朱彤博士
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博士、教授,博士生导师,能源工程系系主任                 

同济大学机械与能源工程学院                    


主要研究领域

高效洁净燃烧技术:研究工业锅炉、燃气轮机燃烧室、工业炉窑的超低氮高效燃烧机理;

燃烧稳定性技术:研究燃烧热声耦合机理及燃烧不稳定性抑制技术;

流程工业能源系统模型:基于物质流、能源流、信息流,构建综合智慧能源系统模型,研究系统能效提升机理。

已发表百余篇学术论文,其中SCI论文60余篇,授权发明专利12项,转让两项


学术兼职:

现担任中国动力工程学会理事、锅炉专委会委员,中国高等教育学会工程热物理专业委员会理事,中国电机工程学会热电专业委员会委员,全国能源基础与管理标准化技术委员会特种设备节能分技术委员会专家,中国电子节能技术协会理事、数据中心节能技术委员会专家,上海工程热物理学会理事。上海电力大学机械工业清洁发电环保技术重点实验室学术委员会委员、西藏自治区太阳能光伏和热利用重点实验室学术委员会委员。《工业加热》、《锅炉技术》、《工业锅炉》的编委。

 

教材

主编《传热学》(第七版),中国建筑工业出版社,参编《工程热力学》(第六版),中国建筑工业出版社

 

近几年承担的主要科研项目

1.      国家自然科学基金项目——工业锅炉天然气超低氮扩散燃烧不稳定性机理研究(51976140

2.      上海市科技创新计划项目——微小型燃气轮机常压燃烧模化实验系统开发(20DZ1204902

3.      上海市科技创新计划项目——兆瓦级燃气轮机燃烧室设计和低排放关键技术研究(18DZ1202003

4.      上海市科技创新计划项目——微型燃气轮机低排放燃烧关键技术研究(15DZ1207202

5.      国家重点研发计划重点专项“高耗能特种设备能效检测与评价关键技术研究”——典型工业蒸汽系统能效评价关键技术研究(2017YFF0209805

6.      国家重点基础研究发展计划(973课题)——天然气与可再生能源的融合以及复杂能源网络系统的稳定性研究(2014CB249201

7.      国家科技支撑计划子课题——多种可再生能源耦合供能关键技术研究与集成示范(2014BAJ01B06


发表的论文:

[1]      Deng Pan, Tong Zhu, Chenzhen Ji, Enlei Ke. Effects of flue gas recirculation on self-excited combustion instability and NOx emission of a premixed flame [J]. Thermal Science and Engineering Progress, 2022, 30:101252. 

[2]      Sun Yuze, Dan Zhao, Chenzhen Ji, Tong Zhu, Zhuming Rao, Bing Wang. Large-eddy simulations of self-excited thermoacoustic instability in a premixed swirling combustor with an outlet nozzle [J]. Physics of Fluids, 2022, 34(4):044112.

[3]      Enlei Ke, Ziyu Wang, Jiaying Cheng, Deng Pan, Tong Zhu, Chenzhen Ji. Analysis of combustion instability modes for a partially premixed swirl combustor by flame transfer function with the three-dimensional thermoacoustic model [C]. Proceedings of Global Power and Propulsion Society. Xi’an, China, 2022.

[4]      龙冀,朱彤,陈一平,何洪浩,陈文大型电站锅炉污泥掺烧装置应用与研究[J]. 能源与环境. 2022,(01), 81-82,85

[5]      Deng Pan , Tong Zhu*, Chenzhen Ji , Enlei Ke. Effects of flue gas recirculation on self-excited combustion instability and NOx emission of a premixed flame[J]. Thermal Science and Engineering Progress, Vol.301),202210125——online

[6]      Xiuyang Song, Tong Zhu, Deng Pan, Chenzhen Ji, Dan Zhao. Characterizations of self-sustained thermoacoustic beating instability in a hydrogen fueled Rijke burner [C]. Symposium on Thermoacoustics in Combustion: Industry meets Academia. Munich, Germany, 2021.

[7]      潘登,朱彤,季晨振,王子豫,宋秀阳,柯恩雷甲烷空气非预混钝体火焰对低频声波激励的动态响应特征研究[C]. 中国工程热物理学会燃烧学学术年会大连, 2021.

[8]      Deng Pan, Chenzhen Ji, Tong Zhu, Ziyu Wang. Characterizations of the non-linear dynamic responses of diffusion ducted flames to the acoustic excitations [C]. 2nd International Conference of Thermal Fluid Dynamics and Control. Singapore, 2021.

[9]      Chenzhen Ji, Han Gao, Deng Pan, Tong Zhu. Detection of combustion instability on a 350 kW premixed combustion gas boiler by wavelet packet entropy analysis [C]. 27th International Congress on Sound and Vibration. Prague, Czech Republic, 2021.

[10]   王子豫潘登季晨振朱彤基于模态分解的扩散火焰动态响应特性分析[J]. 工程热物理学报, 2021, 42 (12): 3304-3311.

[11]   廉海浔林立彬朱彤寒区隧道围岩初始温度场及保温材料对非稳态温度场的影响[J]. 井冈山大学学报, 2021, 42(6), 82-87 

[12]   SHEN Siyuan, SONG Xiuyang, ZONG Chao, JI Chenzhen, ZHU Tong. Effect of the Structure Parameters of a Low Swirler on Premixed Characteristics. Journal of Thermal Science Vol.31, No.1 (2022), 207-213

[13]   Zhang Tao, Liu Liuchen, Hao Junhong, Zhu Tong, Cui Guomin. Correlation analysis based multi-parameter optimization of the organic Rankine cycle for medium- and high-temperature waste heat recovery. Applied Thermal Engineering, Vol.188, 2021.04, Article: 116626

[14]   Chen Shang, Arabkoohsar Ahmad, Yang Yongheng, Zhu Tong, Nielsen, Mads Pagh. Multi-objective optimization of a combined cooling, heating, and power system with subcooled compressed air energy storage considering off-design characteristics. Applied Thermal Engineering, Vol.187 , 2021.03, Article: 116562

[15]   沈思远,宗超,季晨振,朱彤。微小型燃气轮机燃烧室模化方法适用性的数值研究。热能动力工程. 202136(08)56-64

[16]   邓彪,周文龙,朱彤。汽轮机高中压缸流量配比对汽轮机启动的影响。电站系统工程,2021,370546-48

[17]   鲁朋朋,潘登,朱彤,齐国利,王中伟。基于声学模态分析的燃气锅炉热声振荡研究。工业加热,2021,5005),22-26,40

[18]   Han Gao; Tong Zhu; Deng Pan. Pressure Analysis of the Initial Process of Diffusion Combustion Surge in a 350 kW Gas Boiler. Journal of Thermal Science. 20209):1-8

[19]   徐鸿飞,朱彤,牟明月,潘登,王海鹰。固态法白酒甑桶蒸馏的理论研究。中国酿造,2020Vol.3912),181-187

[20]   张山子,沈逸文,朱彤。基于子模型法的轮盘轮缘低周疲劳寿命评估。热力透平。2020Vol.49(4)257-261275

[21]   Rongjun ZhuDeng PanChenzhen JiTong ZhuPengpeng LuHan Gao. Combustion instability analysis on a partially premixed swirl combustor by thermoacoustic experiments and modeling. Energy, 2112020, 118884

[22]   Shang Chen, Hamid R.Rahbari, Ahmad Arabkoohsar, Tong Zhu. Impacts of partial-load service on energy, exergy, environmental and economic performances of low-temperature compressed air energy storage system. Journal of energy storage, Vol.32, December 2020.

[23]   Chen Shang, Zhu Tong, Gan Zhongxue, Zhu Xiaojun, Liu Liuchen. Optimization of operation strategies for a combined cooling, heating and power system based on adiabatic compressed air energy storage, Journal of Thermal Science, Vol.928, No.5 (2020) , 1135-1148SCI1.228

[24]   Shang Chen, Ahmad Arabkoohsar, Tong Zhu, *, Mads Pagh Nielsen. Development of a micro-compressed air energy storage system model based on experiments. Energy, 197 (2020.04), Article: 117152SCI7.147

[25]   朱荣俊,潘登,高晗,高乃平,朱彤。金属纤维燃烧器表面燃烧模拟研究,煤气与热力,2020Vol.401),36-42

[26]   高晗,朱彤,朱荣俊,潘登,高乃平。烟气再循环350kW燃气锅炉超低氮燃烧工况稳定性的影响,工业锅炉,2020No.1Tol. 179),32-3746

[27]   徐鸿飞,王海鹰,田绍润,潘登,朱彤。蒸汽量和尾酒量对酱香型白酒产量的影响,中国酿造,2019Vol.3810),121-124

[28]   万波,涂华彬,刘元棚,牟明月,潘登,朱彤。酱香型白酒糟醅蒸煮馏酒过程阻力系数的实验研究。酿酒科技,2019No.7Tol. 301),56-61

[29]   安文旗,朱彤,潘登,管坚,于吉明,高乃平。烟气再循环对金属纤维表面燃烧器NOx排放和燃烧稳定性的影响。燃烧科学与技术,2019Vol.254),365-371

[30]   Yunli Jin, Naiping Gao, Tong Zhu. Techno-economic analysis on a new conceptual design of waste heat recovery for boiler exhaust flue gas of coal-fired power plants. Energy Conversion and Management, 2019, Vol.200, **-**

[31]   Tiantian Wang, Liuchen Liu, Tong Zhu, Naiping Gao. Experimental investigation of a small-scale Organic Rankine Cycle under off-design conditions: From the perspective of data fluctuation. Energy Conversion and Management, 2019, Vol. 198, **-**

[32]   Shang ChenTong ZhuHuayu Zhang. Study on Optimization of Pressure Ratio Distribution in Multistage Compressed Air Energy Storage System. Journal of Energy Resources Technology. Vol. 141(6), 2019,SCI2.759

[33]   Liuchen Liu, Tong Zhu, Tiantian Wang, Naiping Gao. Experimental investigation on the effect of working fluid charge in a small-scale Organic Rankine Cycle under off-design conditions. Energy, 2019, Vol. 174, 664-677SCI: 5.537

[34]   吕亚亚,宗超,朱彤,马雨晨。旋流器和射流孔流通面积对燃烧室流场及温度场影响的数值研究。热能动力工程,2019Vol.342),54-62

[35]   崔颂,吴竺,刘柳辰,方晓艳,高乃平,朱彤。无油涡旋膨胀机性能实验研究太阳能学报(EI检索), 2019,40(01), 30-37

[36]   K. Wang, S. Chen, L. Liu, T. Zhu, Z. Gan, Enhancement of renewable energy penetration through energy storage technologies in a CHP-based energy system for Chongming, China[J], Energy, 162 (Aug.2018), pp. 988-1002 SCI: 5.537

[37]   Liu Liuchen, Zhu Tong, Gao Naiping, Gan Zhongxue. A Review of Modeling Approaches and Tools for the Off-design Simulation of Organic Rankine Cycle, Journal of Thermal Science, Vol.27, No.4 (2018) , 305-320SCI1.228

[38]   Yunli Jin, Naiping Gao, Tong Zhu. Controlled variable analysis of counter flow heat exchangers based on thermodynamic derivation. Applied Thermal Engineering, Volume 129, 25 January 2018, 684-692

[39]   Xu Song, Tong Zhu, Liuchen Liu, Zhenjun Cao. Study on optimal ice storage capacity of ice thermal storage system and its influence factors. Energy Conversion and Management, 2018, 164: 288-300. (SCI 000430882100025EI 20181104890022)

[40]   Xu Song, Liuchen Liu, Tong Zhu, Shang Chen, Zhenjun Cao. Study of economic feasibility of a compound cool thermal storage system combining chilled water storage and ice storage. Applied Thermal Engineering, 2018, 133: 613-621. (SCI 000428227000061EI 20180604768196)

[41]   马雨晨,朱彤,宗超,朱荣俊。生物质气化微型燃气轮机集成发电系统模拟,建筑热能通风空调,Vol.3711),2018.116-11

[42]   刘方泽,牟龙华,张涛,朱彤。微能源网多能源耦合枢纽的模型搭建与优化,电力系统自动化,Vol.42(14), 2018.7, 91-98EI检索:20183605785107

[43]   吴竺,朱彤,高乃平,崔颂,潘煜,潘登。以空气为工质的含油涡旋膨胀机性能的试验研究,流体机械,Vol.466),2018.65-9

[44]   张华煜,陈上,朱彤,甘中学。含有绝热压缩空气储能的分布式能源系统供能特性研究,中国电机工程学报,Vol.38,增刊,2018.8142-150

[45]   Tiantian Wang, Naiping Gao, Tong Zhu. Investigation on the optimal condensation temperature of supercritical organic Rankine cycle systems considering meteorological parameters. Energy Conversion and Management, 2018, Vol. 174, 54–64

[46]   Hai Wang, Haiying Wang, Haijian Zhou, Tong Zhu. Modeling and optimization for hydraulic performance design in multi-source district heating with fluctuating renewables. Energy Conversion and Management, 2018, Vol.156, 113–129

[47]   Hai Wang, Hua Meng, Tong Zhu. New model for onsite heat loss state estimation of general district heating network with hourly measurements. Energy Conversion and Management, 2018, Vol.157, 71-85

[48]   Hai WANG, Hai-ying WANG, Tong ZHU, Nai-ping GAO, Evaluation on energy performance in a low temperature district heating system integrated with Organic Rankine Cycle. Journal of Zhejiang University-SCIENCE A (Applied Physics & Engineering), 2018 19(6): 461-478

[49]   Hai Wang, Haiying Wang, Zhou Haijian, Tong Zhu. Optimization modeling for smart operation of multi-source district heating with distributed variable-speed pumps. Energy, 2017, Vol.138, 1247-1262

[50]   李佶芯,安巍,朱彤,介质复折射率测试技术与计算模型的进展,节能技术,2017, 26214~219

[51]   Liuchen Liu, Tong Zhu*, Yu Pan. Numerical predicting the dynamic behavior of heat exchangers for a small-scale Organic Rankine Cycle. Energy Procedia2017Vol.129419–426EI20173904209404

[52]   Yunli Jin, Naiping Gao, Tong Zhu. The study of dynamic process of ORC variable conditions based on control characteristics analysis. Energy Procedia, 2017, Vol.129, 208-215

[53]   张洁,安巍,朱彤。聚光型太阳能分频利用系统的光学性能分析,太阳能学报,2017Vol.383),715-720EI20172303730410

[54]   周海舰,王海,朱彤。一种用于立体供热管网的水力计算方法,计算物理,2017Vol.343),355-364

[55]   张涛,朱彤,陈上,吴竺。多能源耦合系统的运行优化与改进分析,科学通报,2017Vol.6232),3693 ~ 3702EI检索:20175204586463

[56]   吴竺,朱彤,高乃平,谢飞博,潘登。有机朗肯循环涡旋膨胀机性能测试与仿真分析,制冷技术,2017vol371),8-12

[57]   吴竺,方晓艳,朱彤。径向间隙对涡旋膨胀机性能的影响,机械设计与制造,20179pp41-44,48

[58]   Hai WangHaiying WangTong Zhu. A new hydraulic regulation method on district heating system with distributed variable-speed pumps. Energy Conversion and Management2017147, pp174–189

[59]   Liuchen Liu, Tong Zhu, Jiacheng Ma. Working fluid charge oriented off-design modeling of a small scale Orgnanic Rankine Cycle (ORC) systemEnergy conversion and management 2017148944-953

[60]   吴竺,颜静,朱彤.涡旋膨胀机流场的三维动态数值模拟,煤气与热力,2017. Vol. 37(2).

[61]   Pan Y, Liu LC, Zhu T, et al. Feasibility analysis on distributed energy system of Chongming County based on RETScreen software. Energy, 2017,130:298-306.

[62]   方晓艳,吴竺,朱彤关于涡旋膨胀机性能的数值模拟研究,热能动力工程,2017. Vol. 32(1)pp25-30

[63]   吕亚亚,朱彤工业锅炉及炉窑大气污染物排放标准的对比分析,热能动力工程,2017. Vol. 32(1)pp1-6

[64]   宗超,朱彤.100kW微燃机燃烧室结构优化及数值模拟[J]. 燃烧科学与技术. 201723168-74

[65]   Hai Wang, Haiying Wang, Tong Zhu, Wanli Deng. A novel model for steam transportation considering drainage loss in pipeline networks. Applied Energy. Vol.188. 2017, pp178-189

[66]   Liuchen Liu, Tong Zhu, Yu Pan, Hai Wang. Multiple energy complementation based on Distributed Energy Systems - Case study of Chongming county, China. Applied Energy. Vol.192, 2017, pp329-336

[67]   Wei An, Jinrui Wu, Tong Zhu, Qunzhi Zhu. Experimental investigation of a concentrating PV/T collector with Cu9S5 nanofluid spectral splitting filter. Applied Energy. Vol.184, 2016, pp197-206

[68]   Tong Zhu*, Tao Zhang, Naiping Gao. The performance analysis of organic rankine cycles combined CCHP system. International Journal of Smart Grid and Clean Energy, Vol. 51, January 2016pp1-8

[69]   Tao Zhang, Tong Zhu*, Naiping Gao, Zhu Wu. Optimization Design of Capacity and Operation Strategy for Building Level Distributed Energy System. Procedia Engineering, Vol.146, 2016, pp231-238 EI20163102656363

[70]   谢飞博朱彤高乃平。冷源温度对小型ORC低温余热发电系统的影响。化工学报,2016.6710),4111-4117EI20164703037247

[71]   Xu Song, Liuchen Liu, Tong Zhu, Tao Zhang, Zhu Wu. Comparative analysis on operation strategies of CCHP system with cool thermal storage for a data center. Applied Thermal Engineering, 2016, 108: 680-688. (SCI 000384783000066EI 20163102669204)

[72]   Tao Zhang, Tong Zhu, Wei An, Xu Song, Hao Liu. Unsteady analysis of a bottoming Organic Rankine Cycle for exhaust heat recovery from an Internal Combustion Engine using Monte Carlo simulation. Energy Conversion and Management, 2016. 124: p. 357-368. (SCI 000382794100033, IF 4.8, EI, 20163002639986)

[73]   Jiacheng Ma, Liuchen Liu, Tong Zhu, Tao Zhang. Cascade utilization of exhaust gas and jacket water waste heat from an Internal Combustion Engine by a single loop Organic Rankine Cycle system. Applied Thermal Engineering, Vol. 107, 2016, pp218-226SCI000382794900023

[74]   刘豪,朱彤,张涛。上海地区不同类型建筑的CCHP-ORC系统评价与分析。中国电机工程学报,20163612),3198-3205EI20163002629133

[75]   钟芬,吴竺,朱彤,高乃平。低温余热驱动的热电复合系统优化设计。中国电机工程学报,20163612),3176-3183EI20163002629130

[76]   黄登峰,朱彤。超薄笔记本电脑底面温度场散热设计优化。井冈山大学学报,2016371),6-10

[77]   吴竺,颜静,谢飞博,朱彤,高乃平进气孔形状对涡旋膨胀机进气过程压力损失的影响研究压缩机技术,2016 (01): 1-7.

[78]   Xu H, Gao NP, Zhu T. Investigation on the fluid selection and evaporation parametric optimization for sub- and supercritical organic Rankine cycle, Energy, Vol.96, 201659-68.

[79]   王海,姚晟宇,朱彤,吴竺。宽量程组合燃气计量方法及计量特性实验研究,上海煤气。20165):27-32

[80]   Song X, Zhu T, Zhuang D, et al. Cooling and Dehumidification Capacity Chart of Surface Air Cooler in Air Conditioning[J]. Procedia Engineering, 2015, 121: 2014-2020.

[81]   宗超,朱彤,安巍。多枪平流式燃气燃烧器头部结构参数优化模拟[J],煤气与热力,Vol.35No.10,2015pp31-35

[82]   张洁,安巍,朱彤,高乃平,姜熙成。石英管参数对基于液体过滤分频光热光电系统光学性能的影响。井冈山大学学报,Vol.36No.32015pp1-5

[83]   An W, Zhang J, Zhu T, Gao N (2016) Investigation on a spectral splitting photovoltaic/thermal hybrid system based on polypyrrole nanofluid: preliminary test. Renewable Energy, Vol.86, pp. 633-642.

[84]   Wu Z, Pan D, Gao NP, Zhu T, Xie FB (2015) Experimental testing and numerical simulation of scroll expander in a small scale Organic Rankine Cycle. Applied Thermal Engineering, Vol.87,2015, pp. 529-537.

[85]   张涛,朱彤,高乃平,吴竺.分布式冷热电能源系统优化设计及多指标综合评价方法的研究[J].中国电机工程学报,201535(14)3706-3713(EI, 20153201157915)

[86]   金超花,朱彤。旋转对 Cz 法硅晶生长过程中热输运和熔体流动影响的数值模拟,人工晶体学报,2015441),pp31-37

[87]   宋旭,朱彤,等,空调表冷器降温除湿能力图,暖通空调,2015451),pp38-41

[88]   Wei An, Tong Zhu, NaiPing Gao. Accelerative iteration for coupled conductive–radiative heat transfer computation in semitransparent media, International Journal of Heat and Mass Transfer, 2015, 82, pp503-509

[89]   刘季华,朱彤,谢飞博,王海鹰,穆迪。ORC涡旋膨胀机旁通阀开启阀切换工况系统性能参数变化研究,流体机械,2015434),1-7

[90]   安巍,朱彤,等,银纳米三角片二聚体的近场辐射分析,工程热物理学报,2014356),pp1140-1143

[91]   金超花,朱彤,Cz法单晶硅生长过程功率及流体流动的实验研究与数值模拟,人工晶体学报,2014436),pp1438-1443,1452

[92]   穆迪,高乃平,朱彤,等,温度分层型水蓄冷槽斜温层的动态特性模拟,节能技术,2014325),pp404-409

[93]   An WeiZhu Tong. Numerical investigation of radiative properties and surface plasmon resonance of silver nanorod dimers on a substrateJournal of Quantitative Spectroscopy & Radiative Transfer20141321),pp28-35

[94]   潘登,高乃平,谢飞博,安巍,王海鹰,王海,朱彤,有机朗肯循环涡旋膨胀机性能试验研究,流体机械,2014425),pp10-14

[95]   张丽娜,朱彤,等,ORC系统热力性能计算程序开发,热能动力工程,2014291),pp41-45

[96]   胡滨,朱彤。内衬管对U型辐射管表面温度分布的影响,工业加热,2013423),pp11-13

[97]   王海,王海鹰,朱彤,一种新的分布式水泵供热布置方案分析,土木建筑与环境工程,2013355),pp98-105

[98]   崔家林,朱彤。实验炉内钢坯传热过程及其氧化烧损的数值模拟研究,节能技术,2013312),pp99-103,107

[99]   张婧瑜,朱彤,安巍。四种金属纳米杆粒子辐射特性的对比分析,节能技术,2013311),pp3-5,10

[100]安巍,朱彤,高乃平。改善切圆燃烧锅炉烟温偏差措施的数值模拟分析,热力发电,2012415),pp31-35

[101]高乃平,董昆,朱彤,向阳。房间内强自然对流的两方程模型模拟研究,同济大学学报,2012404),pp601-609

[102]王海,王海鹰,朱彤,周海珠。基于面向对象方法的多源环状管网水力计算,计算物理,2012295),pp713-720

[103]曹甄俊,朱彤。CO2稀释对甲烷-高温空气扩散燃烧及NO生成特性影响的化学动力学分析,燃烧科学与技术,2012182),pp123-130

[104]黄晓艳,吴家正,王海鹰,朱彤。中低温工业余热ORC回收装置的工质发展与应用。节能技术,2012301),pp34-3848

[105]CAO ZhenjunZHU Tong. Effects of CO2 Dilution on Methane Ignition in Moderate or Intense Low-oxygen Dilution (MILD) Combustion: A Numerical Study. Chinese Journal of Chemical Engineering, 2012, 20(4):701—709

[106]An Wei, Zhu Tong, Gao Naiping. Accelerate Iteration of Least-Squares Finite Element Method for Radiative Heat Transfer in Participating Media With Diffusely Reflecting Walls. Journal of Heat Transfer, April, 2012, Vol. 134, pp

[107]安巍,朱彤。模拟超短脉冲激光在截止中传输的扩散综合有限元法。计算物理,2012,291),pp121-126

[108]辛志宇,高乃平,朱彤。热冲压模具冷却系统数值模拟研究。热加工工艺,2012,411),pp170-174

[109]Li, Y. Zhu, T. Recovery of low grade haematite via fluidised bed magnetising roasting: Investigation of magnetic properties and liberation characteristics. Source: Ironmaking and Steelmaking, v 39, n 2, pp 112-120, February 2012EI20120214668100

[110]An Wei, Zhu Tong, Yin Lijie. Improved Iterative Convergence of the Finite-Element Method in the Solution of the Second-Order Radiative Transfer Equation by Modified Diffusion Synthetic Acceleration. Numerical Heat Transfer, Part B: Fundamentals 2011, 59(5), pp409-420 SCI****   IF1.029

[111]李渊,朱彤,辛志宇循环流化床预还原粉铁矿的动力学分析与计算.化工学报,2011629),pp2455-2463EI20113814343931

[112]曹甄俊,朱彤. 稀释气体对甲烷层流预混火焰燃烧速度的影响.同济大学学报,20113910),pp1557-1562EI20114714541378

[113]贺启滨,朱彤,董昆,高乃平,吴家正气溶胶在全混通风小室中浓度衰减的试验研究安全与环境学报,201111(3)109-111.

[114]贺启滨,高乃平,朱彤,吴家正人体呼出气溶胶在通风房间中运动的受力分析安全与环境学报,201111(1)pp242-245.

[115]He Qibin, Niu Jianlei, Gao Naiping, Zhu Tong, Wu Jiazheng. CFD Study of Exhaled Droplets Transmission between Occupants under Different Ventilation Strategies in a Typical Office Room. Building and Environment, 2011, 46(2): pp397-408. (SCI000284348400013EI:20104113293953)

[116]Gao Naiping, Niu Jianlei, He Qibin, Zhu Tong, Wu Jiazheng. Using RANS turbulence models and Lagrangian approach to predict particle deposition in turbulent channel flow. Building and Environment,48(1), p 206-214, February 2012.EI20114214442750

[117]      曹甄俊,朱彤,张婧瑜,高温空气燃烧技术工业化关键技术问题探析,工业加热,2010Vol.39No.637-42

[118]      李金厂,贺启滨,李渊,安巍,高乃平,朱彤,助燃空气旋转动量对燃气燃烧过程及NOx生成量的影响,工业加热,2010Vol.39No.630-33

[119]    李渊,夏晓宇,李志茂,朱彤,循环流化床还原红土矿富集镍铁的冷态实验研究,中国有色冶金,2010No.460-64

[120]     夏晓宇,李渊,朱彤,循环流化床回料阀内气固两相流的实验研究,热能动力工程,2010Vol.25No.5510-513

[121]贺启滨,高乃平,朱彤,吴家正,应用CFD方法模拟室内气溶胶的传输与沉积建筑热能通风空调,2010Vol.29No.126-31

[122]鲁海霖,岳优敏,高乃平,陈德珍,朱彤,垃圾焚烧炉干燥段通风阻力特性实验研究,环境工程学报,2010Vol.4No.1204-208

[123]施孝增高乃平朱彤吴家正,室内气溶胶颗粒浓度分布与传播特性的研究——对人体颗粒暴露的影响,建筑科学,2009Vol.25No. 1293-100

[124]李渊,朱彤,曹甄俊时间步长对有限容积法数值模拟的影响分析计算机仿真,2009 (3)117-120

[125]李志茂,朱彤,吴家正,镍资源的利用及镍铁产业的发展,中国有色金属,2009No.129-32

[126]杨静,王海鹰,朱彤,徐彤,王新雷,基于德州市供热管网的水力计算及事故工况分析,区域供热,2008No.521-26

[127]李志茂,朱彤,吴家正,镍资源利用与流化床冷态实验研究,中国有色金属,2008No.2174-75

[128]曹甄俊,朱彤,王海,李渊,高温空气非稳定燃烧火焰特性数值模拟研究,冶金能源2008No.516-20

[129]李志茂,朱彤,世界地热发电现状,太阳能,2007No.810-14

[130]贺启滨,杨静,朱彤,利用燃料电池客车废热的吸收式制冷空调系统可行性分析,汽车工程,2007Vol.29No.111005-1008

[131]黄峥,朱彤,孙金金,局部热源法在建筑节能现场检测中的应用,暖通空调,2007Vol.37No.7116-11826

[132]郑玮,朱尚龙,朱彤,高温空气烧嘴参数对NOX排放影响的试验研究,动力工程,2007Vol.27No.2pp287-291EI检索号:20071910595066

[133]孙金金,朱彤,吴家正,神经网络法求解墙体传热系数关键输入变量的分析,新型建筑材料,2006No.12pp61-64

[134]曹甄俊,朱彤,自身蓄热式烧嘴在梭式窑中的应用,中国陶瓷,2006Vol.42No.6pp38-41

[135]朱尚龙,陈丽,朱彤等,矩形空气喷口长宽比对高温空气燃烧NOX排放的影响,工业炉,2005Vol.27No.6pp4-8

[136]黄峥,朱彤,赵鸿,非稳态法检测建筑围护结构传热系数,墙材革新与建筑节能,2005No.8pp45-47

[137]陈丽,朱彤,抑制高温空气燃烧过程烟炱排放的初步探讨,工业加热,2004.12Vol.33No.6pp4-7

[138]李晓萍,朱彤,吴家正,高温空气燃烧中燃气/空气速度比对NOX生成的影响,工业加热,2004.8Vol.33No.4pp1-4

[139]Rao WentaoZhu TongOptimally Designing Regenerative Soaking Pit by Means of Numerical SimulationHigh Temperature Air Combustion – The Quest for Zero Emissions in Industrial FurnacesOctorber2003JernkontoretStockholmSwedenISBN 91-7283-662-8ISRN KTH/MSE—03/70— SE+ENERGY/PROCpp128-132

[140]饶文涛,朱彤,高温空气燃烧NOX生成规律研究,工业炉,Vol.25No.42003pp1-48

[141]苏正川,朱彤,均热炉燃烧系统改造方案的数值模拟研究,热能动力工程,2003.11Vol.18No.6pp636-638

[142]张毅勐,张鹤声,刘敏飞,朱彤,高温空气燃烧燃气热态试验炉非稳态数值模拟,能源研究与信息,Vol.19No.32003pp143-153

[143]饶文涛,朱彤,蓄热式均热炉数值模拟优化设计,工业加热,No.52003 pp19-22

[144]严磊,朱彤,吴家正等,燃气输送管道传热分析及其温度场计算软件开发,节能技术,No.52003pp5-7

[145]饶文涛,杜军,张鹤声,朱彤,蓄热烧嘴结构优化数值模拟研究,工业炉,Vol.24No.22002pp5-8

[146]刘敏飞,朱彤,张鹤声,高温空气燃烧技术的特点及其应用前景,能源研究与信息,No.12001pp27-35

[147]吴家正,朱彤,肖郴松等,酸洗对RDF热解动力学影响及半焦表面结构变化,燃料化学学报,Vol.29 No.2 2001pp135-139

[148]李芳芹,朱彤,谢洪,吴家正,佣经济系数在方案决策中的应用,电站系统工程,Vol.16No.52000pp275-277

[149]李芳芹,朱彤,谢洪,吴家正,折合佣辨析,节能技术,Vol.18No.42000pp6-7

[150]李芳芹,朱彤,吴家正,热经济学在煤气厂的应用,煤气与热力,Vol.22No.22002pp99-103

[151]Rao WentaoZhu TongZhang HeshengStudying of HTAC for very low heat value gas and regenerative burner structureForth international symposium on high temperature air combustion and gasificationRome2001

 

参与科研课题发表的论文:

[152]吴家正,汪雄平,朱彤,肖郴松,王晓舸,RDF预处理对热解动力学的影响,太阳能学报,Vol.23No.12002pp61-65EI收录:2002407123363

[153]Dezhen Chen Huiyou LiuTong Zhu. Choices of heat exchanger network for incineration plant fuelled with high water content municipal solid Waste. Eighth International Conference on Heat Transfer.4-26March2004LisbonPortugal

[154]CHEN DezhenWANG XiongpingZHU TongZHANG HeshengWaste Incineration Flue Gas Scrubbing with Modified Ca-Based Sorbents at Moderate to High Temperatures. Journal of Thermal Science2003Vol.12(3)283-288

[155]杜军,饶文涛,朱彤,CFD在蓄热式烧嘴设计上的应用,工业加热,Vol.16720023pp29-31

[156]秦裕琨,朱群益,朱彤等,水平浓淡风煤粉燃烧器在谏壁电厂的应用,中国电力,2000Vol.33No.11 14-16(EI收录:01015501300)

[157]朱群益,秦裕琨,吴少华,孙绍增,朱彤,水平浓淡风煤粉燃烧器低负荷稳燃性能的试验研究,动力工程,2003Vol.23No.3pp2400-2404

[158]吴家正,王晓舸,朱彤等,RDF热解前后表面结构变化的研究,燃料化学学报,Vol.27No.61999pp550-555

[159]肖郴松,朱彤,吴家正,城市固体废物的处置及其前景,Vol.17No.41999pp32-34

[160]吴家正,肖郴松,朱彤,二十一世纪中国能源矛盾和可持续发展,Vol.10No.31999pp45-50

[161]汪雄平,洪丽娟,吴家正,肖郴松,朱彤,压模成型对RDF热解动力学的影响,环境科学,Vol.23No.32002pp102-10

[162]姚钰锋,王新雷,陈德珍。修正矩阵算法用于分析供热机组性能。应用能源技术No.72008pp1-4

[163]姚钰锋,王新雷,陈德珍。单元矩阵算法在计算热电厂热力系统时的修正。能源技术Vol.29No.52008pp249-252


            以第一作者发表在核心期刊上的文章:

[1]      朱彤,朱尚龙,曹甄俊等,高温空气燃烧NOX排放特性的试验研究,工程热物理学报,2006Vol.27No.5pp894-896EI检索号:20064410215391

[2]      朱彤,吴家正,冯良,张鹤声,高温空气低燃气浓度燃烧过程的数值模拟研究,工程热物理学报,2005Vol.26,增刊,pp277-279

[3]      朱彤,李晓萍,吴家正,炉膛结构对炉内NOX生成的影响,工业炉,2004Vol.26No.6pp1-450

[4]      朱彤,苏正川,饶文涛,高温空气燃烧技术改造均热炉方案研究,同济大学学报,200432(8)pp1033-1037EI检索号:2004518734313

[5]      朱彤,严磊,吴家正,孙永康,郑克敏,燃气管道温度场的分析与计算,煤气与热力,Vol.24No.12004pp5-8

[6]      朱彤,张毅勐,刘敏飞,张鹤声,低热值煤气高温空气燃烧数值模拟。同济大学学报,Vol. 30No.82002pp932-937

[7]      朱彤,吴家正,孙绍增,秦裕琨,300MW双炉膛中煤粉颗粒的运动轨迹,同济大学学报,Vol.29 No.4 2001 pp431-435 EI收录:2001556801586

[8]      朱彤,陶瓷辊道窑用蓄热式燃烧装置分析及数值模拟,材料科学与工艺,Vol.9,增刊,2001 pp 762-764

[9]      朱彤,饶文涛,刘敏飞等,低NOX高温空气燃烧技术,热能动力工程,Vol.16No.32001.5pp328-330321EI收录:2001296583161

 

以第一作者发表在国内、国际会议上的论文:

 

[10]   Deng Pan, Tong Zhu, Chenzhen Ji, Ziyu Wang. Response of bluff body diffusion flame to low frequency acoustic perturbations. 27th International Congress on Sound and Vibration, ICSV 2021, 7. Virtual, Online.

[11]   Ji Chenzhen, Gao Han, Pan Deng, Zhu Tong. Detection of combustion instability on a 350 KW premixed combustion gas boiler by the wavelet packet entropy analysis. 27th International Congress on Sound and Vibration, ICSV 2021, 7. Virtual, Online.

[12]   Chao Zong, Yaya Lyu, Desan Guo, Chengqin Li, Tong Zhu. Experimental and numerical study on emission characteristics of the double annular swirler under different pilot fuel ratios[C]. ASME Turbo Expo 2018: Turbomachinery Technical Conference and Exposition (GT2018).Oslo (EI20184005898504)

[13]   Liu LC, Zhu T, Pan Y. Numerical predicting the dynamic behavior of heat exchangers for a small-scale Organic Rankine Cycle. The 4rd International Seminar on ORC Power System, September 13-15th, 2017, Milano, Italy.

[14]   Chao Zong, Tong Zhu. Numerical simulation study on characteristics of combustion process for a micro gas turbine combustion chamber under part load condition[C]. The 13th International Conference on Combustion & Energy Utilization. October 3-6th2016.TaiPei

[15]   Liu LC, Zhu T, Ma JC. Dynamic modeling and system performance prediction for waste heat recovery Organic Rankine Cycle. Proceedings of the 2017 International Conference on Power Engineering, June26-30, 2017, Charlotte, USA.

[16]   Shang Chen, Tong Zhu, Huayu Zhang, Tao Zhang ,Dynamic Simulation and performance evaluation of the compressed air energy storage system. Proceedings of the 2017 International Conference on Power Engineering, June26-30, 2017, Charlotte, USA

[17]   Chao Zong, Tong ZhuYaya Lyu. Numerical Investigation on Combustion Performance of a Novel Micro Gas Turbine Combustor under Low Load. Proceedings of the 2017 International Conference on Power Engineering, June26-30, 2017, Charlotte, USA

[18]   Tao Zhang, Tong Zhu, Naiping Gao, The performance analysis of Organic Rankine Cycles combined CCHP system, 5th International Conference on Clean and Green Energy, 2016 .02.01-08Roma, Italy

[19]   Xie FB, Zhu T, Liu JH, Gao NP, An W (2015) Experimental studies on an organic Rankine cycle system under variable condensation temperature. The 3rd International Seminar on ORC Power System, October 12-14th, 2015, Brussels, Belgium.

[20]   宗超,朱彤微燃机燃烧室掺混段结构优化及数值模拟[C].工程热物理年会.2015.北京

[21]   Gao Naiping, He Qibin, Niu Jianlei, Zhu Tong, Wu Jiazheng. Modeling particle deposition in turbulent duct flows using Lagrangian approach. 7th International Symposium on Heating, Ventilating and Air Conditioning, ISHVAC2011. Nov 06-09, 2011, Shanghai, China.

[22]   曹甄俊,朱彤,张婧瑜,高温空气燃烧关键技术问题,全国能源与热工2010学术年会,112010,厦门,pp155-159

[23]       Cao ZhenjunZhu Tong, Jin Chaohua. Thermal and emission characteristics of high temperature air combustion: A technical review. 2010 International Conference on Mechanic Automation and Control Engineering, MACE2010, p4010-4014, 2010(EI: 20103513201492)

[24]   Cao Zhenjun, Zhu Tong, Jin Chaohua, Wang Hai. The concept of control strategy for heating furnace using regenerative burners. 2010 International Conference on Mechanic Automation and Control Engineering, MACE2010, p3750-3752, 2010(EI: 20103513201193)

[25]   Li Yuan, Zhu Tong, Xin Zhiyu, Li Jinchang. Modeling the reduction behavior of iron ore fines in a circulating fluidized bed reactor. 2010 International Conference on Mechanic Automation and Control Engineering, MACE2010, p532-535, 2010(EI: 20103513202375)

[26]       He Qibin, Gao Naiping, Zhu Tong, Wu Jiazheng. Evaluation of exhaled infectious agents transmission between occupants under different ventilation systems indoors. 2010 4th International Conference on Bioinformatics and Biomedical Engineering, iCBBE 2010(EI: 20103613206777)

[27]   曹甄俊,朱彤,王海等,天然气高温空气燃烧温度特性的试验研究,中国工程热物理燃烧学学术会议,102008,西安

[28]   李志茂,朱彤,李渊等,红土镍矿流化床磁化焙烧冷态实验研究,中国工程热物理燃烧学学术会议,102008,西安

[29]   Cao  Zhenjun Zhu TongReview of low NOX combustion technology with highly preheated air in ChinaBaosteel BAC 2008(第三届宝钢学术年会),26-2892008,上海

[30]   Li Yuan, Zhu Tong, Transient study of high temperature air combustion by using EDC model, 8th European Conference on Industrial Furnace and Boilers, 25-28 March, 2008, Vilamoura, Portugal

[31]   朱彤,朱尚龙,曹甄俊,李芃,烧嘴结构及运行参数对高温空气燃烧NOX排放的试验研究,中国工程热物理燃烧学学术会议,112005,北京,pp818-822

[32]   Zhu TongChen LiZhang HeshengEffect of Burner Parameters on NOX Emission in High Temperature Air Combustion3rd i-CIPECOctober 21-232004HangzhouChina

[33]   朱彤,吴家正,冯良等,高温空气燃烧技术燃气射流速度对NOX生成的影响,中国工程热物理燃烧学学术会议,102004,大连

[34]   Zhu Tong Chen Dezhen Zhang Hesheng Numerical Simulation of NOX Emission during High Temperature Air Combustion for Burning Low Heat Value Gas Proceedings of International Conference on Energy and the Environment December 11-12.2003 Shanghai China. pp1030-1035 (Ei收录,2004258219049ISTP收录)

[35]   朱彤,苏正川,饶文涛,均热炉高温空气燃烧技术改造方案研究,中国工程热物理燃烧学学术会议,102003,上海,pp753-756

[36]   朱彤,关欣等,板翅式换热器瞬态温度响应新模型,中国工程热物理年会传热传质学术会议,上海,200210

[37]   Zhu Tong Zhang Hesheng High Temperature Air Combustion Technology for Burning Very Low Heat Value Gas The 1st  U. S.–China Symposium on CO2 Emission Control Science & Technology Hangzhou China Aug. 22-24 2001

[38]   朱彤,陈黟,上海地区建筑维护结构的保温隔热性能分析,中国建筑学会建筑物理分会第八届年会,天津,20001013~15pp11-14


已授权的发明专利:

[1]发明专利:高温空气烧嘴

申请号:200410053207.1

申请日期:2004728

发明人: 朱彤

[2]发明专利:一种高温空气加热器

申请号:03141801.5

公开号: CN 1474111A

发明人: 朱彤

申请日期:2003724

 

[3]发明专利一种高温烟气净化方法

申请号: 02151026.1

公开号: CN 1422689A

权公告号: CN 1179780C

发明人:陈德珍 朱彤 张鹤声 茅清希 林瑜

 

[4]发明专利:  一种高温空气燃气型平焰烧嘴

申请号: 200810203871.8

公开号:  CN101749708A 

发明人: 朱彤;贺启滨;王海;杨静;马驰

 

[5]发明专利:  一种喷流式高温气体发生器

申请号: 200810202982.7

公开号:  CN101737948A 

发明人: 朱彤;李渊;王海;李志茂;姚钰锋

 

[6]发明专利:   低热值燃气高温空气燃烧系统及方法

申请号: 200710040995.4

公开号:  CN101285576 

发明人: 曹甄俊; 

 

[7]发明专利:  一种α型回料阀

申请号: 200910052774.8

公开号: CN101922707A

发明人:  夏晓宇;朱彤;李渊












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