論文專著:
出版專著:
[1]2019年,程強,黃志鋒,周懷春,精確高效求解輻射傳遞方程的DRESOR法, 北京:科學出版社,2019年6月. ISBN: 978-7-03-061266-3.
[2]2016年,《微納尺度傳熱》. [美]Zhuomin M. Zhang(張卓敏)、程強、王志超、張險、周懷春譯,微納尺度傳熱,北京:清華大學出版社,2016
[3]2009年,《輻射介質傳熱》,劉偉,周懷春,楊昆,婁春,北京:中國電力出版社
[4]2008年,《現代熱物理測試技術》,黃素逸,周懷春等,編著,北京:清華大學出版社
[5]2008年,《火力發電廠節能技術叢書》,周懷春,主編,北京:中國電力出版社
[6]2005年,《爐內火焰可視化檢測原理與技術》,周懷春,北京:科學出版社
[7]2001年,《煤粉燃燒》,韓才元,徐明厚,周懷春, 邱建榮,北京:科學出版社
[8]2001年,《鍋爐改造技術》,周懷春,北京:中國電力出版社
[9]1992年,《積分表匯編》,鄒鳳梧,劉中柱,周懷春,北京:宇航出版社
發表英文期刊論文:
[1]Si, Mengting; Cheng, Qiang*; Yuan, Lin; Luo, Zixue*; Yan, Weijie; Zhou, Huaichun.Study on the combustion behavior and soot formation of single coal particle using hyperspectral imaging technique.Combustion and Flame, 2021, 233: 111568.
[2]Liu, Haidong*; Zhou, Huaichun; Hong, Wenpeng; Han, Yafen.Key parameter analysis of the DRESOR method for calculating the radiative heat transfer in three-dimensional absorbing, emitting and scattering media.International Journal of Thermal Sciences, 2021, 168: 107047.
[3]Liu, Haidong; Zhou, Huaichun*; Hong, Wenpeng; Han, Yafen.Optimization of the DRESOR method for application in a medium with large scattering albedo.Journal of Quantitative Spectroscopy and Radiative Transfer, 2021, 271: 107746.
[4]Yang, Xiao*; Yu, Bo; Yang, Wenming*; Zhou, Huaichun.Investigation of heat transfer characteristics of hydrogen combustion process in cylindrical combustors from microscale to mesoscale.International Journal of Hydrogen Energy, 2021, 46(51): 25893-25907.
[5]Li, Kuangyu; Yan, Weijie*; Yu, Lingbo; Huang, Xianliang; Chen, Yumin; Zhou, Huaichun; Zheng, Shu; Lou, Chun.Simultaneous Determination of Na Concentration and Temperature during Zhundong Coal Combustion using the Radiation Spectrum.Energy & Fuels, 2021, 35(4): 3348-3359.
[6]Liu, Huawei; Zhou, Huaichun*; Xu, Chao.Real-time measurement method for the skin temperature of the human arm via large lateral shearing interferometry.Applied Optics, 2021, 60(3): 763-772.
[7]Liu, Huawei*; Zhou, Huaichun; Xu, Chao.A decomposition method for the simultaneous reconstruction of temperature and soot volume fraction distributions in axisymmetric flames.Measurement Science and Technology, 2020, 31(11): 115202. DOI: 10.1088/1361-6501/ab9dbf
[8]Zheng, Shu; Sui, Ran; Liang, Wenkai*; Zhou, Huaichun; Law, Chung K.On band lumping, radiation reabsorption, and high-pressure effects in laminar flame propagation.Combustion and Flame, 2020, 221: 86-93.
[9]Liu, Haidong; Zhou, Huaichun*; Wang, Dandan; Han, Yafen.Performance comparison of two monte carlo ray-tracing methods for calculating radiative heat transfer.Journal of Quantitative Spectroscopy and Radiative Transfer, 2020, 256: 107305.
[10]Li, Yan-qin*; Wang, Yan-wen*; Guan, Xue-feng; Zhou Huai Chun; Ma, Xin-ling*.A wavelet model on reconstructing complex aerodynamic field in furnace with acoustic tomography.Measurement, 2020, 157: 107669.
[11]Zheng, Shu; Sui, Ran; Yang, Yu; Sun, Yujia; Zhou, Huaichun; Lu, Qiang*.An improved full-spectrum correlated-k-distribution model for non-gray radiative heat transfer in combustion gas mixtures.International Communications in Heat and Mass Transfer, 2020, 114: 104566.
[12]Zheng, Shu*; Liang, Wenkai; Chu, Huaqiang; Zhou, Huaichun*.Effects of radiation reabsorption of C1-C6 hydrocarbon flames at normal and elevated pressures.Fuel, 2020, 266: 117061.
[13]Zheng, Jianxiang*; Wang, Ziyu; Shen, Zhiheng; Wang, Zongqun; Li, Yukai; Zhou, Huaichun.The Simulation of Cohesive Particle Agglomeration in a Fluidized Bed Using the Modified KTGF-PBM.Journal of Chemical Engineering of Japan, 2020, 53(3): 85-94.
[14]Wang, Dandan; Cheng, Qiang; Zhuo, Xusheng; Zhou, Huaichun*.Effects of surface emissivity and medium scattering albedo on the computational accuracy of radiative heat transfer by MCM.Journal of Quantitative Spectroscopy and Radiative Transfer, 2020, 240: 106712.
[15]Wang, Dandan; Zhou, Huaichun*.Quantitative evaluation of the computational accuracy for the Monte Carlo calculation of radiative heat transfer.Journal of Quantitative Spectroscopy and Radiative Transfer, 2019, 226: 100-114.
[16]Zheng, Shu; Qi, Chaobo; Zhou, Huaichun*.Experimental investigations of temperature distribution in non-premixed flames with different gas compositions by large lateral shearing interferometry.Journal of Quantitative Spectroscopy and Radiative Transfer, 2019, 224: 445-452.
[17]Zheng, Shu; Yang, Yu; Zhou, Huaichun*.The effect of different HITRAN databases on the accuracy of the SNB and SNBCK calculations.International Journal of Heat and Mass Transfer, 2019, 129: 1232-1241.
[18]Zheng, Shu*; Ni, Li; Liu, Huawei*; Zhou, Huaichun.Measurement of the distribution of temperature and emissivity of a candle flame using hyperspectral imaging technique.Optik, 2019, 183: 222-231.
[19]Zhuo, Xusheng*; Lou, Chun; Zhou, Huaichun; Zhuo, Jinxuan; Fu, Peifang.Hierarchical Takagi-Sugeno fuzzy hyperbolic tangent static model control for a circulating fluidized bed boiler thermal power unit.Energy, 2018, 162: 910-917.
[20]Zheng, Shu; Qi, Chaobo; Huang, Zhifeng; Zhou, Huaichun*.Non-gray radiation study of gas and soot mixtures in one-dimensional planar layer by DRESOR.Journal of Quantitative Spectroscopy and Radiative Transfer, 2018, 217: 425-431.
[21]Yue, Fang; Fu, Peifang*; Liu, Yang; Bie, Kang; Zhou, Huaichun.Determination of the binary gas diffusion coefficients using large lateral shearing interferometry.Optik, 2018, 156: 825-833.
[22]Zeng Xiongwei; Zheng Shu*; Zhou Huaichun*.The Phenomena of Secondary Weight Loss in High-Temperature Coal Pyrolysis.Energy & Fuels, 2017, 31(9): 10178-10185.
[23]Yan, Weijie; Zheng, Shu*; Zhou, Huaichun.Experiments investigation on 2D distribution of soot temperature and volume fraction by image processing of visible radiation.Applied Thermal Engineering, 2017, 124: 1014-1022.
[24]Qi Chaobo; Zheng Shu*; Zhou Huaichun*.Calculations of thermal radiation transfer of C2H2 and C2H4 together with H2O, CO2, and CO in a one-dimensional enclosure using LBL and SNB models.Journal of Quantitative Spectroscopy and Radiative Transfer, 2017, 197: 45-50.
[25]Lu, Jia; Zhou, Huaichun*.Numerical reproduction and explanation of road surface mirages under grazing-angle scattering.Applied Optics, 2017, 56(19): 5550-5558.
[26]Qi Chaobo; Zheng Shu*; Zhou Huaichun*.Experimental investigation on gas-phase temperature of axisymmetric ethylene flames by large lateral shearing interferometry.International Journal of Thermal Sciences, 2017, 115: 104-111.
[27]Zhang, Bin; Fu, Peifang*; Liu, Yang; Yue, Fang; Chen, Jing; Zhou, Huaichun; Zheng, Chuguang.Investigation on the ignition, thermal acceleration and characteristic temperatures of coal char combustion.Applied Thermal Engineering, 2017, 113: 1303-1312.
[28]Liu Huawei; Zheng Shu; Zhou Huaichun.Measurement of Soot Temperature and Volume Fraction of Axisymmetric Ethylene Laminar Flames Using Hyperspectral Tomography.IEEE Transactions on Instrumentation and Measurement, 2017, 66(2): 315-324.
[29]Zheng Shu*; Zeng Xiongwei; Qi Chaobo; Zhou Huaichun*.Mathematical modeling and experimental validation of ash deposition in a pulverized-coal boiler.Applied Thermal Engineering, 2017, 110: 720-729.
[30]Shu Zheng; Xiongwei Zeng; Chaobo Qi; Huaichun Zhou.Modeling of ash deposition in a pulverized-coal boiler by direct simulation Monte Carlo method.Fuel, 2016, 184: 604-612.
[31]Liu, Yang; Fu, Peifang*; Zhang, Bin; Yue, Fang; Zhou, Huaichun; Zheng, Chuguang.Study on the surface active reactivity of coal char conversion in O2/CO2 and O2/N2 atmospheres.Fuel, 2016, 181: 1244-1256.
[32]Lu, Jia; Zhou, Huaichun*.Finite-difference time-domain modeling of curved material interfaces by using boundary condition equations method.Chinese Physics B, 2016, 25(9): 090203.
[33]Zhang Xiangyu*; Zheng Shu; Zhou Huaichun; Zhang Bo; Wang Huajian; Xu Hongjie.Simultaneously reconstruction of inhomogeneous temperature and radiative properties by radiation image processing.International Journal of Thermal Sciences, 2016, 107: 121-130.
[34]Xiongwei Zeng; Shu Zheng; Huaichun Zhou; Qingyan Fang; Chun Lou.Char burnout characteristics of five coals below and above ash flow temperature: TG, SEM, and EDS analysis.Applied Thermal Engineering, 2016, 103: 1156-1163.
[35]Zhuwei Liu; Shu Zheng; Zixue Luo; Huaichun Zhou*.A new method for constructing radiative energy signal in a coal-fired boiler.Applied Thermal Engineering, 2016, 101: 446-454.
[36]Huaqiang Chu; Mingyan Gu; Jean-Louis Consalvi; Fengshan Liu; Huaichun Zhou.Effects of total pressure on non-grey gas radiation transfer in oxy-fuel combustion using the LBL, SNB, SNBCK, WSGG, and FSCK methods.Journal of Quantitative Spectroscopy and Radiative Transfer, 2016, 172: 24-35.
[37]Liu, Huawei; Zheng, Shu; Zhou, Huaichun*; Qi, Chaobo.Measurement of distributions of temperature and wavelength-dependent emissivity of a laminar diffusion flame using hyper-spectral imaging technique.Measurement Science and Technology, 2016, 27(2): 025201.
[38]Shu, ZHENG; HuaiChun, ZHOU.Discussion on the development of a 3D, dynamic and real-time digital boiler.Scientia Sinica Technologica, 2016, 46(1): 20-35.
[39]Liu Hua-Wei; Zheng Shu; Zhou Huai-Chun*.An iterative virtual projection method to improve the reconstruction performance for ill-posed emission tomographic problems.Chinese Physics B, 2015, 24(10): 104204.
[40]Shu Zheng; Xiangyu Zhang; Chaobo Qi; Huaichun Zhou.Modeling of heat transfer and pyrolysis reactions in ethylene cracking furnace based on 3-D combustion monitoring.International Journal of Thermal Sciences, 2015, 94: 28-36.
[41]Jia-le Chai; Qiang Cheng*; Jin-lin Song; Zhi-chao Wang; Huai-chun Zhou.The DRESOR method for one-dimensional transient radiative transfer in graded index medium coupled with BRDF surface.International Journal of Thermal Sciences, 2015, 91: 96-104.
[42]Huang, Zhifeng; Zhou, Huaichun*; Wang, Guihua; Hsu, Pei-feng.Equation Solving DRESOR Method for Radiative Transfer in Three-Dimensional Isotropically Scattering Media.Journal of Heat Transfer, 2014, 136(9): 092702.
[43]Cheng, Qiang*; Zhang, Xian; Huang, Zhifeng; Wang, Zhichao; Zhou, Huaichun*.The DRESOR method for radiative heat transfer in semitransparent graded index cylindrical medium.Journal of Quantitative Spectroscopy and Radiative Transfer, 2014, 143: 16-24.
[44]Cheng, Qiang*; Zhang, Xiangyu; Wang, Zhichao; Zhou, Huaichun; Shao, Song.Simultaneous Measurement of Three-Dimensional Temperature Distributions and Radiative Properties Based on Radiation Image Processing Technology in a Gas-Fired Pilot Tubular Furnace.Heat Transfer Engineering, 2014, 35(6-8): 770-779.
[45]Zhou, Zheng; Cheng, Qiang*; Li, Pingping; Zhou, Huaichun.Non-imaging concentrating reflectors designed for solar concentration systems.Solar Energy, 2014, 103: 494-501.
[46]Zheng Shu; Luo Zixue*; Deng Yanxiang; Zhou Huaichun.Development of a distributed-parameter model for the evaporation system in a supercritical W-shaped boiler.Applied Thermal Engineering, 2014, 62(1): 123-132.
[47]Qiang Cheng*; Pingping Li; Jia Lu; Xingjian Yu; Huaichun Zhou*.Silicon complex grating with different groove depths as an absorber for solar cells.Journal of Quantitative Spectroscopy and Radiative Transfer, 2014, 132: 70-79.
[48]Chu H.*; Gu M.; Zhou H.; Liu F..Calculations of narrow-band transimissities and the Planck mean absorption coefficients of real gases using line-by-line and statistical narrow-band models.Frontiers in Energy, 2014, 8(1): 41-48.
[49]Luo, Zixue*; Deng, Yanxiang; Zheng, Shu; Zhou, Huaichun.Analysis of the hydraulic resistance of a water wall based on a distributed parameter model in a supercritical once-through boiler.Journal of Thermal Science and Engineering Applications, 2014, 6(1).
[50]Zhi-chao Wang; Jin-lin Song; Jia-le Chai; Qiang Cheng*; Huai-chun Zhou*.The effect of BRDF surface on radiative heat transfer within a one-dimensional graded index medium.International Journal of Thermal Sciences, 2014, 77: 116-125.
[51]Yan, Weijie; Zhou, Huaichun*; Jiang, Zhiwei; Lou, Chun*; Zhang, Xiaoke; Chen, Donglin.Experiments on Measurement of Temperature and Emissivity of Municipal Solid Waste (MSW) Combustion by Spectral Analysis and Image Processing in Visible Spectrum.Energy & Fuels, 2013, 27(11): 6754-6762.
[52]Liu, F.*; Chu, H.; Zhou, H.; Smallwood, G.J..Evaluation of the absorption line blackbody distribution function of CO2 and H2O using the proper orthogonal decomposition and hyperbolic correlations.Journal of Quantitative Spectroscopy and Radiative Transfer, 2013, 128: 27-33.
[53]Guo Zhe; Lou Chun*; Liu ZhengDong; Zhou HuaiChun.The impact of combustion characteristics and flame structure on soot formation in oxy-enhanced and oxy-fuel diffusion flames.Science China Technological Sciences, 2013, 56(7): 1618-1628.
[54]Wang, Zhichao; Cheng, Qiang; Zhou, Huaichun*.The DRESOR method for transient radiation transfer in 1-D graded index medium with pulse irradiation.International Journal of Thermal Sciences, 2013, 68: 127-135.
[55]Huang, Zhifeng; Zhou, Huaichun*; Cheng, Qiang; Hsu, Pei-feng.Solution of radiative intensity with high directional resolution in three-dimensional rectangular enclosures by DRESOR method.International Journal of Heat and Mass Transfer, 2013, 60(1): 81-87.
[56]Wang Zhichao*; Cheng Qiang; Chu Huaqiang; Zhou Huaichun.Study on medium temperature node under radiative equilibrium.Journal of Huazhong University of Science and Technology (Natural Science Edition), 2013, 41(3): 101-105.
[57]Zheng, Shu; Luo, Zixue*; Zhou, Huaichun.DISTRIBUTED PARAMETER MODELING AND THERMAL ANALYSIS OF A SPIRAL WATER WALL IN A SUPERCRITICAL BOILER.Thermal Science, 2013, 17(5): 1337-1342.
[58]Qiu, Jun; Wu, Yuan Ting; Huang, Zhifeng; Hsu, Pei-Feng*; Liu, Lin-Hua; Zhou Huai Chun.A hybrid partial coherence and geometry optics model of radiative property on coated rough surfaces.Journal of Heat Transfer-Transactions of the ASME, 2013, 135(9).
[59]B. Yu; P.-F. Fu*; T. Zhang; H-C. Zhou.The influence of back pressure on the flow discharge coefficients of plain orifice nozzle.International Journal of Heat and Fluid Flow, 2013, 44: 509-514.
[60]Lv, Wei*; Zhou, Huaichun; Lou, Chun; Zhu, Jinrong.Spatial and temporal film thickness measurement of a soap bubble based on large lateral shearing displacement interferometry.Applied Optics, 2012, 51(36): 8863-8872.
[61]Guihua W.; Huaichun Z.*; Qiang C.; Zhichao W.Equation-Solving DRESOR Method for Radiative Transfer in an Absorbing-Emitting and Isotropically Scattering Slab With Diffuse Boundaries.Journal of Heat Transfer, 2012, 134(12): 122702.
[62]Chu, Huaqiang; Liu, Fengshan*; Zhou, Huaichun.Calculations of gas radiation heat transfer in a two-dimensional rectangular enclosure using the line-by-line approach and the statistical narrow-band correlated-k model.International Journal of Thermal Sciences, 2012, 59: 66-74.
[63]Jiang, Runhua; Zhou, Zhenqiao; Lv, Xiaohua*; Zeng, Shaoqun; Huang, Zhifeng; Zhou, Huaichun.Spatial and temporal thermal analysis of acousto-optic deflectors using finite element analysis model.Ultrasonics, 2012, 52(5): 643-649.
[64]Li, Yanqin*; Zhou, Huaichun; Chen, Shiying; Zhang, Yindi; Wei, Xinli; Zhao, Jinhui.Acoustic reconstruction of the velocity field in a furnace using a characteristic flow model.Journal of the Acoustical Society of America, 2012, 131(6): 4399-4408.
[65]Wang Guihua; Zhou Huaichun*; Cheng Qiang; Wang Zhichao; Huang Zhifeng.Equation-solving DRESOR method for radiative transfer in a plane-parallel, absorbing, emitting, and isotropically scattering medium with transparent boundaries.International Journal of Heat and Mass Transfer, 2012, 55(13-14): 3454-3457.
[66]Fang, Qingyan; Musa, Amir A. B.; Wei, Yan; Luo, Zixue; Zhou, Huaichun*.Numerical Simulation of Multifuel Combustion in a 200 MW Tangentially Fired Utility Boiler.Energy & Fuels, 2012, 26(1): 313-323.
[67]Li Y Q*; Chen S Y; Zhou H C; Zhang Y D; Qin J W.Acoustic measurement of in-furnace air velocity fields based on apriori knowledge.Dongli Gongcheng Xuebao/Journal of Chinese Society of Power Engineering, 2012, 32(4): 261-267.
[68]Li G J; Fu P F*; Ma Q L; Wang N; Zhou H C.Effect of reduction atmosphere on sulfur dioxide capture in CFB.Dongli Gongcheng Xuebao/Journal of Chinese Society of Power Engineering, 2012, 32(3): 212-216.
[69]Wang Guihua; Zhou Huaichun*; Cheng Qiang; Wang Zhichao.Equation-Solving DRESOR Method for Radiative Transfer in an Absorbing–Emitting and Isotropically Scattering Slab With Diffuse Boundaries, Journal of Heat Transfer, 2012, Vol. 134 / 122702.Journal of Heat Transfer-Transactions of the ASME, 2012, 134(12): 122702.
[70]Zheng, Shu; Luo, Zixue*; Zhang, Xiangyu; Zhou, Huaichun.Distributed parameters modeling for evaporation system in a once-through coal-fired twin-furnace boiler.International Journal of Thermal Sciences, 2011, 50(12): 2496-2505.
[71]Wang, Zhichao; Cheng, Qiang; Wang, Guihua; Zhou, Huaichun*.The DRESOR method for radiative heat transfer in a one-dimensional medium with variable refractive index.Journal of Quantitative Spectroscopy and Radiative Transfer, 2011, 112(18): 2835-2845.
[72]Luo, Zixue; Wang, Fei; Zhou, Huaichun*; Liu, Rutie; Li, Wenchang; Chang, Gengzhou.Principles of optimization of combustion by radiant energy signal and its application in a 660 MWe down- and coal-fired boiler.Korean Journal of Chemical Engineering, 2011, 28(12): 2336-2343.
[73]Zhou Guoyi; Qin Jianwei; Sun Yipeng; Li Zhonggen; Luo Zixue*; Zhou Huaichun.Experimental detection of radiative energy signal from a supercharged marine boiler and simulation on its application in control of drum water level.Applied Thermal Engineering, 2011, 31(16): 3168-3175.
[74]Chu, Huaqiang; Liu, Fengshan*; Zhou, Huaichun.Calculations of gas thermal radiation transfer in one-dimensional planar enclosure using LBL and SNB models.International Journal of Heat and Mass Transfer, 2011, 54(21-22): 4736-4745.
[75]Zhang Yin-di; Lou Chun; Xie Ming-liang; Fang Qing-yan; Zhou Huai-Chun*.Computation and measurement for distributions of temperature and soot volume fraction in diffusion flames.JOURNAL OF CENTRAL SOUTH UNIVERSITY OF TECHNOLOGY, 2011, 18(4): 1263-1271.
[76]Lv, Wei; Zhou Huai Chun*; Zhu, Jin-Rong.Implementation of tridirectional large lateral shearing displacement interferometry in temperature measurement of a diffused ethylene flame.Applied Optics, 2011, 50(21): 3924-3936.
[77]Huang, Zhi-Feng; Hsu, Pei-feng*; Wang, Ai-Hua; Chen, Yu-Bin; Liu, Lin-Hua; Zhou Huai Chun.Wavelength-selective infrared absorptance of heavily doped silicon complex gratings with geometric modifications.Journal of the Optical Society of America B-Optical Physics, 2011, 28(4): 929-936.
[78]Zhou HuaiChun*; Huang ZhiFeng; Cheng Qiang; Lue Wei; Qiu Kui; Chen Chen; Hsu Pei-feng.Road surface mirage: A bunch of hot air?.Chinese Science Bulletin, 2011, 56(10): 962-968.
[79]Zhi-Feng Huang; Huai-Chun Zhou; Pei-feng Hsu*.Improved Discrete Ordinates Method for Ray Effects Mitigation.Journal of Heat Transfer-Transactions of the ASME, 2011, 133(4): 044502.
[80]Li Wenhao; Lou Chun*; Sun Yipeng; Zhou Huaichun.Estimation of radiative properties and temperature distributions in coal-fired boiler furnaces by a portable image processing system.Experimental Thermal and Fluid Science, 2011, 35(2): 416-421.
[81]Lou, Chun*; Li, Wen-Hao; Zhou Huai Chun; Salinas, Carlos T.Experimental investigation on simultaneous measurement of temperature distributions and radiative properties in an oil-fired tunnel furnace by radiation analysis.International Journal of Heat and Mass Transfer, 2011, 54(1-3): 1-8.
[82]Sun, Yi-Peng; Lou, Chun*; Zhou Huai Chun.Estimating soot volume fraction and temperature in flames using stochastic particle swarm optimization algorithm.International Journal of Heat and Mass Transfer, 2011, 54(1-3): 217-224.
[83]Luo Z*; Yan X; Zheng S; Zhou H.Modeling distributed parameters in evaporation system with twin-furnace once-through boiler.Journal of Huazhong University of Science and Technology (Natural Science Edition), 2011, 39(3): 120-123.
[84]Jiang Z*; Zhou H; Luo Z.Online prediction model of heat absorption capacity in a circulating fluidized bed boiler.Journal of Huazhong University of Science and Technology (Natural Science Edition), 2011, 39(10): 125-127.
[85]Zhang X Y*; Cheng Q; Zhou H C.Simultaneous measurements of the two-dimentional temperature distribution and solid radiation parameters in a heating furnace.Journal of Engineering Thermophysics, 2011, 32(2): 287-290.
[86]Chu H Q*; Cheng Q; Wang Z C; Zhou H C.Comparison of soot particles radiative models based on the narrow band model.Journal of Engineering Thermophysics, 2011, 32(6): 1039-1042.
[87]Sun Y P*; Lou C; Chen C; Yan W J; Zhou H C.Simultaneous reconstruction of temperature and soot volume fraction in ethylene flame using SPSO method.Journal of Engineering Thermophysics, 2011, 32(5): 847-850.
[88]Fang Q*; Wang H; Chen G; Zhou H.Optimal simulation on the combination mode of mills for an ultra-supercritical utility boiler.Proceedings of the CSEE, 2011, 31(5): 1-6.
[89]Cheng Q*; Wang Z C; Huang Z F; Zhou H C.Numerical simulation of radiative property of cosine rough surface.Journal of Engineering Thermophysics, 2011, 32(12): 2096-2099.
[90]Zhou, Ru-Chang; Fang, Qing-Yan; Fu, Pei-Fang; Zhou Huai Chun.Effect of additives on the combustion characteristics of an australia coal under O2/CO2atmosphere.Journal of Engineering Thermophysics, 2011, 32(12): 2151-2155.
[91]Zhu J.*; Huang S.; Lv W.; Zhou H.Study on the measurement of temperature field using laser holographic interferometry.Frontiers of Energy and Power Engineering in China, 2011, 5(1): 120-124.
[92]Zhang Xiangyu; Cheng Qiang; Lou Chun; Zhou Huaichun*.An improved colorimetric method for visualization of 2-D, inhomogeneous temperature distribution in a gas fired industrial furnace by radiation image processing.Proceedings of the Combustion Institute, 2011, 33(2): 2755-2762.
[93]Sun Yipeng; Lou Chun; Zhou Huaichun*.A simple judgment method of gray property of flames based on spectral analysis and the two-color method for measurements of temperatures and emissivity.Proceedings of the Combustion Institute, 2011, 33: 735-741.
[94]Wenhao Li; Chun Lou*; Yipeng Sun; Huaichun Zhou.Estimation of radiative properties and temperature distributions in coal-fired boiler furnaces by a portable image processing system.Experimental Thermal and Fluid Science, 2010, 35(11): 416-421.
[95]Zhang Yindi; Zhou Huaichun*; Xie Mingliang; Fang Qingyan; Wei Yan.Modeling of Soot Formation in Gas Burner Using Reduced Chemical Kinetics Coupled with CFD Code.Chinese Journal of Chemical Engineering, 2010, 18(6): 967-978.
[96]Fang, Qingyan; Wang, Huajian; Zhou, Huaichun*; Lei, Lin; Duan, Xuelong.Improving the Performance of a 300 MW Down-Fired Pulverized-Coal Utility Boiler by Inclining Downward the F-Layer Secondary Air.Energy & Fuels, 2010, 24(9): 4857-4865.
[97]Xu, Zhenghe; Zhou Huai Chun.Advanced coal combustion and utilization part II - fundamentals and new technology.Asia-Pacific Journal of Chemical Engineering, 2010, 5(3): 401-402.
[98]Huang, Benyuan; Luo, Zixue*; Zhou, Huaichun.Optimization of combustion based on introducing radiant energy signal in pulverized coal-fired boiler.Fuel Processing Technology, 2010, 91(6): 660-668.
[99]Cheng, Qiang; Luo, Zi-Xue*; Zhou Huai Chun.Numerical simulation on radiative heat transfer through a two-dimensional rectangular domain with inhomogeneous, absorbing and isotropic/anisotropic scattering media exposed to collimated irradiation.International Journal of Nonlinear Sciences and Numerical Simulation, 2010, 11(11): 927-945.
[100]Fu, Pei-Fang; Zhou Huai Chun*.SCT reaction kinetics model and diffusion for p.c. combustion in TGA.Asia-Pacific Journal of Chemical Engineering, 2010, 5(2): 390-395.
[101]Fang, Qingyan; Wang, Huajian; Wei, Yan; Lei, Lin; Duan, Xuelong; Zhou, Huaichun*.Numerical simulations of the slagging characteristics in a down-fired, pulverized-coal boiler furnace.Fuel Processing Technology, 2010, 91(1): 88-96.
[102]Chen, Xun; Fu, Pei-Fang; Zhou Huai Chun.Experimental study of specific heat models of coal-chars by applying DSC.Journal of Engineering Thermophysics, 2010, 31(1): 169-172.
[103]Lu Jing; Zhou Huai-Chun.Experimental Investigations on the Influence of Assumptions in Soot Volume Fraction Measurement by TPD Method.Journal of Beijing Institute of Technology, 2009, 18(04): 402-407.
[104]Wang Huajian; Huang Zhifeng; Wang Dundun; Luo Zixue; Sun Yipeng; Fang Qingyan; Lou Chun; Zhou Huaichun.Measurements on flame temperature and its 3D distribution in a 660 MWe arch-fired coal combustion furnace by visible image processing and verification by using an infrared pyrometer.Measurement Science and Technology, 2009, 20(11): 114006.
[105]Xie Ming-liang; Zhou Huai-Chun; Zhang Yin-di.HYDRODYNAMICS STABILITY OF BICKLEY JET WITH PARTICLE LADEN FLOW.Journal of Hydrodynamics, 2009, 21(5): 608-613.
[106]Huang, Zhi-feng; Cheng, Qiang; Zhou Huai Chun*.The Iterative-DRESOR method to solve radiative transfer in a plane-parallel, anisotropic scattering medium with specular-diffuse boundaries.Journal of Quantitative Spectroscopy and Radiative Transfer, 2009, 110(13): 1072-1084.
[107]Fang, Qing-Yan; Wang, Hua-Jian; Li, Wei-Jie; Zhou Huai Chun*; Lei, Lin; Duan, Xue-Long; Li, Guan-Wu; Yang, Hui.Combustion modeling of blended coal in a 300-MW tangentially fired boiler using a two-mixture-fraction model.Asia-Pacific Journal of Chemical Engineering, 2009, 4(4): 471-479.
[108]Xie Ming-Liang; Zhou Huai-Chun; Chan Tat-Leung.An Improved Petrov-Galerkin Spectral Collocation Solution for Linear Stability of Circular Jet.Computer Modeling in Engineering & Sciences, 2009, 46(3): 271-289.
[109]Jiang, Zhi-Wei; Luo, Zi-Xue; Zhou Huai Chun.A simple measurement method of temperature and emissivity of coal-fired flames from visible radiation image and its application in a CFB boiler furnace.Fuel, 2009, 88(6): 980-987.
[110]Xie, M. L.; Lin, J. Z.; Zhou, H. C.TEMPORAL STABILITY OF A PARTICLE-LADEN BLASIUS BOUNDARY LAYER.Modern Physics Letters B, 2009, 23(2): 203-216.
[111]Xie Mingliang; Lin Jianzhong; Zhou Huaichun.The effect of non-linear interaction between gas and particle velocities on the hydrodynamic stability in the Blasius boundary layer.International Journal of Non-Linear Mechanics, 2009, 44(1): 106-114.
[112]Zhi wei, JIANG; Zi xue, LUO; Huai chun, ZHOU; Zhi gang, LI.B310 ONLINE PREDICTION MODEL OF HEAT ABSORPTION RATE BASED ON IMAGE PROCESSING IN A CIRCULATING FLUIDIZED BED BOILER(Multiphase Flow-3).The Proceedings of the International Conference on Power Engineering (ICOPE), 2009, 2009.3(3):113-116.
[113]Feng, Jie; Fu, Pei-Fang; Zhou Huai Chun.Study on phase-transition and mechanism of coal ash.Journal of Engineering Thermophysics, 2009, 30(11): 1965-1968.
[114]Zi xue, LUO; Qing yan, FANG; Zhi wei, JIANG; Zhi feng, HUANG; Huai chun, ZHOU.B302 EXPERIMENTAL STUDY OF OPTIMIZAITON CONTROL FOR A LARGE-SCALE COAL-FIRED UTILITY UNIT USING RADIATIVE ENERGY SIGNAL(Combustion-9).The Proceedings of the International Conference on Power Engineering (ICOPE), 2009, 2009.3(3):73-76.
[115]Qing Yan, FANG; Zhi wei, JIANG; Hua Jian, WANG; Chun, LOU; Bin, YAO; Huai chun, ZHOU.B217 VISUALIZATION DETECTIONS OF THE COMBUSTION IN A 300-MW ARCH-FIRED BOILER(Combustion-8).The Proceedings of the International Conference on Power Engineering (ICOPE), 2009, 2009.2(2):175-179.
[116]Xiang Yu, ZHANG; Qiang, CHENG; Huai chun, ZHOU.E313 SYNCHRONOUS RECONSTRUCTION OF THE TWO-DIMENSIONAL TEMPERATURE DISTRIBUTION AND RADIATION PARAMETER IN AN INDUSTRIAL BOILER(Boiler-3).The Proceedings of the International Conference on Power Engineering (ICOPE), 2009, 2009.3(3): 331-336.
[117]Lou, Chun; Zhou Huai Chun.Simultaneous Determination of Distributions of Temperature and Soot Volume Fraction in Sooting Flames Using Decoupled Reconstruction Method.Numerical Heat Transfer Part A-Applications, 2009, 56(2): 153-169.
[118]Huang, Zhifeng; Cheng, Qiang; Zhou, Huaichun*; Hsu, Pei-feng.Existence of Dual-Peak Temporal Reflectance from a Light Pulse Irradiated Two-Layer Medium.Numerical Heat Transfer Part A-Applications, 2009, 56(4): 342-359.
[119]Cheng, Qiang; Zhou Huai Chun*; Huang, Zhi-Feng; Yu, Yong-Lin; Huang, De-Xiu.The solution of transient radiative transfer with collimated incident serial pulse in a plane-parallel medium by the DRESOR method.Journal of Heat Transfer-Transactions of the ASME, 2008, 130(10).
[120]Sun, Dan-Ping; Fang, Qing-Yan; Wang, Hua-Jian; Zhou Huai Chun.A compact optimization strategy for combustion in a 125 MW tangentially anthracite-fired boiler by an artificial neural network.Asia-Pacific Journal of Chemical Engineering, 2008, 3(4): 432-439.
[121]Chu, Yun-Tao; Lou, Chun; Cheng, Qiang; Zhou Huai Chun.Distributed parameter modeling and simulation for the evaporation system of a controlled circulation boiler based on 3-D combustion monitoring.Applied Thermal Engineering, 2008, 28(2-3): 164-177.
[122]Fu, Pei-Fang; Yu, Na; Zhou Huai Chun.Experimental study on oxygen accessible specific surface area of pulverized coal combustion in PTGA.Journal of Engineering Thermophysics, 2008, 29(9): 1617-1619.
[123]Zhou Huai Chun; Sun, Dan-Ping; Fang, Qing-Yan; Luo, Zi-Xue; Yao, Bin; Fu, Pei-Fang.Development and prospect of combustion stabilizing technologies of pulverized coal.Journal of Power Engineering, 2008, 28(5): 657-663+681.
[124]Yang C.*; Zhou H.-C.; Lou C.; Huang Z.-F.Detection and dynamic modeling of characteristic parameters of three dimensional temperature field in coal-fired furnace.Proceedings of the CSEE, 2008, 28(SUPPL.): 91-97.
[125]Lou, Chun; Zhou Huai Chun.ASSESSMENT OF REGULARIZED RECONSTRUCTION OF THREE-DIMENSIONAL TEMPERATURE DISTRIBUTIONS IN LARGE-SCALE FURNACES.Numerical Heat Transfer Part B-Fundamentals, 2008, 53(6): 555-567.
[126]Xie, M. L.; Chan, T. L.; Zhang, Y. D.; Zhou, H. C.Numerical Analysis of Nonlinear Stability of Two-phase Flow in the Blasius Boundary Layer.International Journal of Nonlinear Sciences and Numerical Simulation, 2008, 9(4): 423-434.
[127]Huang, Zhi-Feng; Cheng, Qiang; He, Cheng; Zhou Huai Chun.Solution of radiative transfer in a one-dimensional anisotropic scattering media with different boundary conditions using the DRESOR method.Heat Transfer - Asian Research, 2008, 37(3): 138-152.
[128]YANG, Chao; Zhou Huai Chun*; HUANG, Zhi-feng.Visualization of 3-D temperature distribution in a 300 MW twin-furnace coal-fired boiler.Journal of China University of Mining and Technology, 2008, 18(1): 33-37.
[129]Cheng, Qiang; Zhou Huai Chun; Yu, Yong-lin; Huang, De-Xiu.Highly-directional radiative intensity in a 2-D rectangular enclosure calculated by the DRESOR method.Numerical Heat Transfer Part B-Fundamentals, 2008, 54(4): 354-367.
[130]Luo, Zixue; Zhou Huai Chun.A combustion-monitoring system with 3-D temperature reconstruction based on flame-image processing technique.IEEE Transactions on Instrumentation and Measurement, 2007, 56(5): 1877-1882.
[131]Liu, Hao; Qiu, Jianrong; Kong, Fanhai; Wu, Hui; Zeng, Hancai; Xie, Changsheng; Zhou, Huaichun.Activation of the calcium-added coal combustion solid residues.Asia-Pacific Journal of Chemical Engineering, 2007, 2(3): 177-181.
[132]Cheng, Qiang; Zhou Huai Chun.The DRESOR method for a collimated irradiation on an isotropically scattering layer.Journal of Heat Transfer-Transactions of the ASME, 2007, 129(5): 634-645.
[133]Lou, Chun; Zhou Huai Chun.Decoupled reconstruction method for simultaneous estimation of temperatures and radiative properties in a one-dimensional, gray, participating medium.Numerical Heat Transfer Part B-Fundamentals, 2007, 51(3): 275-292.
[134]Zhou Huai Chun; Cheng, Qiang; Huang, Zhi-Feng; He, Cheng.The influence of anisotropic scattering on the radiative intensity in a gray, plane-parallel medium calculated by the DRESOR method.Journal of Quantitative Spectroscopy and Radiative Transfer, 2007, 104(1): 99-115.
[135]Fang, Qing-Yan; Wang, Hua-Jian; Zhang, Zhi-Guo; Fu, Pei-Fang; Zhou Huai Chun.Numerical simulation of an adjustable self-adaptive pulverized coal burner.Journal of Power Engineering, 2007, 27(2): 189-193.
[136]Wang, Hua-Jian; Fu, Pei-Fang; Zhou Huai Chun.Recognition of phase transition temperature using wavelet transfer method in pulverized coal combustion.Journal of Engineering Thermophysics, 2007, 28(SUPPL. 2): 141-144.
[137]Fu, Pei-Fang; Zhou Huai Chun; Fang, Qing-Yan; Yao, Hai.Study on the submicron and micron morphology and its reactive mechanism.Journal of Engineering Thermophysics, 2007, 28(SUPPL. 2): 145-148.
[138]Yao, Hai; Fu, Pei-Fang; Zhou Huai Chun; Yu, Na; Ma, Qi-Lei.Study on thermal expansion and fragmentation property of coal particle.Journal of Engineering Thermophysics, 2007, 28(SUPPL. 2): 137-140.
[139]Lou, Chun; Zhou Huai Chun; Yu, Peng-Feng; Jiang, Zhi-Wel.Measurements of the flame emissivity and radiative properties of particulate medium in pulverized-coal-fired boiler furnaces by image processing of visible radiation.Proceedings of the Combustion Institute, 2007, 31: 2771-2778.
[140]Zhang, Da-Yong*; Zhou Huai Chun.Temperature measurement by holographic interferometry for non-premixed ethylene-air flame with a series of state relationships.Fuel, 2007, 86(10-11): 1552-1559.
[141]Zhou, HC; Ai, YH.Effect of radiative transfer of heat released from combustion reaction on temperature distribution: A numerical study for a 2-D system.Journal of Quantitative Spectroscopy and Radiative Transfer, 2006, 101(1): 109-118.
[142]Li, YQ; Zhou, HC.Experimental study on acoustic vector tomography of 2-D flow field in an experiment-scale furnace.Flow Measurement and Instrumentation, 2006, 17(2): 113-122.
[143]Cheng Qiang*; Zhou Huai Chun; Huang Zhi Feng.DRESOR method for the solution of transient radiative transfer.Journal of Engineering Thermophysics, 2006, 27(3): 472-474.
[144]Fu, Pei-Fang; Fang, Qing-Yan; Zhou Huai Chun.Study on reaction kinetics model of pulverized coal combustion based on SCT - Part III: Oxygen accessible specific surface area.Journal of Engineering Thermophysics, 2006, 27(1): 171-173.
[145]Fu, Pei-Fang; Yao, Hai; Zhou Huai Chun.Study on the component of pulverized coal surface and its reactivity during low-temperature oxidation.Journal of Engineering Thermophysics, 2006, 27(6): 1041-1044.
[146]Zhou Huaichun*; He Cheng; Cheng Qiang.Solution of radiative transfer equation in anisotropic scattering plane-parallel medium using DRESOR method.Journal of Huazhong University of Science and Technology (Natural Science Edition), 2006, 34(1): 17-20.
[147]Lou, C; Zhou, HC.Deduction of the two-dimensional distribution of temperature in a cross section of a boiler furnace from images of flame radiation.Combustion and Flame, 2005, 143(1-2): 97-105.
[148]Ai, YH; Zhou, HC.Simulation on simultaneous estimation of non-uniform temperature and soot volume fraction distributions in axisymmetric sooting flames.Journal of Quantitative Spectroscopy and Radiative Transfer, 2005, 91(1): 11-26.
[149]Fu, Pei-Fang; Fang, Qing-Yan; Zhou Huai Chun.Study on the reaction kinetics model of pulverized coal combustion based on SCT - Part II: Oxygen concentration distribution on particle surface.Journal of Engineering Thermophysics, 2005, 26(4): 701-704.
[150]Wang, XF; Zhou, HC.Simulation on an optimal combustion control strategy for 3-D temperature distributions in tangentially pc-fired utility boiler furnaces.JOURNAL OF ENVIRONMENTAL SCIENCES-CHINA, 2005, 17(2): 305-308.
[151]Zhou, HC*; Chen, DL; Cheng, Q。A new way to calculate radiative intensity and solve radiative transfer equation through using the Monte Carlo method。Journal of Quantitative Spectroscopy and Radiative Transfer, 2004, 83(3-4): 459-481.
[152]Chen, DL*; Liu, L; Zheng, CG; Zhou, HC; Yao, B。Quasi-constant temperature overall performance combustion for improving the of a coal-fired boiler.Combustion and Flame, 2003, 134(1-2): 81-92.
[153]Zhou, HC*; Han, SD.Simultaneous reconstruction of temperature distribution, absorptivity of wall surface and absorption coefficient of medium in a 2-D furnace system.International Journal of Heat and Mass Transfer, 2003, 46(14): 2645-2653.
[154]Li HS*; Zhou HC; Lu JD; Zheng CG.Computation of 2-D pinhole image-formation process of large-scale furnaces using the discrete ordinates method.Journal of Quantitative Spectroscopy and Radiative Transfer, 2003, 78(3-4): 437-453.
[155]Zhou, HC*; Hou, YB; Chen, DL; Zheng, CG.An inverse radiative transfer problem of simultaneously estimating profiles of temperature and radiative parameters from boundary intensity and temperature measurements.Journal of Quantitative Spectroscopy and Radiative Transfer, 2002, 74(5): 605-620.
[156]Zhou, HC*; Han, SD; Lou, C.A new model of radiative image formation used in visualization of 3-D temperature distributions in large-scale furnaces.Numerical Heat Transfer Part B-Fundamentals, 2002, 42(3): 243-258.
[157]Zhou HC*; Huang YL; Li J; Liu ZH; Zheng CG.Combustion stability assessment for utility pulverized coal-fired boilers under low loads.Combustion Science and Technology, 2000, 157: 325-340.
[158]Huai-Chun Zhou1; Shu-Dong Han1; Feng Sheng1; Chu-Guang Zheng1.Visualization of three-dimensional temperature distributions in a large-scale furnace via regularized reconstruction from radiative energy images: numerical studies.Journal of Quantitative Spectroscopy and Radiative Transfer, 72(4): 361-83.
[159]游君; Huai-Chun Zhou; 侯玉波.A new method for simultaneously reconstructing the absorbing and scattering coefficients.Journal of Huazhong University of Science and Technology (Natural Science Edition), 30(2): 57-9.
[160]Lou, C.; Huai-Chun Zhou.DSP embedded type furnace flame image pickup-processing system.Electric Power, 35(10): 62-4.
[161]Chu Huaqiang; Cheng Qiang; Zhou Huaichun*; Liu Fengshan.Nongray radiation from gas and soot mixtures in planar plates based on statistical narrow-band spectral model.Frontiers of Energy and Power Engineering in China.
發表中文期刊論文:
[1]范赫, 蘇志剛, 彭獻永, 周懷春. 耦合過熱汽溫調節的直流爐燃煤機組抗干擾機爐協調控制系統[J]. 中國電機工程學報, 1-14.
[2]盛穩, 余波, 郭晗, 周懷春. 基于橫向剪切干涉系統的液膜厚度分布檢測[J]. 化工進展, 2024, 43 (02): 743-751.
[3]陳朝帥, 余波, 張力偉, 周懷春. 基于幾何光學的圖像矯正法在圓管PIV實驗中的應用研究[J]. 儀器儀表學報, 2023, 44 (10): 30-37.
[4]劉海東, 韓亞芬, 陳學, 周懷春. 采用數值方法對爐內輻射傳熱公式計算模型的修正[J]. 工程熱物理學報, 2023, 44 (10): 2842-2848.
[5]任燕燕, 曹惠琳, 姜海巖, 喻良, 胡才寶, 郭曉桐, 周懷春. 基于聚類的火電機組深度調峰負荷優化分配研究[J]. 熱力發電, 2023, 52 (09): 48-57.
[6]陳玉民, 史承靜, 崔鑫, 任燕燕, 周懷春. 面向綜合能源時代的動力機械原理課程建設與實踐改革探索[J]. 高教學刊, 2023, 9 (23): 1-5.
[7]王鑫雨, 孫健超, 徐世明, 陶繼業, 余波, 翟明, 周懷春. 稻殼高溫熱解條件對焦結構演化的影響[J]. 煤炭學報, 2023, 48 (06): 2397-2409.
[8]周懷春, 李框宇, 安元, 婁春. 燃煤電站鍋爐及工業窯爐三維燃燒溫度分布監測研究進展[J]. 潔凈煤技術, 2022, 28 (10): 1-15.
[9]王國棟, 劉一兵, 王志, 梁瑞慶, 周遠科, 彭獻永, 周懷春. 運行數據動態分量的相關性分析及其在燃燒優化中的應用[J]. 廣東電力, 2022, 35 (07): 79-89.
[10]周懷春, 鄧磊, 李德波. “新型電力系統規劃下燃煤電廠深度調峰及快速調頻技術”?丶s主編寄語[J]. 廣東電力, 2022, 35 (07): 1-2.
[11]劉瑞東, 王志, 周遠科, 彭獻永, 周懷春. 根據氣溫對鍋爐運行的影響構造閉環燃燒優化控制的試驗研究[J]. 節能技術, 2022, 40 (02): 99-104.
[12]劉瑞東, 卓曉輝, 馬侖, 程強, 羅自學, 周懷春. W型燃煤鍋爐摻燒酒糟的數值模擬[J]. 潔凈煤技術, 2022, 28 (03): 65-71.
[13]李框宇, 高鵬, 杜峰, 胡智超, 邢小玉, 弓慧芳, 閆偉杰, 周懷春. 基于火焰圖像分析的1000MW電站鍋爐爐膛溫度及發射率同時測量研究[J]. 能源研究與利用, 2021, (05): 2-7.
[14]王安振, 司夢婷, 袁林, 李蜜, 閆偉杰, 羅自學, 程強, 周懷春. 單顆粒煤揮發分火焰碳煙演化實驗研究[J]. 煤炭轉化, 2021, 44 (03): 1-10.
[15]沈赫男, 王承亮, 王志, 周懷春. 一臺燃煤鍋爐運行性能隨氣溫變化的實證分析[J]. 節能技術, 2020, 38 (06): 521-526.
[16]鄭建祥, 李玉凱, 孫笑楠, 周懷春. 湍流聚團過程中非球形顆粒聚團碰撞頻率分析研究[J]. 化工學報, 2019, 70 (S2): 228-236.
[17]周懷春, 胡志方, 郭建軍, 劉堯平, 趙鈞, 常平, 黎澤元, 周遠科, 張贛生. 面向智能發電的電站燃煤鍋爐在線運行優化[J]. 分布式能源, 2019, 4 (03): 1-7.
[18]周懷春, 范海鴻, 趙鈞, 劉堯平, 程超, 曾雄偉, 唐文, 劉興, 譚厚章. 燃煤電站鍋爐總風量跟隨負荷控制理念分析[J]. 潔凈煤技術, 2019, 25 (02): 18-24.
[19]劉珠偉, 鄭樹, 周懷春. 基于輻射能信號的鍋爐燃料調節特性研究[J]. 華中科技大學學報(自然科學版), 2017, 45 (11): 115-120.
[20]劉珠偉, 鄭樹, 周懷春. 基于實時輻射能信號的鍋爐燃燒優化[J]. 工業加熱, 2017, 46 (04): 52-54+57.
[21]周懷春. 挑流沖刷深度預測估算[J]. 云南水力發電, 2017, 33 (04): 146-147.
[22]周懷春, 蘇政宇. 某基礎混凝土施工冷縫化學灌漿處理技術[J]. 云南水力發電, 2017, 33 (04): 46-49.
[23]周懷春, 李秀龍, 李秀洪. 高邊坡預應力錨索施工異常情況分析及處理方案[J]. 云南水力發電, 2017, 33 (04): 76-79.
[24]萬大陽, 邵松, 陳文紅, 黃夏林, 許康永, 鄭樹, 周懷春. 三維溫度場可視化檢測系統在裂解爐上的應用研究[J]. 乙烯工業, 2016, 28 (03): 20-25+4.
[25]盧佳, 周懷春. Finite-difference time-domain modeling of curved material interfaces by using boundary condition equations method[J]. Chinese Physics B, 2016, 25 (09): 202-210.
[26]劉珠偉, 鄭樹, 羅自學, 周懷春. 燃煤鍋爐爐內能量監測方法[J]. 華中科技大學學報(自然科學版), 2016, 44 (08): 1-5.
[27]李言欽, 劉楊, 周懷春, 周俊杰. 單顆粒無煙煤著火特性典型影響因素研究[J]. 工程熱物理學報, 2016, 37 (07): 1566-1571.
[28]鄭樹, 周懷春. 三維、動態、實時數字化鍋爐技術發展探討[J]. 中國科學:技術科學, 2016, 46 (01): 20-35.
[29]柳華蔚, 鄭樹, 周懷春. An iterative virtual projection method to improve the reconstruction performance for ill-posed emission tomographic problems[J]. Chinese Physics B, 2015, 24 (10): 204-216.
[30]張向宇, 鄭樹, 周懷春, 徐宏杰. 基于熱輻射成像建模求解的管式爐爐管溫度檢測[J]. 化工學報, 2015, 66 (03): 965-971.
[31]張向宇, 鄭樹, 周懷春, 徐宏杰. 管式爐熱物理量場反演[J]. 燃燒科學與技術, 2015, 21 (01): 8-13.
[32]張向宇, 喬海勇, 周懷春, 徐宏杰. 基于燃燒溫度場測量的SNCR優化調整試驗[J]. 熱力發電, 2014, 43 (11): 92-96.
[33]李言欽, 姬會東, 周俊杰, 曹海亮, 鐘委, 周懷春. 聲波法測量爐內溫度場有限元模擬研究[J]. 動力工程學報, 2014, 34 (11): 837-842+866.
[34]王志超, 陶光春, 馬文維, 程強, 周懷春. BRDF表面對一維梯度折射率介質內輻射傳熱影響[J]. 工程熱物理學報, 2014, 35 (09): 1793-1797.
[35]楚化強, 顧明言, 周懷春, 徐靖. 氣體光譜數據庫對氣體輻射特性的影響[J]. 熱科學與技術, 2014, 13 (03): 213-220.
[36]陳兢, 傅培舫, 張斌, 周懷春. 生物質燃燒中堿金屬和氯沉積燒結行為分析[J]. 工程熱物理學報, 2014, 35 (07): 1453-1456.
[37]張向宇, 呂偉, 周懷春, 劉奕兵, 吳啟明. 基于輻射圖像處理的單火嘴三維溫度場測量[J]. 燃燒科學與技術, 2014, 20 (02): 115-120.
[38]吳一全, 朱麗, 周懷春. 基于復Contourlet和改進數學形態學的火焰圖像邊緣檢測[J]. 動力工程學報, 2014, 34 (01): 32-38.
[39]鄭樹, 羅自學, 周懷春. 超臨界W型鍋爐蒸發系統的分布參數建模研究[J]. 中國電機工程學報, 2013, 33 (35): 8-14+4.
[40]吳一全, 朱麗, 周懷春. 基于Krawtchouk矩和支持向量機的火焰狀態識別[J]. 中國電機工程學報, 2014, 34 (05): 734-740.
[41]邱淑榮, 竇春玉, 婁春, 周懷春. 縱火體燃燒三維溫度場檢測研究[J]. 火工品, 2013, (05): 53-56.
[42]閆偉杰, 張向宇, 婁春, 胡偉, 孫海英, 潘衛明, 周懷春. 熱氣機燃燒室內三維溫度場可視化實驗研究[J]. 工程熱物理學報, 2013, 34 (10): 1969-1972.
[43]郭喆, 婁春, 劉正東, 周懷春. 富氧擴散火焰中燃燒特性及火焰結構對碳黑生成的影響[J]. 中國科學:技術科學, 2013, 43 (09): 991-1000.
[44]吳一全, 宋昱, 周懷春. 鍋爐煤燃燒火焰圖像倒數交叉熵多閾值分割[J]. 燃燒科學與技術, 2013, 19 (06): 493-500.
[45]吳一全, 宋昱, 周懷春. 基于各向異性數學形態學的火焰圖像邊緣檢測[J]. 儀器儀表學報, 2013, 34 (08): 1818-1825.
[46]周懷春, 蔡星星. 大五山隧洞13號施工支洞地下泥石流災害處理[J]. 人民長江, 2013, 44 (12): 47-49+74.
[47]萬大陽, 程強, 周懷春. 煤顆粒輻射特性隨燃盡率變化的計算研究[J]. 工程熱物理學報, 2013, 34 (06): 1184-1188.
[48]吳一全, 宋昱, 周懷春. 基于灰度熵多閾值分割和SVM的火焰圖像狀態識別[J]. 中國電機工程學報, 2013, 33 (20): 66-73+13.
[49]王志超, 程強, 楚化強, 周懷春. 輻射平衡時介質內溫度交點的現象及其探究[J]. 華中科技大學學報(自然科學版), 2013, 41 (03): 101-105.
[50]朱進容, 呂偉, 周懷春. 橫向大剪切干涉應用于水平圓管自然對流換熱[J]. 化工學報, 2012, 63 (10): 3034-3039.
[51]卓旭升, 楊帆, 秦實宏, 周懷春. 火電機組協調系統的非線性串級控制研究[J]. 華中科技大學學報(自然科學版), 2012, 40 (04): 43-45+75.
[52]李言欽, 陳世英, 周懷春, 張引弟, 秦建偉. 基于先驗知識的爐內速度場聲波法測量研究[J]. 動力工程學報, 2012, 32 (04): 261-267.
[53]樂建兵, 周懷春. 綜合辨識算法研究及其實際應用分析[J]. 科技與企業, 2012, (06): 268-269.
[54]李廣建, 傅培舫, 馬啟磊, 王娜, 周懷春. 循環流化床還原性氣氛對固硫效果的影響[J]. 動力工程學報, 2012, 32 (03): 212-216.
[55]程強, 王志超, 黃志鋒, 周懷春. 余弦粗糙面輻射特性數值模擬研究[J]. 工程熱物理學報, 2011, 32 (12): 2096-2099.
[56]周儒昌, 方慶艷, 傅培舫, 周懷春. O2/CO2氣氛下添加劑對澳煤燃燒特性的影響[J]. 工程熱物理學報, 2011, 32 (12): 2151-2155.
[57]吳一全, 周懷春, 紀守新, 張曉杰. 基于二維灰度熵及混沌粒子群的圖像閾值選取[J]. 北京理工大學學報, 2011, 31 (12): 1428-1434.
[58]朱進容, 呂偉, 周懷春, 黃素逸. 水平圓管自然對流的大剪切實時干涉測溫[J]. 華中科技大學學報(自然科學版), 2011, 39 (11): 120-124.
[59]姜志偉, 周懷春, 羅自學. 循環流化床鍋爐吸熱量在線預測模型[J]. 華中科技大學學報(自然科學版), 2011, 39 (10): 125-127.
[60]吳一全, 樊軍, 周懷春. 改進的二維最小交叉熵閾值分割快速迭代算法[J]. 應用科學學報, 2011, 29 (05): 487-494.
[61]張引弟, 婁春, 謝明亮, 方慶艷, 周懷春. Computation and measurement for distributions of temperature and soot volume fraction in diffusion flames[J]. Journal of Central South University of Technology, 2011, 18 (04): 1263-1271.
[62]楚化強, 程強, 王志超, 周懷春. 基于窄譜帶模型的煙黑顆粒輻射模型的比較[J]. 工程熱物理學報, 2011, 32 (06): 1039-1042.
[63]孫亦鵬, 婁春, 陳辰, 閆偉杰, 周懷春. SPSO同時反演乙烯火焰溫度和碳黑濃度的實驗研究[J]. 工程熱物理學報, 2011, 32 (05): 847-850.
[64]羅自學, 閆曉沛, 鄭樹, 周懷春. 雙爐膛直流爐蒸發系統的分布參數建模[J]. 華中科技大學學報(自然科學版), 2011, 39 (03): 120-123.
[65]周懷春, 黃志鋒, 程強, 呂偉, 邱奎, 陳辰, HSU PeiFeng. 路面蜃景:熱空氣的把戲?[J]. 科學通報, 2011, 56 (Z1): 275-280.
[66]方慶艷, 汪華劍, 陳剛, 周懷春. 超超臨界鍋爐磨煤機組合運行方式優化數值模擬[J]. 中國電機工程學報, 2011, 31 (05): 1-6.
[67]張向宇, 程強, 周懷春. 加熱爐斷面溫度場和固相輻射參數檢測研究[J]. 工程熱物理學報, 2011, 32 (02): 287-290.
[68]盧晶, 周懷春, 何慶林. 碳黑沉積法用于非預混乙烯火焰檢測的影響因素分析[J]. 中國電機工程學報, 2010, 30 (S1): 65-69.
[69]陳世英, 李言欽, 張引弟, 周懷春. 聲波法在線檢測爐內速度場技術及試驗臺的建立[J]. 湖北電力, 2010, 34 (06): 37-39.
[70]張引弟, 周懷春, 謝明亮, 方慶艷, 魏艷. 利用簡化的化學反應動力學模型耦合CFD代碼模擬氣體燃燒器中的煙黑生成(英文)[J]. Chinese Journal of Chemical Engineering, 2010, 18 (06): 967-978.
[71]方慶艷, 汪華劍, 陳剛, 周懷春. 燃盡風對超超臨界鍋爐燃燒特性影響的數值模擬[J]. 華中科技大學學報(自然科學版), 2010, 38 (11): 92-95.
[72]婁春, 孫亦鵬, 周懷春. 基于圖像處理測量擴散火焰溫度和碳黑濃度[J]. 工程熱物理學報, 2010, 31 (09): 1595-1598.
[73]婁春, 陳辰, 孫亦鵬, 周懷春. 碳氫火焰中碳黑檢測方法評述[J]. 中國科學:技術科學, 2010, 40 (08): 946-958.
[74]周懷春, 羅自學, 婁春. 輻射能信號作為鍋爐燃燒及機組運行重要監控參數的分析[J]. 動力工程學報, 2010, 30 (08): 593-600.
[75]黃本元, 羅自學, 方慶艷, 周懷春. 200MW鍋爐煤/煤氣混燒檢測試驗研究[J]. 工程熱物理學報, 2010, 31 (06): 1065-1068.
[76]呂偉, 周懷春, 朱進容. 大剪切實時干涉系統的火焰條紋分析[J]. 工程熱物理學報, 2010, 31 (04): 717-719.
[77]卓旭升, 周懷春, 楊帆, 秦實宏. 汽包鍋爐的一種非線性串級控制設計[J]. 控制工程, 2010, 17 (S1): 22-24+34.
[78]陳珣, 傅培舫, 周懷春. 煤焦比熱容的模型與DSC實驗研究[J]. 工程熱物理學報, 2010, 31 (01): 169-172.
[79]張引弟, 陳世英, 李言欽, 周懷春. 四角切圓爐內空氣動力特性的聲學測量試驗[J]. 華中科技大學學報(自然科學版), 2009, 37 (12): 83-86.
[80]盧晶, 周懷春. Experimental Investigations on the Influence of Assumptions in Soot Volume Fraction Measurement by TPD Method[J]. Journal of Beijing Institute of Technology, 2009, 18 (04): 402-407.
[81]周國義, 孫亦鵬, 婁春, 周懷春. 增壓鍋爐燃燒監測試驗研究[J]. 熱能動力工程, 2009, 24 (06): 766-769+819.
[82]汪華劍, 方慶艷, 周懷春, 曾漢才. 空氣深度分級對低揮發分煤燃燒過程影響的研究[J]. 熱能動力工程, 2009, 24 (06): 777-781+820.
[83]姜志偉, 周懷春. 循環流化床鍋爐火焰溫度及黑度圖像檢測[J]. 工程熱物理學報, 2009, 30 (11): 1953-1956.
[84]馮潔, 傅培舫, 周懷春. 煤灰相變及其機理的研究[J]. 工程熱物理學報, 2009, 30 (11): 1965-1968.
[85]柳春巖, 王瑞祥, 周懷春. 基于冰山理論的高校師資獲取模式研究[J]. 商業時代, 2009, (30): 58-59.
[86]盧晶, 熊倩, 周懷春. TPD法測量高速空氣流乙烯非預混火焰適用性研究[J]. 工程熱物理學報, 2009, 30 (07): 1229-1232.
[87]王淅芬, 羅自學, 周懷春. 基于爐內溫度分布的NO_x排放特性的神經網絡模型[J]. 能源技術, 2009, 30 (03): 133-136+148.
[88]王淅芬, 羅自學, 周懷春. 燃燒調整對爐內溫度分布及NO_x排放的影響[J]. 武漢科技大學學報, 2009, 32 (03): 318-323.
[89]汪華劍, 方慶艷, 姚斌, 雷霖, 段學農, 趙云輝, 汪毅剛, 周懷春. F風下傾對W型爐內燃燒及NO_x排放的影響[J]. 工程熱物理學報, 2009, 30 (06): 1055-1058.
[90]張引弟, 周懷春, 謝明亮. 湍流擴散火焰的大渦模擬及驗證[J]. 動力工程, 2009, 29 (05): 451-455.
[91]程強, 周懷春, 張向宇, 黃學孔, 邵松, 王偉, 馬曉陽. 管式加熱爐三維溫度場可視化監測試驗研究[J]. 石油化工設備技術, 2009, 30 (02): 9-15+19.
[92]孫亦鵬, 婁春, 姜志偉, 周懷春. 彩色CCD攝像機三基色代表波長的試驗研究[J]. 華中科技大學學報(自然科學版), 2009, 37 (02): 108-111.
[93]吳呂斌, 羅自學, 周懷春, 張云濤. 主汽溫控制現狀及其新方法應用研究[J]. 電站系統工程, 2009, 25 (01): 5-7+10.
[94]孫丹萍, 方慶艷, 汪華劍, 周懷春. 電站鍋爐燃燒優化信息庫的建立與應用[J]. 動力工程, 2008, 28 (06): 859-864.
[95]周懷春, 孫丹萍, 方慶艷, 羅自學, 姚斌, 傅培舫. 煤粉穩燃技術的發展歷程和展望[J]. 動力工程, 2008, (05): 657-663+681.
[96]方慶艷, 周懷春, 汪華劍, 羅自學, 史鐵林. 3種型號W火焰鍋爐結渣特性的數值模擬[J]. 動力工程, 2008, (05): 682-689.
[97]程強, 周懷春, 黃志鋒, 余永林, 黃德修. DRESOR法對二維輻射傳遞問題研究[J]. 工程熱物理學報, 2008, (10): 1735-1738.
[98]羅自學, 劉成永, 陶茂鋼, 周懷春. 直流鍋爐風/煤比燃燒優化控制的研究[J]. 動力工程, 2008, (05): 731-734.
[99]傅培舫, 余娜, 周懷春. 煤粉加壓燃燒過程中氧氣可達比表面積的實驗研究[J]. 工程熱物理學報, 2008, (09): 1617-1619.
[100]方慶艷, 周懷春, 汪華劍, 史鐵林. W火焰鍋爐結渣特性數值模擬[J]. 中國電機工程學報, 2008, (23): 1-7.
[101]楊超, 周懷春, 卓旭升. 基于RBF神經網絡自適應整定燃燒串級控制系統[J]. 華中科技大學學報(自然科學版), 2008, (07): 57-59+80.
[102]黃志鋒, 程強, 周懷春, 許培鋒. DRESOR法求解超短脈沖在一維非均勻介質中的瞬態輻射傳輸[J]. 工程熱物理學報, 2008, (06): 1005-1008.
[103]卓旭升, 周懷春, 楊超, 唐輝. 燃煤汽包爐發電機組的動態建模及其運行數據驗證[J]. 中國電機工程學報, 2008, (17): 26-31.
[104]卓旭升, 周懷春. Boiler-turbine control system design using continuous-time nonlinear model predictive control[J]. Journal of Chongqing University(English Edition), 2008, (02): 113-118.
[105]楊超, 羅自學, 周懷春. 變氧量工況下煤粉爐內輻射能檢測特性[J]. 熱能動力工程, 2008, (03): 273-277+328-329.
[106]呂偉, 周懷春, 艾育華. 乙烯火焰的徑向剪切干涉測溫模擬研究[J]. 工程熱物理學報, 2008, (04): 707-710.
[107]李言欽, 周懷春, 魏新利. 新型內直流外旋流燃燒器流場特性的研究[J]. 動力工程, 2008, (02): 210-215.
[108]孔祥濤, 周懷春, 羅自學, 婁春, 程強. 基于溫度場重建的爐膛燃燒數字監測系統[J]. 工業儀表與自動化裝置, 2008, (02): 69-71+9.
[109]初云濤, 周懷春, 梁倩. 兩類過熱器壁溫分布特性的仿真研究[J]. 動力工程, 2008, (01): 40-44+83.
[110]楊超, 周懷春. 一種多層輻射能信號融合處理的新算法[J]. 動力工程, 2008, (01): 54-57+75.
[111]黃本元, 羅自學, 周懷春. 爐膛燃燒穩定性的火焰圖像診斷方法[J]. 熱力發電, 2007, (12): 19-22.
[112]周懷春, 江波, 盧晶, 婁春. 多波長光譜法檢測乙烯火焰中溫度和碳黑生成[J]. 華中科技大學學報(自然科學版), 2007, (12): 107-110.
[113]卓旭升, 周懷春, 陳楠. 過熱蒸汽比焓和密度的雙線性擬合[J]. 華中科技大學學報(自然科學版), 2007, (12): 111-113.
[114]初云濤, 周懷春. 一種考慮控制系統耦合關系的汽包鍋爐簡化模型與分析[J]. 中國電機工程學報, 2007, (35): 90-95.
[115]曾令大, 傅培舫, 周懷春. 鍋爐滅火原因分析及穩燃措施[J]. 電力安全技術, 2007, (12): 12-14.
[116]周懷春, 李芳, 婁春. 軸對稱輻射傳遞逆問題的三種求解算法比較[J]. 華中科技大學學報(自然科學版), 2007, (11): 121-123+132.
[117]婁春, 周懷春. 光學厚度對大型爐膛三維溫度場重建的影響分析[J]. 中國電機工程學報, 2007, (32): 52-56.
[118]楊超, 周懷春, 羅自學, 張輝, 萬新福, 關玉龍. 多層輻射能信號檢測在燃燒診斷中的應用研究[J]. 中國電力, 2007, (11): 62-66.
[119]李芳, 周懷春, 盧晶, 李由. 測量層流擴散火焰溫度與煙黑濃度分布的實驗研究[J]. 工程熱物理學報, 2007, (05): 894-896.
[120]張大勇, 周懷春. 非預混火焰中溫度與全息干涉測得的折射率之間的新狀態關系[J]. 燃燒科學與技術, 2007, (04): 325-329.
[121]程強, 周懷春, 黃志峰. 任意入射輻射條件下介質特性對瞬態輻射傳遞的影響[J]. 工程熱物理學報, 2007, (S2): 25-28.
[122]姚海, 傅培舫, 周懷春, 余娜, 馬啟磊. 煤顆粒熱膨脹量與破碎特性的研究[J]. 工程熱物理學報, 2007, (S2): 137-140.
[123]汪華劍, 傅培舫, 周懷春. 煤粉燃燒過程中相轉變點的小波識別[J]. 工程熱物理學報, 2007, (S2): 141-144.
[124]傅培舫, 周懷春, 方慶艷, 姚海. 煤焦燃燒過程中的亞觀和微觀形態及反應機理[J]. 工程熱物理學報, 2007, (S2): 145-148.
[125]熊倩, 周懷春, 艾育華, 盧晶. 火焰輻射及偶絲導熱對熱電偶測溫影響的數值分析[J]. 工程熱物理學報, 2007, (S2): 212-216.
[126]婁春, 周懷春, 朱國良, 邵勇. 煤粉爐內顆粒輻射特性的檢測與分析[J]. 工程熱物理學報, 2007, (S2): 217-220.
[127]曾令大, 王曉林, 周懷春, 姚斌, 傅培舫. SCR脫硝裝置在超臨界鍋爐中的應用[J]. 鍋爐技術, 2007, (04): 72-75.
[128]余娜, 傅培舫, 周懷春. 煤粉燃燒SCT模型氧氣可達比表面積的實驗研究[J]. 工程熱物理學報, 2007, (04): 691-694.
[129]徐巖, 周懷春, 劉繼平. 600MW雙背壓機組凝汽器變工況特性研究[J]. 汽輪機技術, 2007, (03): 192-194.
[130]余兵, 張輝, 周棟, 周懷春, 羅自學. 300 MW機組鍋爐三維溫度場可視化監控系統的研究[J]. 熱力發電, 2007, (06): 97-100.
[131]卓旭升, 周懷春, 文忠林, 初云濤, 徐樺. 火電機組過熱器壓力和溫度的動態研究[J]. 中國電機工程學報, 2007, (14): 72-76.
[132]羅國權, 方慶艷, 孫丹萍, 祖春光, 周懷春. 125MW燃用無煙煤鍋爐燃燒優化研究[J]. 湖北電力, 2007, (02): 25-27.
[133]方慶艷, 汪華劍, 張志國, 傅培坊, 周懷春. 一種可調節自適應煤粉燃燒器的數值模擬[J]. 動力工程, 2007, (02): 189-193.
[134]初云濤, 周懷春, 程強, 黃志鋒, 方慶艷. 電站鍋爐過熱系統分布式傳熱模型及其應用[J]. 中國電機工程學報, 2007, (11): 62-67.
[135]曾令大, 周懷春, 傅培舫, 姚斌. 后石電廠選擇性催化還原(SCR)脫硝裝置的應用[J]. 潔凈煤技術, 2007, (01): 66-69.
[136]劉智, 羅自學, 周懷春, 陳冬林, 鄢曉忠. 多功能煤燃燒試驗臺計算機監控系統設計應用[J]. 自動化與儀表, 2007, (02): 62-65.
[137]于鵬峰, 姜志偉, 姚斌, 周懷春, 易洪波, 許甲清. 基于數字圖像處理對W型鍋爐燃燒狀況的診斷[J]. 湖北電力, 2007, (01): 39-40.
[138]何毅, 羅自學, 劉智, 周懷春. 直流鍋爐燃料/給水比值控制的研究[J]. 湖北電力, 2007, (01): 44-46.
[139]盧晶, 周懷春, 江波, 李芳, 熊倩. 熱電偶沉積法測量乙烯非預混火焰的試驗研究[J]. 工程熱物理學報, 2007, (01): 177-179.
[140]李小波, 周懷春, 羅自學, 周赟. 輻射能信號與鍋爐吸熱量靜態關系的試驗分析[J]. 熱力發電, 2007, (01): 24-28.
[141]楊超, 周懷春, 傅培舫, 宋海華, 黃建軍, 劉丹. 在DCS中實現爐內三維溫度場可視化技術[J]. 熱力發電, 2007, (01): 80-81+84.
[142]黃志鋒, 周懷春, 程強, 何誠. DRESOR法對含有邊界的一維各向異性散射介質輻射傳遞方程的求解[J]. 熱科學與技術, 2006, (04): 313-319.
[143]傅培舫, 姚海, 周懷春. 煤低溫氧化的微區組分分析與反應性研究[J]. 工程熱物理學報, 2006, (06): 1041-1044.
[144]余娜, 傅培舫, 周懷春. TGA基點漂移量的測試與分析[J]. 熱能動力工程, 2006, (06): 618-622+658.
[145]江瑞寶, 周懷春, 程強, 黃志鋒, 白春雷, 蘇毅, 張茂杰, 施濤. 工業爐內鋼坯溫度及表面熱流重建模型研究[J]. 工業加熱, 2006, (05): 18-21.
[146]周國義, 周懷春, 楊志春. 以可靠性為中心的維修分析方法應用[J]. 船海工程, 2006, (05): 47-50.
[147]傅培舫, 周懷春. 巷道火災過程中燃燒速率和釋熱速率的預測[J]. 燃燒科學與技術, 2006, (05): 408-412.
[148]黃本元, 羅自學, 胡光明, 周懷春. 基于爐膛輻射能信號的主汽溫控制試驗研究[J]. 電站系統工程, 2006, (05): 21-22+25.
[149]姚海, 傅培舫, 周懷春. 煤顆粒熱膨脹破碎特性的試驗研究[J]. 熱科學與技術, 2006, (03): 262-267.
[150]周懷春. 經濟欠發達地區高校人才流失的思考[J]. 甘肅科技, 2006, (09): 26-28.
[151]徐剛, 周懷春, 羅自學. 臥式煤粉燃燒試驗臺的研制[J]. 自動化與儀器儀表, 2006, (05): 57-59.
[152]初云濤, 周懷春. 控制循環鍋爐水冷壁流量偏差影響因素數值分析[J]. 熱能動力工程, 2006, (05): 456-460+543.
[153]楊超, 魏漢雨, 周懷春, 羅自學, 楊詩旺, 黃建軍. 串口通信技術在爐膛燃燒監控系統中的應用[J]. 微計算機信息, 2006, (25): 81-83.
[154]陳楠, 初云濤, 姚斌, 曾漢才, 周懷春. 鍋爐后屏過熱器分布式動態數學模型及壁溫計算[J]. 湖北電力, 2006, (04): 33-35.
[155]羅自學, 梁培露, 周懷春, 陳世和. 引入輻射能信號的鍋爐氧量尋優控制研究[J]. 中國電機工程學報, 2006, (23): 100-103.
[156]艾育華, 周懷春, 盧晶, 李芳. 發射CT法測量層流乙烯擴散火焰中溫度與煙黑濃度分布的實驗研究[J]. 工程熱物理學報, 2006, (04): 717-719.
[157]程強, 周懷春, 黃志鋒. DRESOR法對瞬態輻射傳遞問題的研究[J]. 工程熱物理學報, 2006, (03): 472-474.
[158]婁春, 周懷春, 姜志偉, 于鵬峰. 爐膛內斷面溫度場與輻射參數同時重建實驗研究[J]. 中國電機工程學報, 2006, (14): 98-103.
[159]李言欽, 周懷春, 周紅新. 聲波法監測爐內二維速度場冷模實驗研究[J]. 中國電機工程學報, 2006, (13): 117-122.
[160]劉志勇, 張志國, 周懷春, 梁新磊, 喻文標, 周力鋒, 汪毅剛. 軸向型粗粉分離器特性的數值模擬研究[J]. 湖北電力, 2006, (02): 12-14.
[161]祖春光, 周懷春, 婁春, 黃本元, 劉緒洲, 呂傳新. 基于火焰圖像的燃燒穩定性診斷和分析[J]. 湖北電力, 2006, (02): 39-41.
[162]方慶艷, 黃來, 姚斌, 羅自學, 周懷春, 程剛, 雷霖, 段學農. 采用雙混合分數/PDF方法模擬混煤在四角切圓鍋爐內的燃燒[J]. 動力工程, 2006, (02): 185-190.
[163]初云濤, 周懷春. 蒸發系統分布參數特性動態仿真研究[J]. 中國電機工程學報, 2006, (11): 17-22.
[164]楊超, 羅自學, 周懷春, 張輝, 萬新福, 關玉龍. ZHC-D型雙爐膛燃燒監控系統軟硬件設計及實現[J]. 電站系統工程, 2006, (02): 55-57.
[165]初云濤, 周懷春. 基于爐內三維燃燒檢測的蒸發系統分布參數建模[J]. 中國電機工程學報, 2006, (09): 20-25.
[166]梁新磊, 劉志勇, 張志國, 周懷春, 喻文標, 周力鋒, 汪毅剛. 正壓直吹制粉系統的試驗研究[J]. 華中電力, 2006, (01): 9-12.
[167]周懷春, 方慶艷, 張志國. 煤粉射流吸熱著火穩燃機理及新型穩燃技術的探討[J]. 動力工程, 2006, (01): 101-107.
[168]婁春, 周懷春, 姜志偉. 燃煤鍋爐中火焰黑度的在線檢測與分析[J]. 中國電機工程學報, 2006, (04): 6-9.
[169]傅培舫, 方慶艷, 周懷春. 基于簡單碰撞理論煤粉燃燒動力學模型的研究——PART Ⅲ:氧氣可達比表面積[J]. 工程熱物理學報, 2006, (01): 171-173.
[170]周懷春, 何誠, 程強. 平行板間各向異性散射介質輻射傳遞方程求解[J]. 華中科技大學學報(自然科學版), 2006, (01): 17-20.
[171]姚斌, 姜志偉, 周懷春, 曾漢才. W型火焰鍋爐爐膛溫度場的可視化試驗研究[J]. 熱能動力工程, 2006, (01): 35-38+105.
[172]王淅芬,羅自學,周懷春. 基于三維溫度場可視化的鍋爐NO_x排放試驗研究[J]. 華中科技大學學報(自然科學版), 2005, (11): 48-50.
[173]程強,周懷春. DRESOR法對平行入射輻射問題的研究[J]. 工程熱物理學報, 2005, (06): 106-108.
[174]卓旭升,周懷春. 一種火電機組系統非線性控制方法的實用仿真研究[J]. 中國電機工程學報, 2005, (20): 94-99.
[175]婁春,周懷春. 爐膛中二維溫度場與輻射參數的同時重建[J]. 動力工程, 2005, (05): 633-638.
[176]周紅新,李言欽,周懷春. BP網絡用于聲波法爐內切圓流場監測系統的模擬研究[J]. 華中電力, 2005, (04): 6-9.
[177]傅培舫,周懷春,俞啟香. 火災節流過程參數變化時序及其影響因素的研究[J]. 中國安全科學學報, 2005, (07): 108-112+2.
[178]方慶艷,姚斌,江瑞寶,周懷春. W型火焰鍋爐爐內燃燒過程檢測實驗研究[J]. 熱能動力工程, 2005, (04): 361-364+441.
[179]傅培舫,方慶艷,周懷春. 基于簡單碰撞理論煤粉燃燒動力學模型的研究—PART Ⅱ:顆粒表面的氧氣濃度分布模型[J]. 工程熱物理學報, 2005, (04): 701-704.
[180]劉國軍,孫丹萍,周懷春. 基于分子運動對流換熱和熱輻射下煤粉顆粒群粒子的加熱分析[J]. 工程熱物理學報, 2005, (04): 717-719.
[181]查明,周懷春. 基于輻射能信號的過熱汽溫控制系統優化[J]. 華中電力, 2005, (03): 1-4.
[182]婁春,周懷春,程強,姜志偉,宋平,張茂杰,吳煊,王銳. 工業爐內火焰圖像在線檢測系統及其試驗[J]. 工業加熱, 2005, (03): 32-34.
[183]周赟,周懷春. 300MW燃煤機組輻射能信號建模研究[J]. 湖北電力, 2005, (03): 22-25.
[184]鄭超凡,羅自學,周懷春. 燃燒調整對爐內三維溫度場分布的影響[J]. 湖北電力, 2005, (03): 26-28.
[185]祝凌風,高偉,黃樹紅,周懷春,夏猛. 基于輻射能信號前饋的串級汽溫控制系統[J]. 湖北電力, 2005, (03): 29-30+35.
[186]羅自學,楊超,周懷春. 爐膛輻射能信號的提取機理及其應用研究[J]. 動力工程, 2005, (03): 374-377.
[187]傅培舫,周懷春. 快速密閉時火區熱物理參數變化規律的研究[J]. 安全與環境學報, 2005, (02): 96-99.
[188]傅培舫,周懷春,俞啟香,蔣時才,葉汝陵. 巷道火災節流過程及其影響因素的研究[J]. 煤炭學報, 2005, (02): 146-150.
[189]艾育華,周懷春. 發射CT法同時測量含煙黑火焰的溫度與煙黑濃度分布的實驗研究[J]. 燃燒科學與技術, 2005, (02): 179-182.
[190]羅自學,楊超,周懷春. 燃燒三維溫度場及輻射能信號特性的分析[J]. 電站系統工程, 2005, (02): 18-19+22.
[191]彭繼文,祖春光,李文軍,柳宏剛,何新龍,周懷春. 灰色系統理論在電廠潔凈燃燒專家系統中的應用[J]. 熱力發電, 2005, (03): 15-18+75.
[192]傅培舫,方慶艷,姚斌,周懷春. 基于簡單碰撞理論煤粉燃燒動力學模型的研究——PART Ⅰ:理論建模與熱重實驗[J]. 工程熱物理學報, 2005, (02): 331-334.
[193]程強,周懷春,婁春,姜志偉,宋平,張茂杰,吳煊,王銳. 工業爐三維溫度場可視化試驗研究[J]. 工業加熱, 2005, (01): 19-23.
[194]陳世英,萬中平,邵主建,周懷春,姚斌,婁春. 大機組調峰對鍋爐運行的影響及運行優化研究[J]. 湖北電力, 2005, (01): 34-36.
[195]吳呂斌,羅自學,楊超,周懷春. 爐內燃燒三維可視化診斷及機組負荷控制新技術[J]. 電站系統工程, 2005, (01): 11-13.
[196]婁春,周懷春,呂傳新,裴振林. 電站鍋爐爐內三維溫度場在線檢測與分析[J]. 熱能動力工程, 2005, (01): 61-64+107.
[197]田國銀,李言欽,周紅新,周懷春. 聲波法監測爐內斷面切圓流場的實驗研究[J]. 湖北電力, 2004, (S1): 31-32.
[198]吳呂斌,羅自學,楊超,周懷春. 爐內燃燒三維可視化診斷及機組負荷控制新技術[J]. 熱力發電, 2004, (12): 55-56+58-73.
[199]李言欽,周懷春. 聲波法監測鍋爐爐膛二維復雜空氣動力場的模擬研究[J]. 動力工程, 2004, (06): 836-839+844.
[200]阮剛,羅自學,周懷春. 鍋爐過熱蒸汽溫度控制新策略動態仿真研究[J]. 華中電力, 2004, (05): 1-4.
[201]吳呂斌,羅自學,楊超,周懷春. 300MW鍋爐燃燒三維溫度場可視化監測系統設計及運行分析[J]. 中國電力, 2004, (10): 66-69.
[202]姜志偉,周懷春,婁春,於正前. 基于圖像處理的火焰溫度及輻射率圖像檢測法[J]. 華中科技大學學報(自然科學版), 2004, (09): 49-51.
[203]程強,周懷春. 具有漫反射邊界一維灰性平行平板介質中輻射傳遞方程的求解[J]. 工程熱物理學報, 2004, (05): 831-833.
[204]肖三霞,方慶艷,傅培舫,周懷春. 煤的熱天平燃燒反應動力學特性的研究[J]. 工程熱物理學報, 2004, (05): 891-893.
[205]傅培舫,周懷春,俞啟香,蔣時才,葉汝陵. 巷道火災燃燒過程熱動力與熱阻力特性的研究[J]. 中國礦業大學學報, 2004, (04): 81-85.
[206]王淅芬,周懷春. 四角切圓爐膛三維溫度分布優化控制建模研究[J]. 工程熱物理學報, 2004, (04): 695-698.
[207]傅培舫,周懷春. 非穩定流巷道火災試驗系統的研制[J]. 安全與環境學報, 2004, (03): 7-10.
[208]艾育華,周懷春. 軸對稱含煙黑火焰非均勻溫度與煙黑濃度分布同時重建模擬研究[J]. 工程熱物理學報, 2004, (03): 469-471.
[209]曾佳,婁春,程強,羅自學,周懷春,何晉,黃本元,裴振林,呂傳新. 大型電站鍋爐爐內三維燃燒溫度場可視化實驗研究[J]. 工程熱物理學報, 2004, (03): 523-526.
[210]陳冬林,劉亮,周懷春,王清華,熊長茂,尹華立. 可調衛燃帶及其可行性試驗研究[J]. 燃燒科學與技術, 2004, (02): 149-154.
[211]何煥青,是度芳,周懷春,艾育華. 雙色法同時測定碳氫火焰溫度和碳粒體積分數[J]. 華中科技大學學報(自然科學版), 2004, (03): 23-25.
[212]婁春 ,周懷春 ,劉浩. 一種煤粉爐內斷面溫度場在線監測系統[J]. 電站系統工程, 2004, (02): 5-8.
[213]張大勇,周懷春,吳銳,婁春. 溫度場全息干涉重建的4種方法的模擬研究[J]. 華中科技大學學報(自然科學版), 2003, (11): 69-71.
[214]李言欽,周懷春,何其偉. 采用聲波法監測四角切圓流場二維分布特性的模擬研究[J]. 中國電機工程學報, 2003, (11): 219-223.
[215]朱志武,周懷春. 考慮輻射熱流非均勻分布的蒸發過程模擬分析[J]. 熱力發電, 2003, (11): 53-57+98.
[216]何新龍,周懷春,於正前,焦慶豐,賴登明. 火電廠靜電除塵器故障診斷專家系統軟件開發[J]. 自動化與儀器儀表, 2003, (06): 51-54.
[217]萬新福,薛益鳴,周懷春,張輝,崔延峰,楊超,羅自學. 基于全爐膛火焰圖像處理及輻射能檢測應用研究[J]. 華中電力, 2003, (05): 7-10.
[218]姚斌,婁春,劉浩,周懷春,陳士英,邵主建,莊群,鄭見云. 大型鍋爐爐膛斷面溫度場的試驗研究[J]. 熱力發電, 2003, (09): 29-31+39-73.
[219]楊超,周懷春,於正前. 多層前向神經網絡建模及其在火電廠系統辨識中的應用[J]. 自動化與儀器儀表, 2003, (05): 23-25.
[220]李莉,姜志偉,婁春,周懷春. 煤粉燃燒一維溫度分布可視化模擬研究[J]. 熱能動力工程, 2003, (05): 445-449+539.
[221]李宏順,周懷春,陸繼東,鄭楚光. 用離散坐標法計算爐膛火焰輻射能成像[J]. 工程熱物理學報, 2003, (05): 843-845.
[222]吳峰,艾育華,婁春,周懷春. 蠟燭火焰三維溫度場重建實驗研究[J]. 工程熱物理學報, 2003, (05): 894-896.
[223]劉浩,周懷春,婁春,劉堯平,吳秋. 燃煤鍋爐爐膛斷面溫度場可視化實驗研究[J]. 熱科學與技術, 2003, (03): 250-254.
[224]王大偉,王淅芬,周懷春. 一種煤粉爐內三維燃燒溫度分布優化控制方法[J]. 湖北電力, 2003, (04): 1-5.
[225]李錦,周懷春,於正前. 一種多輸入多輸出系統模型辨識方法及其應用[J]. 自動化與儀器儀表, 2003, (04): 38-40+52.
[226]吳銳,張大勇,周懷春. 相移全息干涉法重建火焰溫度場的新方法[J]. 華中科技大學學報(自然科學版), 2003, (06): 54-56.
[227]羅自學,周懷春. 用PLC及觸摸屏實現群爐聯控供熱[J]. 自動化與儀器儀表, 2003, (03): 16-18.
[228]何其偉,於正前,李言欽,田國銀,周懷春. 爐膛速度場聲學檢測裝置[J]. 自動化與儀器儀表, 2003, (03): 42-45.
[229]李宏順,周懷春,陸繼東,鄭楚光. 爐膛輻射換熱計算的一種改進的離散傳遞法[J]. 中國電機工程學報, 2003, (04): 166-170.
[230]周懷春,韓曙東,盛鋒,鄭楚光. 爐膛燃燒溫度場三維可視化監測方法模擬研究[J]. 動力工程, 2003, (01): 2154-2159.
[231]婁春,韓曙東,劉浩,周懷春. 一種煤粉燃燒火焰輻射成像新模型[J]. 工程熱物理學報, 2002, (S1): 93-96.
[232]李宏順,周懷春. 用于離散坐標法的一種局部分解菱形格式[J]. 華中科技大學學報(自然科學版), 2002, (12): 77-79.
[233]邱彥夫,周懷春. 鍋爐省煤器排灰系統不能投運原因分析及改造[J]. 華中電力, 2002, (06): 63-66.
[234]張師帥,周懷春,彭敏,劉武林,黃素逸. 基于爐膛輻射能信號的電站燃煤機組燃燒控制研究[J]. 中國電機工程學報, 2002, (11): 157-161.
[235]婁春,周懷春. DSP嵌入式爐膛火焰圖像檢測處理系統[J]. 中國電力, 2002, (10): 65-67.
[236]賈濤,程強,韓曙東,於正前,周剛,周懷春. 一種火焰輻射圖像探頭的標定方法[J]. 熱力發電, 2002, (05): 23-25+0.
[237]李宏順,周懷春. 一種可隨意調節的旋轉對稱離散坐標格式[J]. 華中科技大學學報(自然科學版), 2002, (07): 1-3.
[238]周懷春,韓曙東,鄭楚光. 兩種輻射溫度圖象監測方法的模擬比較分析及其適用性評價[J]. 中國電機工程學報, 2002, (06): 110-115.
[239]張師帥,周懷春,彭敏,劉武林. 基于火焰圖像處理的爐膛輻射能信號的檢測及分析[J]. 熱能動力工程, 2002, (02): 166-168+182-216.
[240]張師帥,周懷春,賈濤,黃素逸. 基于爐膛輻射能信號的主汽壓特性及仿真研究[J]. 華中科技大學學報(自然科學版), 2002, (02): 54-56.
[241]游君,周懷春,侯玉波. 求解顆粒吸收系數和散射系數的一種新算法[J]. 華中科技大學學報(自然科學版), 2002, (02): 57-59.
[242]王巍,於正前,周懷春. 電站鍋爐燃燒監控系統研究[J]. 自動化與儀器儀表, 2001, (02): 13-16.
[243]張師帥,周懷春,黃勇理,王巍,黃素逸. 采用輻射能反饋信號的火電單元機組負荷控制系統仿真研究[J]. 中國電機工程學報, 2001, (02): 86-89.
[244]黃勇理,瞿坦,汪秉文,周懷春. 中藥濃縮顆粒處方自動配制系統設計及相關技術[J]. 計算機自動測量與控制, 2001, (01): 18-20.
[245]韓曙東,周懷春,盛鋒,黃勇理,孫學信. 基于具有明顯測量誤差的輻射圖象的二維爐膛溫度分布重建和快速特征識別研究[J]. 中國電機工程學報, 2000, (09): 68-72+77.
[246]黃勇理,瞿坦,周懷春,宋鋒,韓曙東. 電站鍋爐爐膛火焰自動化監測中的圖像處理技術[J]. 儀表技術與傳感器, 2000, (08): 23-26.
[247]盛鋒,周懷春,韓曙東,鄭楚光. 基于針孔成像模型的爐膛輻射成像快速算法[J]. 華中理工大學學報, 2000, (05): 95-97.
[248]陳剛,謝勇,丘紀華,周懷春. 三次風下移減小煤粉鍋爐煙溫偏差的研究[J]. 華中理工大學學報, 2000, (02): 102-104.
[249]李軍,周懷春,柳朝暉,鄭楚光,蔡軍林. 電站燃煤鍋爐最低無油穩燃負荷預測[J]. 中國電機工程學報, 2000, (02): 74-78.
[250]黃勇理,瞿坦,周懷春,徐安. 爐內輻射能檢測及燃燒補償控制裝置設計[J]. 自動化與儀表, 2000, (01): 22-26.
[251]盛鋒,周懷春,韓曙東,李軍,鄭楚光. 基于圖像處理及輻射傳熱逆問題求解的二維爐膛溫度場重建[J]. 中國電機工程學報, 1999, (10): 2-6.
[252]周懷春,盛鋒,姚洪,鄭楚光. 高溫空氣燃燒技術──21世紀關鍵技術之一[J]. 工業爐, 1998, (01): 19-27+31.
[253]周懷春,程浩斌,婁新生. 煤粉爐內輻射圖象處理和燃燒過程數值模擬相結合初探[J]. 工程熱物理學報, 1998, (01): 125-128.
[254]周懷春,程浩斌. 單角試驗爐煤粉射流著火可視化試驗研究[J]. 燃燒科學與技術, 1997, (04): 18-23.
[255]程浩斌,周懷春,婁新生. 新型燃煤鍋爐燃燒過程穩定性評價指數CSI[J]. 工程熱物理學報, 1997, (04): 512-516.
[256]周懷春,婁新生,鄧元凱. 基于輻射圖象處理的爐膛燃燒三維溫度分布檢測原理及分析[J]. 中國電機工程學報, 1997, (01): 1-4.
[257]周懷春,肖教芳,徐明厚,范耀國. 帶爐罩的十字形鈍體煤粉穩燃器研究[J]. 電站系統工程, 1997, (01): 39-44.
[258]周懷春,婁新生,尹鶴齡,鄧元凱,顧一之,孫國俊. 單色火焰圖象處理技術在鍋爐燃燒監控中的應用研究[J]. 電力系統自動化, 1996, (10): 20-24.
[259]周懷春,婁新生,尹鶴齡,鄧元凱,顧一之,孫國俊. 采用輻射能信號的電站鍋爐燃料調節對象建模及控制仿真研究[J]. 中國電機工程學報, 1996, (04): 226-229.
[260]婁新生,張明春,孔文華俊,周懷春,鄭楚光,程尚模. MPS磨煤機旋轉分離器兩相阻力特性的試驗研究[J]. 熱能動力工程, 1996, (03): 143-146+190-191.
[261]婁新生,周懷春,張明春,程尚模,鄭楚光,韓才元,王志維. MPS磨煤機旋轉分離器的試驗研究[J]. 中國電機工程學報, 1995, (06): 411-416.
[262]周懷春,婁新生,肖教芳,尹鶴齡,鄧元凱,顧一之,徐方靈,孫國俊. 爐膛火焰溫度場圖象處理試驗研究[J]. 中國電機工程學報, 1995, (05): 295-300.
[263]崔和平,婁新生,周懷春,張明春,韓才元. 煤粉燃燒器計算機輔助設計[J]. 動力工程, 1994, (06): 41-45+63.
[264]周懷春,韓才元,朱和平,崔和平,張正方. 基于自組織神經網絡的燃燒診斷研究[J]. 控制理論與應用, 1994, (05): 600-603.
[265]周懷春,韓才元. 用于煤粉燃燒診斷的火焰顏色計測方法[J]. 光譜學與光譜分析, 1994, (02): 31-34.
[266]周懷春,韓才元. 四角切圓燃燒過程穩定性動態分析模擬研究—Ⅰ、模型的建立[J]. 中國電機工程學報, 1994, (02): 20-24+30.
[267]周懷春,韓才元. 四角切圓燃燒過程穩定性動態分析模擬研究—Ⅱ、結果及分析[J]. 中國電機工程學報, 1994, (02): 25-30.
[268]周懷春,婁新生,張明春,崔和平,盛昌棟,韓才元. 煤質變化對鍋爐燃燒穩定性影響的模擬研究[J]. 電站系統工程, 1994, (02): 35-38+63.
[269]周懷春,韓才元. 電站燃煤鍋爐燃燒計算機控制問題探討[J]. 熱能動力工程, 1994, (02): 111-116+128.
[270]韓才元,張杰,朱和平,周懷春. 燃燒優化模型及其控制系統的研究[J]. 華中理工大學學報, 1993, (S1): 90-93.
[271]周懷春,吳季蘭,韓才元. 主蒸汽母管及并列運行鍋爐動態特性探討[J]. 華中理工大學學報, 1993, (S1): 94-98.
[272]周懷春, 韓才元. 日本鍋爐燃燒診斷技術新動向[J]. 中國電力, 1993, (12): 59-61.
[273]周懷春,韓才元. 應用火焰探測診斷煤粉燃燒的試驗研究[J]. 動力工程, 1993, (04): 32-36+58-63.
[274]周懷春,韓才元. 鍋爐燃燒診斷技術研究[J]. 電站系統工程, 1993, (04): 52-57+62+67.
[275]周懷春, 肖旭東, 韓才元. 煤粉燃燒診斷專家系統的研究[J]. 熱力發電, 1993, (06): 43-47+66.
[276]周懷春,韓才元. 煤粉燃燒火焰顏色定量分析試驗研究[J]. 中國電機工程學報, 1993, (01): 46-51.
[277]周懷春, 韓才元. 鍋爐診斷技術的現狀和展望[J]. 鍋爐技術, 1992, (08): 13-17.
發表會議論文:
[1]Shu, Zheng; Wenkai, Liang; Huaqiang, Chu; Huaichun, Zhou.EFFECTS OF RADIATION REABSORPTION IN C1-C6 HYDROCARBON FLAMES AT NORMAL AND ELEVATED PRESSURES.Proceedings of the 9th International Symposium on Radiative Transfer, RAD-19, 2019-06-03 To 2019-06-07.
[2]Jia, Lu; Huaichun, Zhou.GRAZING-ANGLE SCATTERING PEAK PHENOMENON IN THE SCATTERING OF ROUGH SURFACE.International Heat Transfer Conference 16, 2018-08-10 To 2018-08-15.
[3]Chaobo, Qi; Shu, Zheng; Huaichun, Zhou.CALCULATIONS OF THERMAL RADIATION TRANSFER OF C2H2 AND C2H4 TOGETHER WITH H2O, CO2, AND CO IN A ONE-DIMENSIONAL ENCLOSURE USING LBL AND SNB MODELS.Proceedings of the 8th International Symposium on Radiative Transfer, RAD-16 June 6-10,2016, Cappadocia, Turkey, 2016-06-06 To 2016-06-10.
[4]Huaichun Zhou*.A New Real-time Combustion Control Strategy for PC-Fired Boilers in Power Plants.BIT's 3rd Annual International Symposium of Clean Coal Technology-2014, 2014-09-16 to 2014-09-18.
[5]周懷春*.鍋爐燃燒實時輻射能信號及其在機組協調控制優化中的應用展望.電站熱工控制研討會暨自動化信息化技術交流會, 2014-08-13至2014-08-15.
[6]Li Pingping*; Cheng Qiang; Wu Hao; Song Jinlin; Zhou Huaichun.ANALYSIS AND OPTIMISATION OF TWO-DIMENSIONAL SILICON COMPLEX GRATING WITH DIFFERENT RIDGE HEIGHTS OR GROOVE DEPTHS FOR SOLAR CELLS.4th ASME International Conference on Micro/Nanoscale Heat and Mass Transfer, 2013-12-11 To 2013-12-14.
[7]Pingping Li; Qiang Cheng*; Hao Wu; Jinlin Song; Huaichun Zhou.AND OPTIMISATION OF TWO-DIMENSIONAL SILICON COMPLEX GRATING WITH DIFFERENT RIDGE HEIGHTS OR GROOVE DEPTHS FOR SOLAR CELLS.ASME 2013 4th International Conference on Micro/Nanoscale Heat and Mass Transfer, 2013-12-11 to 2013-12-14.
[8]周懷春*.海市蜃樓現象及粗糙表面掠入角反射增強效應分析.中國工程熱物理學會傳熱傳質分會會議, 2013-10-25至2013-10-27.
[9]Liu Huawei; Lv Wei; Zhou Huaichun*.Fabrication of independent virtual lines for reconstruction of 2D source distribution with high spatial resolution equal to that of limited projections.2013 IEEE International Conference on Imaging Systems and Techniques (IST), 2013-10-22 To 2013-10-23.
[10]Qiang Cheng; Xian Zhang; Zhi feng Huang; Zhichao Wang; Huaichun Zhou.THE DRESOR METHOD FOR RADIATIVE HEAT TRANSFER IN A SEMITRANSPARENT GRADIENT INDEX CYLINDRICAL MEDIUM.RAD-13. Proceedings of the 7th International Symposium on Radiative Transfer, June 2-8, 2013, Kusadasi, Turkey, 2013-06-02 To 2013-06-08.
[11]Musa, Amir A. B.; Zeng, Xiong Wei; Fang, Qing Yan; Zhou, Huai Chun*.Numerical Simulation on Improving NOX Reduction Efficiency of SNCR by Regulating the 3-D Temperature Field in a Furnace.International Conference on Advances in Energy and Environmental Science (ICAEES), 2013-07-30 To 2013-07-31.
[12]Lu Jia; Cheng Qiang*; Zhou Huaichun.Improve solar cell efficiency using concave complex grating structure.International Workshop on Nano-Micro Thermal Radiation, Japan, 2012-05.
[13]Wu Y.T.; Huang Z.-F.; Hsu P.-F.*; Zhou H.A hybrid partial coherence and geometry optics model of thin film optics on coated rough surfaces.ASME 2012 3rd International Conference on Micro/Nanoscale Heat and Mass Transfer, MNHMT 2012, 2012-03-03 to 2012-03-06.
[14]Wang, Z.C; Cheng, Q.; Wang, G.H.; Huang, Z.F.; Zhou, H.C.*.Effects of nonlinear gradient index on radiative heat transfer in a one-dimensional medium by the DRESOR method.Eurotherm Conference No. 95: Computational Thermal Radiation in Participating Media IV , France, 2012-04-18 to 2012-04-20.
[15]Zhi-chao Wang; Qiang Cheng; Gui-hua Wang; Hua-qiang Chu; Huai-chun Zhou*.The DRESOR method for one-dimensional radiative heat transfer in variable refractive index medium.2011 International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, 2011-11-17 to 2011-11-20.
[16]G.H. Wang; Q. Cheng; Z.C. Wang; X.Y. Zhang; H.C. Zhou*.The DRESOR Method Based on a New Equation Method in a Plane-Parallel, Isotropic Scattering Medium with Cold Black and Diffuse Boundaries.2011 International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, 2011-11-17 to 2011-11-20.
[17]Xiang-Yu Zhang; Qiang Cheng; Zhi-Chao Wang; Huai-Chun Zhou*; Song Shao.3-D temperature measurement in a tubular furnace based on radiation image processing technique.2011 International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control, 2011-11-17 to 2011-11-20.
[18]Zhou Huaichun*.Progress in DRESOR Method for Thermal Radiative Heat Transfer Analysis.The International Workshop on Heat Transfer Advances for Energy Conservation and Pollution Control - 2011 (IWHT2011), 2011-10-17 to 2011-10-20.
[19]張險; 程強; 周懷春.三維柱坐標系下DRESOR法的求解.2011年中國工程熱物理學會傳熱傳質學學術會議, 中國,陜西省,西安市, 2011-10-01.
[20]王志超; 程強; 楚化強; 周懷春.一維漫射灰壁面梯度折射率介質問題的DRESOR法求解.2011年中國工程熱物理學會傳熱傳質學學術會議, 中國,陜西省,西安市, 2011-10-01.
[21]王貴華; 程強; 王志超; 周懷春.一維平板內DRESOR法的快速精確計算.2011年中國工程熱物理學會傳熱傳質學學術會議, 中國,陜西省,西安市, 2011-10-01.
[22]楚化強; 王志超; 程強; 周懷春.氣體非灰輻射特性的指數寬譜帶模型分析.2011年中國工程熱物理學會傳熱傳質學學術會議, 中國,陜西省,西安市, 2011-10-01.
[23]張斌; 傅培舫; 周懷春.煤粉燃燒瞬態紊流的大渦模擬.2011年中國工程熱物理學會熱機氣動燃燒學學術會議, 中國,浙江省,杭州市, 2011-10-01.
[24]曾雄偉; 方慶艷; 周懷春.燃盡風對四角切圓爐膛氮氧化物排放影響的數值模擬.2011年中國工程熱物理學會熱機氣動燃燒學學術會議, 中國,浙江省,杭州市, 2011-10-01.
[25]Amir A.Bakermusa; 匡思維; 周儒昌; 方慶艷; 周懷春.O2/CO2氣氛下石油焦燃燒特性研究.2011年中國工程熱物理學會熱機氣動燃燒學學術會議, 中國,浙江省,杭州市, 2011-10-01.
[26]Lv W.; Zhou H.-C.*; Zhu J.-R.Thickness measurement of full field soap bubble film in real time based on large lateral shearing displacement interferometry.7th International Symposium on Measurement Techniques for Multiphase Flows, China,Tianjing, 2011-09-17 to 2011-09-19.
[27]Luo Zixue; Ling Xiao; Zhang Xiangyu; Zheng Shu; Zhou Huaichun*.Combustion Monitoring and Control in a Reheating Furnace.ASME 2011 Power Conference Co-located with International Conference on Power Engineering-2011, 2011-07-12 to 2011-07-14.
[28]Cheng Qiang; Zhang Xiangyu; Wang Zhichao; Zhou Huaichun*; Wu Lvbin.THE SIMULATION OF APPARENT DIRECTIONAL EMISSIVITY IN A THREE-DIMENSIONAL NONISOTHERMAL MEDIUM BY THE DRESOR METHOD.ASME 2011 Power Conference Co-located with International Conference on Power Engineering-2011, 2011-07-12 to 2011-07-14.
[29]周懷春*.熱輻射分析的DRESOR法研究進展.全國高校工程熱物理第17屆學術會議, 2011-06-19至2011-06-21.
[30]Zhou G.*; He W.; Zhou H.Control strategy study on drum water level of supercharged boiler based on radiation energy signal.2011 International Conference on Mechatronics and Materials Processing, ICMMP 2011, China,Guangdong,Guangzhou, 2011-11-18 to 2011-11-20.
[31]Jinrong Zhu; Huaichun Zhou; Lv Wei; Suyi Huang.Image processing applied to laser holographic interference fringes.ICCET 2010 - 2010 International Conference on Computer Engineering and Technology, China, 2010-10-01 to 2010-10-03.
[32]Jinrong Zhu*; Suyi Huang; Huaichun Zhou; Lv Wei.Recontruction of temperature measurement for flame using holographic interferometry.ICCET 2010 - 2010 International Conference on Computer Engineering and Technology, China, 2010-10-01 to 2010-10-03.
[33]Huang, Zhi-Feng; Zhou, Huai-Chun; Hsu, Pei-feng.IMPROVED DISCRETE ORDINATES METHOD FOR RAY EFFECTS MITIGATION.ASME International Mechanical Engineering Congress and Exposition, 2009-11-13 to 2009-11-19.
[34]Chu, Huaqiang*; Cheng, Qiang; Zhou, Huaichun; Liu, Fengshan.COMPARISON OF TWO STATISTICAL NARROW BAND MODELS FOR NON-GRAY GAS RADIATION IN PLANAR PLATES.6th International Symposium on Radiative Transfer (RADIATIVE TRANSFER), 2010-06-13 To 2010-06-19.
[35]Chu, Huaqiang; Cheng, Qiang; Zhou, Huaichun; Liu, Fengshan.COMPARISON OF TWO STATISTICAL NARROW BAND MODELS FOR NON-GRAY GAS RADIATION IN PLANAR PLATES.6th International Symposium on Radiative Transfer (RADIATIVE TRANSFER), 2010-06-13 To 2010-06-19.
[36]Hua-Jian Wang; Qing-Yan Fang; Zhi-Feng Huang; Huai-Chun Zhou*; Zi-Xue Luo; Dun-Dun Wang; Yi-Peng Sun.Reconstruction of 3-D Temperature Distribution in a 660 MW Arch-Fired Furnace by Visible Image Processin.The 6th International Symposium on Measurement Techniques for Multiphase Flows, Japan, 2009-12-15 to 2009-12-18.
[37]Jiang, Zhi-wei; Luo, Zi-xue; Zhou, Huai-Chun; Li, Zhi-gang.ONLINE PREDICTION MODEL OF HEAT ABSORPTION RATE BASED ON IMAGE PROCESSING IN A CIRCULATING FLUIDIZED BED BOILER.9th International Conference on Power Engineering (ICOPE-09), 2009-11-16 to 2009-11-20.
[38]Luo, Zi-xue; Fang, Qing-yan; Jiang, Zhi-wei; Huang, Zhi-feng; Zhou, Huai-Chun.EXPERIMENTAL STUDY OF OPTIMIZAITON CONTROL FOR A LARGE-SCALE COAL-FIRED UTILITY UNIT USING RADIATIVE ENERGY SIGNAL.9th International Conference on Power Engineering (ICOPE-09), Japan, 2009-11-16 to 2009-11-20.
[39]周懷春.鍋爐及加熱爐溫度場可視化及燃燒監控技術.中國自動化大會暨兩化融合高峰會議, 中國, 2009-11-03至2009-11-06.
[40]Cheng Qiang; Zhou Huai-Chun; Zhang Xiang-Yu; Shao Song; Wang Wei; Ma Xiao-Yang.AN ONLINE MONITORING TECHNOLOGY FOR VISUALIZATION OF 3-D HIGH TEMPERATURE FIELD IN A TUBULAR FURNACE.Inaugural US-EU-China Thermophysics Conference, China,Beijing, 2009-05-28 to 2009-05-30.
[41]H. C. Zhou*; C. Lou; J. Lu; Y. P. Sun.Distributions of Temperature and Soot Volume Fraction in an Ethylene/Air Diffusion Flame Measured by Image Processing of Visible Radiation.7th Asia-Pacific Conference on Combustion, Taiwan, 2009-05-24 to 2009-05-27.
[42]Wei Lv; Huai-chun Zhou*; Jin-rong Zhu.Experimentation and Fringe Simulation of Lateral Shearing Interferometry for 2-D Axisymmetric Laminar Diffused Ethylene Flame.7th Asia-Pacific Conference on Combustion, Taiwan, 2009-05-24 to 2009-05-29.
[43]Zhi-Feng Huang; Qiang Cheng; Hua-Qiang Chu; Huai-Chun Zhou*.COMPARISON OF TWO NUMERICAL METHODS TO CALCULATE RADIATIVE INTENSITY WITH HIGH DIRECTIONAL RESOLUTION.6th International Conference on Computational Heat and Mass Transfer, China,Guangdong,Guangzhou, 2009-05-18 to 2009-05-21.
[44]Qiang Cheng; Yong-Lin Yu; De-Xiu Huang; Huai-Chun Zhou*.RADIATIVE HEAT TRANSFER IN A 2-D, INHOMOGENEOUS, RECTANGULAR MEDIUM EXPOSED TO COLLIMATED RADIATION.6th International Conference on Computational Heat and Mass Transfer, China,Guangdong,Guangzhou, 2009-05-18 to 2009-05-21.
[45]Zhang, Xiang-Yu; Cheng, Qiang; Zhou, Huai-Chun.SYNCHRONOUS RECONSTRUCTION OF THE TWO-DIMENSIONAL TEMPERATURE DISTRIBUTION AND RADIATION PARAMETER IN AN INDUSTRIAL BOILER.9th International Conference on Power Engineering (ICOPE-09), 2009-11-16 to 2009-11-20.
[46]Luo, Zi-xue; Wang, Dun-dun; Lian, Duan; Zhou, Huai-Chun.Measurement of Dense-Phase Bed Height in CFB Boiler Based on Flame Image Processing Technique.International Conference on Measuring Technology and Mechatronics Automation, 2009-04-11 to 2009-04-12.
[47]Fang, Qing-Yan; Jiang, Zhi-wei; Wang, Hua-Jian; Lou, Chun; Yao, Bin; Zhou, Huai-Chun.VISUALIZATION DETECTIONS OF THE COMBUSTION IN A 300-MW ARCH-FIRED BOILER.9th International Conference on Power Engineering (ICOPE-09), 2009-11-16 to 2009-11-20.
[48]Jing Lu; Chun Lou; Huai-Chun Zhou*.Experimental Investigation on Soot Volume Fraction in an Ethylene Diffusion Flame by Emission Spectrometry without Optically-Thin Assumption.The 6th International Symposium on Measurement Techniques for Multiphase Flows, Japan, 2008-12-15 to 2008-12-18.
[49]Huai-Chun Zhou*; Chun Lou; Jing Lu.Recent Achievements in Measurements of Soot Volume Fraction and Temperatures in a Coflow, Diffuse Ethylene-air Flame by Visible Image Processing.The 6th International Symposium on Measurement Techniques for Multiphase Flows, Japan, 2008-12-15 to 2008-12-18.
[50]周懷春.熱輻射及燃燒相關問題研究進展.中國工程熱物理學會燃燒學年會, 中國,陜西省,西安市, 2008-10-25至2008-10-27.
[51]謝明亮, 周懷春 & 張引弟. (2008). 兩種無界流動穩定性問題的計算. (eds.) 第二十一屆全國水動力學研討會暨第八屆全國水動力學學術會議暨兩岸船舶與海洋工程水動力學研討會文集 (pp.78-83).
[52]Lou, Chun; Zhou, Huai-Chun.Effects of carbon content in coal on flame radiation in large-scale pulverized-coal-fired boiler furnaces.International Conference on Power Engineering (ICOPE-2007), China, 2007-10-23 to 2007-10-27.
[53]萬新福, 關玉龍, 周懷春 & 羅自學. (2007). 300MW雙爐膛直流爐三維溫度場可視化監控系統的應用研究. (eds.) 全國火電大機組(300MW級)競賽第36屆年會論文集(上冊) (pp.50-55).
[54]Zhou, Huai-Chun; Wu, Lubin; Luo, Zixue; Huang, Benyuan.A new direct energy balance control concept for PC-fired boiler-turbine unit based on radiation energy signal.17th Annual Joint ISA POWID/EPRI Controls and Instrumentation Conference and 50th Annual ISA POWID Symposium 2007, 2007-06-10 to 2007-06-15.
[55]Fu, Pei-Fang; Zhou, Huai-Chun; Fang, Qing-Yan; Yao, Hai; Qiu, Jianrong; Xu, Minghou.Study on the submicron and micron morphology and the properties of poor bituminous coal burnout.Symposium on Advanced Coal Utilization Technology, 2006-07-12 to 2006-07-14.
[56]Zhou H C*; Huang B Y; Wu L B; Lou C; Luo Z X.On-line visualization of temperature distributions by flame image processing in furnaces for combustion diagnosis and control.6th Asia-Pacific Conference on Combustion, Japan, 2007-05-21 to 2007-05-23.
[57]Fu, Peifang; Zhou, Huaichun.SCT reaction kinetics model and diffusion for pulverized coal combustion in TGA.6th International Symposium on Coal Combustion, 2007-12-01 To 2007-12-04.
[58]Sun, Danping; Fang, Qingyan; Wang, Huajian; Zhou, Huaichun.Experimental and simulation investigations of combustion optimization on a 125 MW tangentially anthracite-fired boiler.International Conference on Power Engineering (ICOPE-2007), 2007-10-23 To 2007-10-27.
[59]Fang, Qingyan; Zhou, Huaichun; Huang, Lai; Yao, Bin; Wang, Huajian.Combustion process simulation of a tangentially coal blend fired boiler.6thh International Symposium on Coal Combustion, 2007-12-01 To 2007-12-04.
[60]Lou, Chun; Zhou, Huai-Chun.Concurrent measurement of 2-d temperature distributions and radiative properties of pulverized-coal-fired flame in a 670 t/h boiler furnace.5th International Symposium on Measurement Techniques for Multiphase Flows/2nd International Workshop on Process Tomography, 2006-12-10 to 2006-12-13.
[61]Zhou H C*; Lou C; Luo Z X; Jiang Z W; Huang Z F; Cheng Q.Combustion monitoring and control for pc-fired furnaces in power plants by visible flame image processing.6th International Symposium on Coal Combustion, 2007-12-01 To 2007-12-04.
[62]Cheng, Qiang; Zhou, Huaichun; Lou, Chun; Jiang, Zhiwei; Huang, Zhifeng; Yu, Yonglin; Huang, Dexiu.3-D temperature measurement in a walk beam furnace based on radiation image processing technique.6th International Symposium on Coal Combustion, 2007-12-01 To 2007-12-04.
[63]Luo, Zixue; Zhou, Huaichun; Zhang, Hui; Zhou, Guang.RES induced for combustion optimized control and low NOx emission in thermal power generating units.International Conference on Power Engineering (ICOPE-2007), 2007-10-23 To 2007-10-27.
[64]楊超, 魏漢雨 & 周懷春. (2006). Modbus協議在DCS與爐膛燃燒監控系統通訊中的應用. (eds.) 第二十屆中國(天津)'2006IT、網絡、信息技術、電子、儀器儀表創新學術會議論文集 (pp.98-102).
[65]郭娟, 李言欽, 羅國權, 方慶艷 & 周懷春. (2005). 一種新型燃燒器的冷態流場試驗研究. (eds.) 中國動力工程學會第三屆青年學術年會論文集 (pp.167-172).
[66]方慶艷, 汪華劍, 張志國, 傅培坊 & 周懷春. (2005). 一種可調節自適應煤粉燃燒器數值模擬研究. (eds.) 中國動力工程學會第三屆青年學術年會論文集 (pp.161-166).
[67]周懷春, 方慶艷 & 張志國. (2005). 煤粉射流吸熱著火穩燃機理及新型穩燃技術探討. (eds.) 第八屆鍋爐專業委員會第二次學術交流會議論文集 (pp.216-224).
[68]Zhou, HC; Lou, C; Cheng, Q; Jiang, ZW; He, J; Huang, BY; Pei, ZL; Lu, CX.Experimental investigations on visualization of three-dimensional temperature distributions in a large-scale pulverized-coal-fired boiler furnace.30th International Symposium on Combustion, 2004-07-25 to 2004-07-30.
[69]Luo, Zixue; Zhou, Huai-Chun; Wu, Lubin; Liu, Zhiwei.Res introduced through flame image processing and visualization of 3-D temperature distribution in a coal-fired boiler furnace.ASME Power Conference 2005, 2005-04-05 to 2005-04-07.
[70]程強,婁春,姜志偉,周懷春,宋平,張茂杰... & 王銳. (2004). 工業爐三維溫度場可視化試驗研究. (eds.) 2004全國能源與熱工學術年會論文集(2) (pp.49-53).
[71]羅自學, 楊超 & 周懷春. (2004). 爐內可視化的輻射能信號提取機理及應用研究. (eds.) 2004電站自動化信息化學術技術交流會議論文集 (pp.425-430).
[72]吳峰; 艾育華; 婁春; 周懷春.基于輻射圖象處理的三維溫度場重建實驗研究.中國工程熱物理學會燃燒學學術會議, 中國,江蘇省,南京市, 2002-10-01.
[73]王大偉; 周懷春.一種煤粉爐內三維燃燒溫度分布優化控制方法.中國工程熱物理學會燃燒學學術會議, 中國,江蘇省,南京市, 2002-10-01.
[74]李宏順; 周懷春; 陸繼東; 鄭楚光.用離散坐標法計算爐膛火焰輻射針孔成像.中國工程熱物理學會傳熱傳質學學術會議, 中國,上海市, 2002-10-01.
[75]劉浩; 周懷春; 婁春; 劉堯平; 吳秋.燃煤鍋爐爐膛斷面溫度場可視化實驗研究.中國工程熱物理學會2002多相流學術會議中國計量測試學會第七屆多相流測試技術會議, 中國,遼寧省,大連市, 2002-10-01.