发布时间:2020-09-03
[1] Bin Chen, Xiangxin Han, Mao Mu Xiumin Jiang. Studies of the co-pyrolysis of oil shale and wheat straw. Energy & Fuels, 2017, 31(7): 6941-6950.
[2] Anyao Jiao, Hai Zhang, Jiaxun Liu, Jun Shen, Xiumin Jiang. The role of CO played in the nitric oxide heterogeneous reduction: a quantum chemistry study. Energy, 2017, 141, 1538-1546.
[3] Luo, Lei, Liu, Jiaxun, Zhang, Hai, Ma, Junfang, Wang, Xiaoye, Jiang, Xiumin. TG-MS-FTIR study on pyrolysis behavior of superfine pulverized coal . Journal of Analytical and Applied Pyrolysis, 2017, 128: 64-74.
[4] Hai Zhang, Jiaxun Liu, Xiaoye Wang, Lei Luo, Xiumin Jiang. DFT study on the C(N)-NO reaction with isolated and contiguous active sites. Fuel, 2017, 203, 715-724.
[5] 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.
[6] Z.G. Cui, X.M. Jiang, X.X. Han, S.X. Ma. Intrinsic conversion mechanism on nitrous oxide and nitrogen oxide during circulating fluidized bed combustion of oil shale. Combustion Science and Technology, 2017, 189(7): 1162-1185.
[7] Xiangxin Han, Bin Chen, Qingyou Li, Jianhui Tong, Xiumin Jiang. Organic nitrogen conversion during the thermal decomposition of Huadian oil shale of China. Oil Shale, 2017, 34(2): 97-109.
[8] Liu, Jiaxun, Ma, Yang, Luo, Lei, Ma, Junfang, Zhang, Hai, Jiang, Xiumin. Pyrolysis of superfine pulverized coal. Part 4. Evolution of functionalities in chars. Energy Conversion and Management, 2017, 134, 32-46.
[9] Yulong You, Xiangxin Han, Jianguo Liu, Xiumin Jiang. Structural characteristics and pyrolysis behaviors of Huadian oil shale kerogens using solid-state 13C NMR, Py-GCMS and TG . Journal of Thermal Analysis & Calorimetry, 2017, 09, article in press.
[10] Du H, Zhang M, Zhang Y, et al. Characteristics of NO reduction by char layer in fixed-bed coal combustion[J]. Energy Sources Part A Recovery Utilization & Environmental Effects, 2017:1-8.
[11] Ruizhi Zhang, Shanhui Zhao, and Yonghao Luo. Experimental and modeling investigation on the effect of intrinsic and extrinsic oxygen on biomass tar decomposition[J]. Energy & Fuels 2017, 31 (8), 8665-8673
[12] Shengya Hou,YuandanWu,Yaodong Zhou,Lijun Yu. Performance analysis of the combined supercritical CO2 recompression and regenerative cycle used in waste heat recovery of marine gas turbine [J]. Energy Conversion and Management, Volume 151, 1 November 2017, 73-85.
[13] Yaodong Zhou, Fengyuan Zhang, Lijun Yu. The discussion of composition shift in organic Rankine cycle using zeotropic mixtures[J]. Energy Conversion and Management, Volume 140, 15 May 2017, 324-333.
[14] Silin Li, Hengyong Tu, Feng Li, Muhammad Tuoqeer Anwar, Lijun Yu. Investigation of Nd2Ni0.9M0.1O4+δ (M=Ni, Co, Cu, Fe, and Mn) cathodes for intermediate-temperature solid oxide fuel cell [J]. Journal of Alloys and Compounds, Volume 694, 15 February 2017, 17-23.
[15] X. Ge, J. Dong, H. Fan, Z. Zhang, et al. Numerical investigation of oxy-fuel combustion in 700° C-ultra-supercritical boiler[J]. Fuel, 2017, 207: 602-614.
[16] H. Fan, D. Guo, J. Dong, X. Cui, M. Zhang, Z. Zhang, Discrete element method simulation of the mixing process of particles with and without cohesive interparticle forces in a fluidized bed, Powder Technology, Accepted
[17] Y. Jiang, Z. Zhang, H. Fan, et al. Experimental study on hybrid MS-CA system for post-combustion CO2 Capture [J]. Greenhouse Gases: Science and Technology. 2017. Accepted, DOI information: GHG-17-0091.R1.
[18] P. Yue, Z. X. Zhang, et al. NOx Reduction by Urea Solution in Fuel-Rich Pulverized Coal Combustion [J]. Energy Sources, Part A. 2017. Accepted, DOI information: 10.1080/15567036.2016.1261207.
[19] X. Ge, Z. Zhang, et al. New Correlations of Weighted Sum of Grey Gases Model Applicable to Computational Fluid Dynamics for Oxy-Fuel Combustion and Implementation[C]//ASME 2017 Power Conference Joint With ICOPE-17 collocated with the ASME 2017 11th International Conference on Energy Sustainability, the ASME 2017 15th International Conference on Fuel Cell Science, Engineering and Technology, and the ASME 2017 Nuclear Forum. American Society of Mechanical Engineers, 2017: V002T13A002-V002T13A002.
[20] X Hu, Z Zhang, et al. Experiment and Mechanism Study on the Effect of Coal Ash on the Capture of Alkali Metals in Zhundong Coal. [C]// ASME 2017 Power Conference Joint With ICOPE-17 collocated with the ASME 2017 11th International Conference on Energy Sustainability. Accepted
[21] Liu Yacheng; Fan Weidong; Zhang Xiang; Wu Xiaojiang. High-temperature corrosion properties of boiler steels under a simulated high-chlorine coal-firing atmosphere [J]. Energy & Fuels, Vol.31(4), 2017: 4391-4399.
[22] Fan Weidong; Li Yu; Guo Qinghong; Chen Can; Wang Yong. Coal-nitrogen release and NOx evolution in the oxidant-staged combustion of coal[J]. Energy, Vol.125, 2017: 417-426.
[23] Liu Yacheng; Fan Weidong; Wu MingZhou. Experimental and numerical studies on the gas velocity deviation in a 600 MWe tangentially fired boiler [J]. Applied Thermal Engineering, Vol.110, 2017: 553-563.
[24] Liu, Yacheng; Fan Weidong; Zhang Xiang; Wu Naixing. Analysis on High Temperature Corrosion Behaviors of Boiler Steels under High-Chlorine Coal Ash. ASME Power Conference 2017, JUN 26-30, 2017. PROCEEDINGS OF THE ASME POWER CONFERENCE JOINT WITH ICOPE-17, 2017, VOL 1.
[25] Xie Jianwen; Fan Weidong; Zhang Jianwen. Study of Gas Temperature Characteristics at the Bottom of the Platen Heaters of Boiler Employing Shenhua Bituminous Coal Based on Two-Level Air Staging Combustion System. ASME Power Conference 2017, JUN 26-30, 2017. PROCEEDINGS OF THE ASME POWER CONFERENCE JOINT WITH ICOPE-17, 2017, VOL 1.
[26] Yacheng Liu; Weidong Fan; Xiaofeng Wu; Pinghong Shen; Xiang Zhang. Chlorine-induced high temperature corrosion on boiler steels combusting Sha Erhu coal compared with bio-fuel. 6th Sino-Australian Symposium on Advanced Coal and Biomass Utilisation Technologies, 2017.
[27] Yuegui Zhou, Xudong Jin, Wei Chu. Quantitative Measurement and Indication of Pulverized Coal Ignition Temperatures in O2/CO2 Environments[J]. Applied Thermal Engineering, 2017, 112:888-894.
[28] 张亮, 罗永浩, 邓睿渠,等. 生物质成型燃料层燃NO排放特性研究[J]. 工业锅炉, 2017(2):1-4.
[29] 张敏, 杜海亮, 邓睿渠,等. 生物质成型颗粒热解特性的实验研究[J]. 工业锅炉, 2017(1):1-6.
[30] 曹阳, 武桐, 张敏,罗永浩. 典型生活垃圾组分热解动力学研究[J]. 锅炉技术, 2017, 48(5).
[31]吴国江,黄文荣.造船企业压缩空气管网水力计算分析 [J].船舶工程,2017,39(7):105-109.
[32]何柯佳,范浩杰,刘翔,崔璇,陈博,王杰,二次热解对污泥热解产物影响的研究,锅炉技术[J],2017, Vol. 48(1):75-80
[33]董建聪, 张忠孝, 范浩杰, 葛学利, 张剑. 超超临界二次再热机组锅炉燃烧与水动力耦合计算方法研究[J]. 热力发电, 2017, 46(8):30-35.
[34]陈义丽,杜梅芳,张忠孝,杨政良,张晓旭. NaOH为吸收剂同时脱硫脱硝方法研究[J]. 能源工程,2017,(01):60-64+73.
[35]江砚池, 张忠孝, 范浩杰, 樊俊杰, 安海泉. 单级两级膜分离法分离CO2/CH4实验比较[J]. 锅炉技术, 2017,已录用
[36]葛学利, 张忠孝等. 镍基合金管中CO2工质700 ℃超超临界传热特性实验研究. [J]. 动力工程学报. 2017, 已录用
[37]葛学利, 张忠孝等. 热偏差和流量偏差对超超临界锅炉水冷壁管材安全影响的研究[J]. 中国电机工程学报. 2017, 已录用
[38] 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. 2017年中国工程热物理学会燃烧学学术会议, 南京.
[39]王乾宁, 余岳峰. 基于有机朗肯循环的燃气轮机余热发电系统优化设计[J]. 上海节能,2017,03: 147-153.
[40]万丛,王恩禄,徐煦,梁露月,茅锦达. 锅炉受热面高温腐蚀类型及其机理分析研究[J]. 锅炉技术, 2017, 48(2): 1–6.
[41]赵朋山,王振东,王恩禄. 燃用准东煤300MW等级亚临界锅炉的设计分析[J]. 锅炉技术, 2017, 48(5): 53–56.
[42]李晗,范卫东,刘亚成. 大型电站锅炉再热器热偏差热力计算分析 [J]. 锅炉技术, 2017, 48(2): 10–15.
[43]于娟. 工程类基础课程多元化教学模式及评价. 高等工程教育研究, 2017, 4: 174-177.
[44]金圻烨, 周月桂, 金旭东,等. 强弱射流型MILD富氧燃烧器燃烧特性的数值分析[J]. 动力工程学报, 2017, 37(7):520-524.
[45]郑婷婷, 周月桂, 金圻烨. 燃煤电厂多种烟气污染物协同脱除超低排放分析[J]. 热力发电, 2017, 46(4): 10-15.
[46]郑善凯, 周月桂, 金旭东,等. 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学术会议, 2017, 南京.
[47]张翔, 吴乃新, 乌晓江, 刘亚成, 范卫东. 燃用高氯髙碱煤锅炉高温腐蚀特性研究进展. 中国动力工程学会锅炉专委会学术年会, 武汉, 2017年.
[48]王勇, 朱江涛, 陈灿, 林山虎, 张定海, 刘一, 范卫东. 煤粉炉内燃烧过程还原区强化脱硝试验研究. 中国动力工程学会锅炉专委会学术年会, 武汉, 2017年.
版权所有:上海交通大学热能工程研究所 地址:上海市闵行区东川路800号
邮编:200240 电话(传真):021-34206115 邮箱:wdfan@sjtu.edu.cn