular Matter, 2018, 20:61

[25] Jianchong Dong, Tuo Zhou, Xiaojiang Wu, Haojie Fan, Zhongxiao Zhang, Coupled heat transfer simulation of the spiral water wall in a double reheat ultra-supercritical boiler, Journal of Thermal Science, 2018,27(6):592-601

[26] Dong J, Zhang Z, Fan H, et al. Study on the effect of flame offset on water wall tube temperature in 600℃ and 700℃ ultra-supercritical boiler [J]. Combustion Science and Technology.（SCI已录用，DOI: 10.1080/00102202.2018.1502753）

[27] Dong J, Zhang Z, Fan H, et al. Coupled heat transfer simulation of spiral water wall in a 1000MW double reheat ultra-supercritical boiler [J]. Journal of Thermal Science. Accepted. DOI:10.1007/S11630-0.18-1072-6）

[28] Jiang Y, Zhang Z, Fan J, et al. Pilot study on entrained flow gasification characteristics of high ash fusion temperature coal with dry slag. The 14th Japan-China Symposium on Coal and C1 Chemistry. Sapporo, Japan. 2018.

[29] Xudong Jin, Yuegui Zhou, Shankai Zheng. Numerical investigation of different effects of carbon dioxide properties and carbon monoxide oxidation on char particle combustion in actual and fictitious O₂/CO² environments[J]. Fuel, 2018, 217: 59-65

[30] Zhukai Zeng, Tingyao Zhang, Shankai Zheng, Wendong Wu, Yuegui Zhou. Combustion characterization of single coal particles in high temperature and low oxygen MILD Oxy-fuel environments. 6th International Conference on CO₂ Emission Control and Utilization, June 15-17, 2018, China, Hangzhou

[31] Zixiang Li, Zhengqing Miao, Yan Zhou, Shurong Wen, Jiangtao Li. Influence of increased primary air ratio on boiler performance in a 660?MW brown coal boiler, Energy, 152:804-817, 2018;

[32] Zixiang Li, Zhengqing Miao, Xusheng Shen, Jiangtao Li. Prevention of boiler performance degradation under large primary air ratio scenario in a 660?MW brown coal boiler, Energy, 155:474-483, 2018.

[33] Zixiang Li, Zhengqing Miao, Xusheng Shen, Jiangtao Li. Effects of momentum ratio and velocity difference on combustion performance in lignite-fired pulverized boiler. Energy, 165 PA:825-839, 2018.

[34] 张睿智，罗永浩，殷仁豪. 氯对苯氧化过程影响机制的实验研究[J]. 燃料化学学报, 2018, 46(10): 1272-1280.

[35] 张敏，罗永浩. 生物质成型燃料层燃过程中NO生成规律的实验研究[J]. 工业锅炉, 2018(3): 1-11.

[36] 罗永浩，张敏，邓睿渠，等. 生物质层燃锅炉低NOx燃烧技术的研究. 动力工程， 2018，已录用.

[37] 姜金东，林晨，张曜，于娟，张忠孝, 工艺操作参数对烟气SNCR脱硝性能影响的数值模拟[J]. 中国电机工程学报,2018,38(02):383-389+668.

[38] 刘建国，梁汉钊，杨汉敏，李先春[J]. 实验室研究与探索， 2018, 37: 30–33.

[39] 曹瑞杰，张健, 毕德贵，张忠孝. 130t/h四角切圆煤粉炉低氮燃烧改造的试验研究及数值模拟分析[J]. 热能动力工程，2018, 10.

[40] 葛学利, 张忠孝, 范浩杰, 等. 热偏差和流量偏差对1000MW超超临界锅炉水冷壁壁温影响的研究[J]. 中国电机工程学报, 2018, 38(8).

[41] 葛学利, 张忠孝, 商显耀, et al. 镍基合金管中CO₂工质700℃超临界传热特性实验研究[J]. 动力工程学报, 2018(2).

[42] 郑善凯，周月桂，曾柱楷，金旭东. 高温低氧气氛下煤粉颗粒燃烧特性实验[J]. 热力发电，2018，（9）：41-47

[43] 张迪，王勇强，周月桂. 低尘SCR系统单孔催化剂模拟研究[J]. 锅炉技术, 2018, 49(5): 1–6.

[44] 吴晓峰, 边宝, 范卫东. 1000MW塔式炉过热蒸汽温度偏差优化的数值模拟研究. 中国动力工程学会锅炉专委会学术年会, 徐州, 2018年.

[45] 毕德贵，张忠孝，于娟，朱志祥，林晨. 煤粉火焰中还原气氛下NH3还原NOx实验研究[C]. 中国工程热物理年会，哈尔滨，2018.9.

[46] 沈平虹，范卫东，吴晓峰，王勇，陈灿. 高温分级燃烧过程中N2O分解机理及对NO影响的研究. 中国工程热物理学会燃烧学学术年会, 哈尔滨, 2018年

[47] 曾柱楷，张廷尧，郑善凯，周月桂. 高温低氧气氛下煤粉颗粒燃烧特性的实验研究[C].中国工程热物理学会燃烧学会议，2018.9，哈尔滨.

[48] 王勇强，韩佳宸，白诺敏，周月桂. 无烟煤空气分级燃烧沿程NOx排放特性的试验研究[C].中国工程热物理学会燃烧学会议，2018.9，哈尔滨.

[49] 葛学利, 张忠孝. 镍基合金蛇形管中CO₂工质高温度区间传热特性的实验研究[C]. 中国工程热物理年会, 南京，2018.6.