{"id":279,"date":"2022-05-19T08:11:18","date_gmt":"2022-05-19T08:11:18","guid":{"rendered":"http:\/\/120.48.11.120:89\/?p=279"},"modified":"2024-10-15T08:46:27","modified_gmt":"2024-10-15T00:46:27","slug":"%e6%9c%9f%e5%88%8a%e8%ae%ba%e6%96%87","status":"publish","type":"post","link":"http:\/\/www.yangbin.net.cn\/?p=279","title":{"rendered":"\u671f\u520a\u8bba\u6587"},"content":{"rendered":"\n

2024\u5e74 19\u7bc7<\/strong><\/p>\n\n\n\n

[1] Yang Yang, Haihang Hu, Haoyu Wang, Chao Zhang, Bin Yang(*), Huaifen Zhao. Study on characteristics of phase-isolation caused by different classic axial flow swirlers in upward vertical gas-liquid two-phase flow[J]. Experimental Thermal and Fluid Science, 2024, 150: 111031. (SCI: WOS: 001106671300001, EI: 20233714703011)<\/p>\n\n\n\n

[2] Bin Yang(*), Mingchun Ye, Kejie Qiang, Jinxin Tao, Sihua Chen, Jiahui Chen, Zhixin Wang. Light transmittance measurement method of solid rocket motor plume based on laser modulation spectrum analysis[J]. Propellants, Explosives, Pyrotechnics, 2024, 49: e202300224. (SCI: WOS: 001136467600001, EI: 20240115328454)<\/p>\n\n\n\n

[3] Hua Yan, Yunchi Chen, Bin Yang(*), Yang Yang, Hu Ni, Ying Wang. A novel hybrid forecasting approach for NOx emission of coal-fired boiler combined with CEEMDAN and self-attention improved by LSTM[J]. Asia-pacific Journal of Chemical Engineering, 2024: e3057. (SCI: WOS: 001199812800001)<\/p>\n\n\n\n

[4] Hua Yan, Ming Liu, Bin Yang(*), Yang Yang, Hu Ni, Haoyu Wang. Short-term forecasting approach of single well production based on multi-intelligent agent hybrid model[J]. PLoS One, 2024, 19(4): e0301349. (SCI: WOS: 001239204800026)<\/p>\n\n\n\n

[5] Hu Ni, Rong Fan, Haihang Hu, Bin Yang(*), Zhixin Wang, Di Cao, Yang Yang, Zhiquan Shi. Synchronized measurement method of burning rate and combustion temperature of a solid propellant specimen[J]. Applied Optics, 2024, 63(13): 3420-3429. (SCI: WOS: 001236913900001)<\/p>\n\n\n\n

[6] Haoyu Wang, Yang Yang, Bin Yang(*), Yu Tang, Wenjie Jing. Analysis of stability and internal flow mechanisms in spiral annular flow with different swirlers[J]. Experimental Thermal and Fluid Science, 2024, 158: 111263.<\/p>\n\n\n\n

[7] Haoyu Wang, Haifeng Hu, Bin Yang(*), Jianwen Yang, Yang Yang, Ying Wang. Investigation of droplet splashing behavior during oblique jet impact onto a wall[J]. Physics of Fluids, 2024, 36: 105117.<\/p>\n\n\n\n

[8] Hu Ni, Kejie Qiang, Wensong Wang, Bin Yang(*), Jinxin Tao, Yang Yang, Zhiquan Shi. Flame temperature and emissivity distribution measurement of solid propellant based on clustering analysis of multispectral radiation images[J]. Optics Letters. (Accepted)<\/p>\n\n\n\n

[9] Hu Ni, Liang Zhang, Zeyuan Zhang, Bin Yang(*), Dazhi Xu, Chi Zhang, Yongli Xiang, Yang Yang. Dangerous mechanical impact and response measurement method of solid rocket motor based on acoustic emission[J]. IEEE Instrumentation & Measurement Magazine. (Accepted)<\/p>\n\n\n\n

[10] Hua Yan, Ming Liu, Bin Yang(*), Yang Yang, Hu Ni, Haoyu Wang, Ying Wang. Prediction of oil production based on multivariate analysis and self-attention mechanism integrated with long short-term memory[J]. Petroleum Science and Technology, DOI:10.1080\/10916466.2024.2401513. (SCI: WOS: 001313452900001)<\/p>\n\n\n\n

[11] Hu Ni, Kejie Qiang, Mingchun Ye, Bin Yang(*), Zhixin Wang, Yang Yang. Influence of silicon-based photoelectric material spectral characteristics on radiation spectroscopy thermometry[J]. Journal of Thermophysics and Heat Transfer. (Accepted)<\/p>\n\n\n\n

[12] Hua Yan, Qiang Li, Bin Yang(*), Yang Yang, Ying Wang, Hao Zhang. Modeling and prediction method for Young’s moduli of Ti alloys based on residual muti-layer perceptron[J]. JOM. (Accepted)<\/p>\n\n\n\n

[13] Yang Yang, Haihang Hu, Hu Ni, Chao Zhang, Bin Yang(*). Combustion temperature measurement of the solid propellant specimen by colorimetric radiation image[J]. Journal of Thermophysics and Heat Transfer. (Accepted)<\/p>\n\n\n\n

[14] S. Yang, L. Jiao, Y. Bin, X. Jian, W. Ying(*), L. Shipeng. Numerical simulation of underwater supersonic gaseous jets of underwater vehicle with porous media layer[J]. Journal of Applied Fluid Mechanics, 2024, 17(6): 1339-1353.<\/p>\n\n\n\n

[15] Zexu Li, Jianzhong Liu(*), Wenke Zhang, Zhenwei Ye, Bin Yang. Numerical simulation of the effect of multiple factors on the ignition process of a solid rocket motor[J]. 2024, 49: e202300198.<\/p>\n\n\n\n

[16] \u738b\u7693\u5b87, \u6768\u6768, \u8346\u6587\u5a55, \u6768\u658c(*), \u5510\u96e8, \u5218\u6bc5. \u4e0d\u540c\u65cb\u6d41\u5668\u4f5c\u7528\u4e0b\u6c14\u6db2\u87ba\u65cb\u73af\u72b6\u6d41\u52a8\u7279\u6027\u7814\u7a76[J]. \u5316\u5de5\u5b66\u62a5, 2024, 75(8): 2744-2755.<\/p>\n\n\n\n

[17] \u54c8\u96ef, \u6768\u6768(*), \u5510\u96e8, \u66f9\u9814, \u5f20\u8d85, \u6768\u658c. \u6cb9\u6c34\u73af\u72b6\u6d41\u622a\u9762\u76f8\u542b\u7387\u8d85\u58f0\u8870\u51cf\u6cd5\u6d4b\u91cf[J]. \u5316\u5de5\u8fdb\u5c55, 2024, 43(2): 768-780.<\/p>\n\n\n\n

[18] \u94b1\u6668, \u6768\u5efa\u6587, \u6768\u6768, \u6768\u658c(*). \u96f7\u8bfa\u6570\u5bf9\u7ad6\u76f4\u58c1\u9762\u964d\u819c\u539a\u5ea6\u5f71\u54cd\u7814\u7a76[J]. \u4e0a\u6d77\u7406\u5de5\u5927\u5b66\u5b66\u62a5. (\u5df2\u5f55\u7528)<\/p>\n\n\n\n

[19] \u5434\u662d, \u674e\u6c5f\u5e06, \u5362\u6770(*), \u6768\u658c, \u90d1\u9f99\u5e2d. \u57fa\u4e8eTDLAS\u7684\u8109\u51b2\u7206\u9707\u53d1\u52a8\u673a\u71c3\u6c14\u6e29\u5ea6\u6d4b\u91cf[J]. \u71c3\u70e7\u79d1\u5b66\u4e0e\u6280\u672f. (\u5df2\u5f55\u7528)<\/p>\n\n\n\n

[20] \u66f9\u534e\u5b87, \u674e\u6d77\u6ce2, \u502a\u864e, \u6768\u658c(*). \u53cc\u6ce2\u957f\u56fe\u50cf\u6d4b\u6e29\u65b9\u6cd5\u5f71\u54cd\u56e0\u7d20\u5b9e\u9a8c\u7814\u7a76[J]. \u5149\u5b66\u4eea\u5668. (\u5df2\u5f55\u7528)<\/p>\n\n\n\n

2023\u5e74 9\u7bc7<\/strong><\/p>\n\n\n\n

[1] Bin Yang(*), Weihao Li, Jianwen Xie, Xingchen Zhu, Feng Wang, Yang Yang, Zhihua Li. Hydrogen sulfide measurement of combustion gaseous product using ultraviolet absorption spectroscopy[J]. Measurement, 2023, 214: 112766. (SCI: WOS: 001090337600001, EI: 20231413830875)<\/p>\n\n\n\n

[2] Bin Yang(*), Wensong Wang, Li Ping, Chenxi Pei, Xiaolong Chen, Ying Wang. Measurement of bubble\/slug velocity and size in vertical pipe based on optical cross-correlation method[J]. Optik, 2023, 272: 170172. (SCI: WOS: 000991220100001, EI: 20224813199013)<\/p>\n\n\n\n

[3] WANG Wen-song, Pei Chen-xi, YANG Bin(*), WANG Zhi-xin, QIANG Ke-jie, WANG Ying. Flame temperature and emissivity distribution measurement method based on multispectral imaging technology[J]. Spectroscopy and Spectral Analysis, 2023, 43(11): 3644-3652. (SCI: WOS: 001095634400043, EI: 20234715075234)<\/p>\n\n\n\n

[4] C. Ruixiang, X. Muyao, W. Ying(*), Y. Chao, Y. Bin, L. Shipeng. Numerical simulation of underwater supersonic jet of vehicle with shell-shaped flow control structure[J]. Journal of Applied Fluid Mechanics, 2023, 16(11): 2290-2299.<\/p>\n\n\n\n

[5] Yonggang Gao, Yang Liu(*), Zhichao Dong, Dong Ma, Bin Yang, Congcong Qiu. Preliminary experimental study on combustion characteristics in a solid rocket motor nozzle based on the TDLAS system[J]. Energy, 2023, 268: 126741.<\/p>\n\n\n\n

[6] \u9648\u4f73\u8f89, \u5434\u4f73\u4f73, \u5f3a\u79d1\u6770, \u51af\u4f1f, \u9648\u6653\u9f99, \u5218\u6d25\u826f, \u6768\u658c(*). \u4e00\u79cd\u57fa\u4e8e\u84dd\u7d2b\u5149\u7684\u56fa\u4f53\u706b\u7bad\u53d1\u52a8\u673a\u7fbd\u6d41\u70df\u96fe\u7279\u5f81\u4fe1\u53f7\u5728\u7ebf\u6d4b\u91cf\u65b9\u6cd5[J]. \u56fa\u4f53\u706b\u7bad\u6280\u672f, 2023, 46(3): 482-487.<\/p>\n\n\n\n

[7] \u80e1\u6d77\u822a, \u6a0a\u8363, \u6768\u6768(*), \u4e07\u4ee3\u7ea2, \u65f6\u5fd7\u6743, \u9093\u6829\u660c, \u6768\u658c. \u57fa\u4e8e\u84dd\u5149\u9634\u5f71\u56fe\u50cf\u6cd5\u7684\u56fa\u4f53\u63a8\u8fdb\u5242\u836f\u6761\u71c3\u901f\u6d4b\u91cf\u65b9\u6cd5[J]. \u56fa\u4f53\u706b\u7bad\u6280\u672f, 2023, 46(4): 644-652.<\/p>\n\n\n\n

[8] \u6234\u9752\u96ef, \u6768\u5efa\u6587, \u6768\u658c, \u738b\u83b9(*). \u5355\u80a1\u5c04\u6d41\u503e\u659c\u649e\u58c1\u5f71\u54cd\u56e0\u7d20\u7684\u6570\u503c\u6a21\u62df[J]. \u706b\u7bad\u63a8\u8fdb, 2023, 49(6): 46-54.<\/p>\n\n\n\n

[9] \u738b\u83b9, \u6c88\u6d0b, \u621a\u4e8c\u5e05, \u6768\u658c. \u57fa\u4e8e\u6df1\u5ea6\u5b66\u4e60\u7684\u6c34\u4e0b\u5c04\u6d41\u6d41\u578b\u8bc6\u522b[J]. \u6c5f\u82cf\u5927\u5b66\u5b66\u62a5(\u81ea\u7136\u79d1\u5b66\u7248), 2023, 44(4): 437-443.<\/p>\n\n\n\n

2022\u5e74 6\u7bc7<\/strong><\/p>\n\n\n\n

[1] Bin Yang(*), Xingchen Zhu, Jie Deng, Xiaoxu Guo, Jinke Han, Xiaowei Liu. Angle scattering method for soot concentration measurement under ultra-low emissions condition[J]. Energy Engineering, 2022, 119(2): 511-522. (EI: 20220411537839)<\/p>\n\n\n\n

[2] Jia-hao Wang, Jiao Luo, Sheng-xian Huang, Jian Xia, Bin Yang, Ying Wang(*). Numerical simulation of single aluminum droplet evaporation based on VOF method[J]. Case Studies in Thermal Engineering, 2022, 34: 102008.<\/p>\n\n\n\n

[3] Yubo Huang, XiaoweiLiu(*), Zhaofeng Wang, Meng Jiang, Zijian Zhou, Minghou Xu, Jinke Han, Bin Yang, Xinfeng Fan. On-line measurement of ultralow mass concentration particulate based on light scattering coupled with beta ray attenuation method[J]. Fuel, 2022, 329: 125461.<\/p>\n\n\n\n

[4] \u502a\u864e, \u5f20\u4eae, \u738b\u7476, \u738b\u6587\u677e, \u90ed\u5b81, \u738b\u7ee7, \u6768\u658c(*). \u57fa\u4e8eVoigt\u7ebf\u578b\u62df\u5408\u7684Bi3+<\/sup>\u4e0eEu3+<\/sup>\u5171\u63ba\u8367\u5149\u6750\u6599\u5149\u8c31\u6e29\u5ea6\u7279\u6027\u7814\u7a76[J]. \u56fa\u4f53\u706b\u7bad\u6280\u672f, 2022, 45(3): 467-472.<\/p>\n\n\n\n

[5] \u94b1\u6668, \u9ad8\u65b0\u59ae, \u80e1\u4fdd\u6797, \u5f6d\u4e2d\u4f1f, \u989c\u534e, \u6768\u658c(*). \u57fa\u4e8e\u56fe\u50cf\u5904\u7406\u7684\u55b7\u5634\u96fe\u5316\u89d2\u6d4b\u8bd5\u65b9\u6cd5[J]. \u706b\u7bad\u63a8\u8fdb, 2022, 48(3): 63-70.<\/p>\n\n\n\n

[6] \u5f90\u6587, \u9ad8\u65b0\u59ae, \u80e1\u4fdd\u6797, \u6768\u5efa\u6587, \u6768\u658c, \u738b\u83b9(*). \u79bb\u5fc3\u5f0f\u55b7\u5634\u4e00\u6b21\u7834\u788e\u4e0e\u4e8c\u6b21\u96fe\u5316\u7684\u6570\u503c\u6a21\u62df[J]. \u706b\u7bad\u63a8\u8fdb, 2022, 48(8): 13-20.<\/p>\n\n\n\n

2021\u5e74 10\u7bc7<\/strong><\/p>\n\n\n\n

[1] Li Ping, Jianwen Xie, Bin Yang(*), Wubin Wen, Ying Wang. Measurement of thermal deviation of flue-gas in crossover pass of single tangential boiler[J]. Applied Thermal Engineering, 2021, 188: 116647. (SCI: WOS: 000635628000051, EI: 20210609902849)<\/p>\n\n\n\n

[2] GUO Xiaoxu, PAN Kewei, HOU Longfeng, YANG Bin(*), PING Li, XU Qiuli, LIU Jinliang, WANG Ying. Research on radiation spectroscopy thermometry of plume of solid rocket motor[J]. Spectroscopy and Spectral Analysis, 2021, 41(1): 305-311. (SCI: WOS: 000614217700050, EI: 20210409818839)<\/p>\n\n\n\n

[3] PING Li, ZHAO Rong, YANG Bin(*), YANG Yang, CHEN Xiaolong, WANG Ying. Inversion of particle size distribution in spectral extinction measurements using PCA and BP neural network algorithm[J]. Spectroscopy and Spectral Analysis, 2021, 41(11): 3639-3647. (SCI: WOS: 000747237400050, EI: 20214511130739)<\/p>\n\n\n\n

[4] \u90b1\u806a\u806a, \u66f9\u4eae, \u9648\u6653\u9f99, \u6768\u658c(*), \u5218\u4f69\u8fdb. \u51b2\u538b\u53d1\u52a8\u673a\u7fbd\u6d41\u6e29\u5ea6TDLAS\u5728\u7ebf\u6d4b\u91cf\u7cfb\u7edf[J]. \u4eea\u5668\u4eea\u8868\u5b66\u62a5, 2021, 42(3): 70-77. (EI: 20212510535244)<\/p>\n\n\n\n

[5] \u6768\u658c(*), \u5f20\u9a70, \u5e73\u529b, \u6bb7\u4e0a\u8f76, \u59dc\u52c7\u4fca. \u5faa\u73af\u6d41\u5316\u5e8a\u9897\u7c92\u56e2\u591a\u53c2\u6570\u7684\u5149\u6563\u5c04\u6d4b\u91cf\u65b9\u6cd5[J]. \u4eea\u5668\u4eea\u8868\u5b66\u62a5, 2021, 42(10): 20-26. (EI: 20215011327971)<\/p>\n\n\n\n

[6] Jianwen Xie(*), Wubin Wen, Bin Yang, Fei Yang, Li Ping, Fei Zhang, Jianwen Zhang. Thermal deviation analysis of high-temperature reheater for single-tangential \u03c0 type boiler[J]. Applied Thermal Engineering, 2021, 192: 116846.<\/p>\n\n\n\n

[7] Jiayi Wang, Haitao Yu(*), Jianqi Shen, Bin Yang. Cameron Tropea. Simulation of the optical caustics associated with the primary rainbow for oblate spheroidal drops illuminated by a Gaussian beam[J]. Optics Express, 2021, 29(1): 377-384.<\/p>\n\n\n\n

[8] Zhi-bo Xiong(*), Zhen-zhuang Li, Cheng-xu Li, Bin Yang, Wei Lu, Su-le Tian. Starch bio-template synthesis of W-doped CeO2<\/sub> for selective catalytic reduction of NOx<\/sub> with NH3<\/sub>: influence of ammonia titration[J]. Journal of Physics and Chemistry of Solids, 2021, 148: 109727.<\/p>\n\n\n\n

[9] \u674e\u6210\u6210, \u674e\u82b3, \u6768\u658c, \u738b\u83b9(*). \u7b49\u79bb\u5b50\u4f53\u6fc0\u52b1\u6291\u5236\u55b7\u7ba1\u5206\u79bb\u6d41\u52a8\u6570\u503c\u6a21\u62df\u7814\u7a76[J]. \u822a\u7a7a\u5b66\u62a5, 2021, 42(7): 124547-1-11.<\/p>\n\n\n\n

[10] \u6768\u6768(*), \u80e1\u6d77\u822a, \u54c8\u96ef, \u6768\u658c, \u738b\u680b. \u7ba1\u5185\u76f8\u5206\u9694\u9ad8\u542b\u6c34\u6cb9\u6c34\u4e24\u76f8\u6d41\u53cc\u53c2\u6570\u6d4b\u91cf\u65b9\u6cd5[J]. \u5316\u5de5\u8fdb\u5c55, 2021, 40(12): 6441-6449.<\/p>\n\n\n\n

2020\u5e74 8\u7bc7<\/strong><\/p>\n\n\n\n

[1] \u8d75\u84c9, \u6f58\u79d1\u73ae, \u6768\u658c(*), \u5e73\u529b, \u8521\u5c0f\u8212. \u8de8\u5fae\u7c73\u5c3a\u5ea6\u6df7\u5408\u9897\u7c92\u7c92\u5f84\u540c\u6b65\u6d4b\u91cf\u65b9\u6cd5\u7814\u7a76[J]. \u5149\u5b66\u5b66\u62a5, 2020, 40(7): 0712001-1-7. (EI: 20202308782381)<\/p>\n\n\n\n

[2] \u65bd\u667a\u96c4, \u6f58\u79d1\u73ae, \u5e73\u529b, \u6768\u658c(*). \u55b7\u5634\u96fe\u5316\u53c2\u6570\u8f68\u8ff9\u56fe\u50cf\u6cd5\u6d4b\u91cf\u5b9e\u9a8c\u7814\u7a76[J]. \u5316\u5de5\u5b66\u62a5, 2020, 71(8): 3527-3534. (EI: 20203509100841)<\/p>\n\n\n\n

[3] \u6bdb\u5b89\u5143, \u738b\u52c7, \u6768\u658c(*), \u8521\u8fea, \u6f58\u79d1\u73ae, \u9648\u6653\u9f99, \u725b\u7984. \u59ff\u8f68\u63a7\u53d1\u52a8\u673a\u8bd5\u9a8c\u591a\u9600\u5149\u5b66\u540c\u6b65\u6d4b\u8bd5\u65b9\u6cd5\u7814\u7a76[J]. \u56fa\u4f53\u706b\u7bad\u6280\u672f, 2020, 43(1): 89-94.<\/p>\n\n\n\n

[4] \u6768\u658c(*), \u8d75\u84c9, \u738b\u7ee7, \u5e73\u529b, \u6f58\u79d1\u73ae, \u8521\u5c0f\u8212. \u6d88\u5149\u5149\u8c31\u9897\u7c92\u7c92\u5f84\u6d4b\u91cf\u65b9\u6cd5\u5f71\u54cd\u56e0\u7d20\u5b9e\u9a8c\u7814\u7a76[J]. \u5149\u6563\u5c04\u5b66\u62a5, 2020, 32(4): 355-360. <\/p>\n\n\n\n

[5] \u65bd\u667a\u96c4, \u6f58\u79d1\u73ae, \u6768\u9038\u74a0, \u6768\u658c(*), \u738b\u5360\u5e73, \u5218\u6d25\u826f. \u5149\u5b66\u4e92\u76f8\u5173\u6d4b\u901f\u7cfb\u7edf\u8bbe\u8ba1\u4e0e\u9a8c\u8bc1[J]. \u5149\u5b66\u4eea\u5668, 2020, 42(2): 75-79.<\/p>\n\n\n\n

[6] Xing Ning, Zhi-bo Xiong(*), Bin Yang, Wei Lu, Shui-mu Wu. The role of nitrate on the sol-gel spread self-combustion process and its effect on the NH3<\/sub>-SCR activity of magnetic iron-based catalyst[J]. Catalysts, 2020, 10: 314.<\/p>\n\n\n\n

[7] \u674e\u6c38\u534e, \u6f58\u79d1\u73ae, \u5e73\u529b, \u6768\u658c, \u4e8e\u6d77\u6d9b(*), \u6c88\u5efa\u742a. \u56fa\u4f53\u63a8\u8fdb\u5242\u71c3\u70e7\u9897\u7c92\u7c92\u5f84\u7684\u5728\u7ebf\u6d4b\u91cf[J]. \u5149\u5b66\u5b66\u62a5, 2020, 40(15): 1512003-1-9.<\/p>\n\n\n\n

[8] \u4e8e\u5929\u6cfd, \u6768\u658c, \u718a\u975e, \u738b\u5609\u534e, \u8521\u5c0f\u8212. \u9910\u996e\u6cb9\u70df\u6392\u653e\u5728\u7ebf\u76d1\u6d4b\u4eea\u5668\u7814\u7a76\u73b0\u72b6\u4e0e\u8fdb\u5c55[J]. \u80fd\u6e90\u7814\u7a76\u4e0e\u4fe1\u606f, 2020, 36(1): 9-15.<\/p>\n\n\n\n

2019\u5e74 4\u7bc7<\/strong><\/p>\n\n\n\n

[1] PING Li, XIE Jianwen, YANG Bin(*), WANG Zhan-ping, CHEN Yun-chi, SU Ming-xu, CAI Xiao-shu. Research on on-line measurements of radiation parameters for high-temperature particles based on radiation spectroscopy[J]. Spectroscopy and Spectral Analysis, 2019, 39(2): 640-645. (SCI: WOS: 000459748800049, EI: 20192006939487)<\/p>\n\n\n\n

[2] \u9093\u6770, \u4e8e\u5929\u6cfd, \u6768\u658c(*), \u8521\u5c0f\u8212. \u8d85\u4f4e\u6392\u653e\u70df\u5c18\u89d2\u6563\u5c04\u6cd5\u6d4b\u91cf\u5f71\u54cd\u56e0\u7d20\u7814\u7a76[J]. \u52a8\u529b\u5de5\u7a0b\u5b66\u62a5, 2019, 39(9): 725-730.<\/p>\n\n\n\n

[3] \u5218\u6d25\u826f, \u4f55\u6e0a, \u674e\u58ee\u626c, \u6768\u658c(*). \u57fa\u4e8e\u53d6\u6837-\u5149\u8109\u52a8\u6cd5\u7684\u7535\u7ad9\u9505\u7089\u7164\u7c89\u7ec6\u5ea6\u5728\u7ebf\u6d4b\u91cf\u65b9\u6cd5\u7814\u7a76[J]. \u70ed\u80fd\u52a8\u529b\u5de5\u7a0b, 2019, 34(11): 42-45+95.<\/p>\n\n\n\n

[4] \u6f58\u79d1\u73ae, \u9648\u6653\u9f99, \u725b\u7984, \u5468\u4f1f\u534e, \u8521\u8fea, \u88f4\u6668\u66e6, \u6768\u658c. \u71c3\u6c14\u622a\u6b62\u9600\u6d41\u901a\u80fd\u529b\u5bf9\u71c3\u6c14\u53d1\u751f\u5668\u5185\u5f39\u9053\u6027\u80fd\u5f71\u54cd\u89c4\u5f8b\u7814\u7a76[J]. \u4e0a\u6d77\u822a\u5929, 2019, 36(S1): 68-72.<\/p>\n\n\n\n

2018\u5e74 7\u7bc7<\/strong><\/p>\n\n\n\n

[1] YANG Bin(*), GUO Hao-ran, GUI Xin-yang, LIU Xin, Wang Zhi-xin, CHEN Xiao-long, LIU Pei-jin. On-line combustion temperature measurements of solid rocket propellant by using radiation spectroscopy[J]. Spectroscopy and Spectral Analysis, 2018, 38(6): 1958-1962. (SCI: WOS: 000435531000053, EI: 20184205947823)<\/p>\n\n\n\n

[2] YANG Bin, GUO Hao-ran, CHEN Xiao-long, PAN Ke-wei, GUI Xin-yang, CAI Xiao-shu, LIU Pei-jin. Research on the influence of spectral response on radiation spectroscopy thermometry[J]. Spectroscopy and Spectral Analysis, 2018, 38(2): 638-642. (SCI: WOS: 000426142100050, EI: 20183405711753)<\/p>\n\n\n\n

[3] \u4e8e\u5929\u6cfd, \u6768\u658c(*), \u738b\u5a77, \u8521\u5c0f\u8212. \u89d2\u6563\u5c04\u4f4e\u6d53\u5ea6\u70df\u5c18\u5728\u7ebf\u6d4b\u91cf\u7cfb\u7edf\u8bbe\u8ba1[J]. \u5149\u5b66\u4eea\u5668, 2018, 40(01): 8-12.<\/p>\n\n\n\n

[4] Aymeric Alliot, \u5f90\u79cb\u4e3d, \u6768\u656c\u8d24, \u90ed\u6d69\u7136, \u6768\u658c(*), \u8521\u5c0f\u8212. \u8f90\u5c04\u5149\u8c31\u6d4b\u6e29\u6cd5\u6d4b\u91cf\u8bef\u5dee\u5b9e\u9a8c\u7814\u7a76[J]. \u5149\u5b66\u4eea\u5668, 2018, 40(3): 8-11.<\/p>\n\n\n\n

[5] Zhi-bo Xiong(*), Xing Ning, Fei Zhou, Bin Yang, Yan-wu Tu, Jing Jin, Wei Lu, Zong-hao Liu. Environmental-friendly magnetic Fe-Ce-W catalyst for selective catalytic reduction of NOx with NH3: influences of critic acid amount on the activity-structure relationship[J]. RSC Advances, 2018, 8: 21915-21925.<\/p>\n\n\n\n

[6] \u6b66\u5f3a, \u8521\u8fea, \u725b\u7984, \u6f58\u79d1\u73ae, \u6768\u658c, \u9648\u6653\u9f99. \u71c3\u6c14\u9600\u54cd\u5e94\u65f6\u95f4\u7684\u5149\u5b66\u6d4b\u91cf\u65b9\u6cd5[J]. \u56fa\u4f53\u706b\u7bad\u6280\u672f, 2018, 41(2): 265-268.<\/p>\n\n\n\n

[7] \u9a6c\u6709\u798f, \u5f6d\u6770\u4f1f, \u5415\u4fca\u590d, \u8881\u76ca\u8d85, \u90ed\u96ea\u5ca9, \u6768\u658c, \u5cb3\u8363. \u6c34\u5e73\u5706\u7ba1\u5185\u6c14\u6db2\u4e24\u76f8\u9006\u5411\u6d41\u52a8\u7279\u6027\u7684\u7ba1\u5f84\u5c3a\u5ea6\u6548\u5e94\u5b9e\u9a8c[J]. \u4e2d\u56fd\u7535\u673a\u5de5\u7a0b\u5b66\u62a5, 2018, 38(19): 5772-5778.<\/p>\n\n\n\n

2017\u5e74 5\u7bc7<\/strong><\/p>\n\n\n\n

[1] Bin Yang, Yanhui Xiang, Xiaoshu Cai(*), Wu Zhou, Hao Liu, Shizhu Li, Wei Gao. Simultaneous measurements of fine and coarse droplets of wet steam in a 330 MW steam turbine by using imaging method[J]. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, 2017, 231(3): 161-172. (SCI: WOS: 000400741100001, EI: 20171903655191)<\/p>\n\n\n\n

[2] \u5e73\u529b, \u6768\u658c(*), \u738b\u5360\u5e73, \u6768\u98de. \u57fa\u4e8e\u5149\u5b66\u4e92\u76f8\u5173\u6d4b\u91cf\u7684\u7535\u7ad9\u9505\u7089\u4e00\u6b21\u98ce\u7c89\u8c03\u5e73\u8bd5\u9a8c\u7814\u7a76[J]. \u70ed\u80fd\u52a8\u529b\u5de5\u7a0b, 2017, 32(7): 87-91.<\/p>\n\n\n\n

[3] \u738b\u5360\u5e73, \u6768\u658c, \u6768\u98de, \u4f55\u6e0a, \u8521\u5c0f\u8212, \u5218\u6d77\u5cf0, \u8c22\u5efa\u6587, \u59dc\u52c7\u4fca. \u7535\u7ad9\u9505\u7089\u76f4\u5439\u5f0f\u5236\u7c89\u7cfb\u7edf\u4e00\u6b21\u98ce\u901f\u6d4b\u91cf\u4e0e\u8c03\u6574[J]. \u9505\u7089\u6280\u672f, 2017, 48(2): 6-10.<\/p>\n\n\n\n

[4] \u5218\u4f69\u8fdb(*), \u738b\u5fd7\u65b0, \u6768\u658c, \u9b4f\u7965\u5e9a. \u7ed3\u5408\u5438\u6536\u5149\u8c31\u4e0e\u4e92\u76f8\u5173\u6cd5\u7684\u71c3\u6c14\u901f\u5ea6\u6d4b\u91cf\u65b9\u6cd5\u7814\u7a76[J]. \u5149\u8c31\u5b66\u4e0e\u5149\u8c31\u5206\u6790, 2017, 37(2): 532-536.<\/p>\n\n\n\n

[5] \u9a6c\u6709\u798f, \u5cb3\u8363, \u90ed\u96ea\u5ca9, \u738b\u6cbb\u4e91, \u6768\u658c. \u6c34\u5e73\u5e03\u7f6e\u6c34\u4e0b\u6392\u6c14\u7ba1\u5012\u6d41\u754c\u9650\u8bd5\u9a8c\u53ca\u5206\u6790[J]. \u5185\u71c3\u673a\u5de5\u7a0b, 2017, 38(2): 101-106.<\/p>\n\n\n\n

2016\u5e74 9\u7bc7<\/strong><\/p>\n\n\n\n

[1] \u6842\u6b23\u626c, Aymeric Alliot, \u6768\u658c(*), \u5468\u9a9b, \u5e73\u529b, \u8521\u5c0f\u8212. \u7164\u7c89\u71c3\u70e7\u706b\u7130\u8f90\u5c04\u5149\u8c31\u5b9e\u9a8c\u7814\u7a76[J]. \u5149\u8c31\u5b66\u4e0e\u5149\u8c31\u5206\u6790, 2016, 36(11): 3492-3496. (SCI: WOS: 000388251100008 , EI: 20164703047490) (Research on radiation spectrum of pulverized coal combustion flame)<\/p>\n\n\n\n

[2] \u6768\u658c, \u4f55\u6e0a, \u5468\u9a9b, \u59dc\u52c7\u4fca, \u8521\u5c0f\u8212. \u6d53\u5ea6\u5bf9\u5149\u8109\u52a8\u6cd5\u6c14\u56fa\u4e24\u76f8\u6d41\u9897\u7c92\u7c92\u5f84\u6d4b\u91cf\u7684\u5f71\u54cd[J]. \u4e2d\u5357\u5927\u5b66\u5b66\u62a5\uff08\u81ea\u7136\u79d1\u5b66\u7248\uff09, 2016, 47(3): 1044-1048. (EI: 20162302465122)<\/p>\n\n\n\n

[3] \u6768\u658c, \u9ec4\u658c, \u6768\u835f\u6960, \u5218\u4f69\u8fdb, \u4f55\u56fd\u5f3a. TDLAS\u706b\u7130\u71c3\u70e7\u6e29\u5ea6\u6d4b\u91cf\u65b9\u6cd5\u6539\u8fdb[J]. \u8ba1\u91cf\u5b66\u62a5, 2016, 37(6): 596-601.<\/p>\n\n\n\n

[4] YANG Bin, WANG Zhanping, HE Yuan, CAI Xiao-shu. Development of light transmission fluctuation for particle measurement in solid-gas two phase flows[J]. Particle and Aerosol Research, 2016, 12(1): 21-26.<\/p>\n\n\n\n

[5] \u59dc\u52c7\u4fca, \u6768\u658c(*), \u4f55\u6e0a, \u5468\u9a9b, \u8521\u5c0f\u8212. \u7ed3\u5408\u706b\u7130\u8f90\u5c04\u4e0e\u4e92\u76f8\u5173\u6cd5\u7684\u71c3\u70e7\u9897\u7c92\u901f\u5ea6\u6d4b\u91cf\u65b9\u6cd5\u7814\u7a76[J]. \u5b9e\u9a8c\u6d41\u4f53\u529b\u5b66, 2016, 30(3): 71-75.<\/p>\n\n\n\n

[6] \u4f55\u6e0a, \u6768\u658c(*), \u59dc\u52c7\u4fca, \u8521\u5c0f\u8212, \u675c\u534e\u80dc. \u6c34\u6ce5\u751f\u6599\u7ec6\u5ea6\u5728\u7ebf\u76d1\u6d4b\u7cfb\u7edf\u7684\u7814\u5236[J]. \u4eea\u8868\u6280\u672f\u4e0e\u4f20\u611f\u5668, 2016(1): 50-52+58.<\/p>\n\n\n\n

[7] Lei Shi, Xiaowei Liu, Guoqiang He, Fei Qin, Xianggeng Wei, Bin Yang, Jie Liu. Numerical analysis of flow features and operation characteristics of a rocket-based combined-cycle inlet in ejector mode[J]. Acta Astronautica, 2016, 127: 182-196.<\/p>\n\n\n\n

[8] \u6768\u8c6a\u9a8f, \u6768\u658c, \u4f55\u6e0a, \u8521\u5c0f\u8212. FPW\u6cd5\u6d4b\u91cf330MW\u5faa\u73af\u6d41\u5316\u5e8a\u9505\u7089\u706b\u7130\u6e29\u5ea6\u53ca\u8f90\u5c04\u7387[J]. \u52a8\u529b\u5de5\u7a0b\u5b66\u62a5. 2016, 36(02): 123-129.<\/p>\n\n\n\n

[9] \u6768\u8c6a\u9a8f, \u6768\u658c, \u6842\u6b23\u626c, \u8521\u5c0f\u8212. \u5cf0\u503c\u6ce2\u957f\u6cd5\u5feb\u901f\u68c0\u6d4b\u7164\u7c89\u7089\u706b\u7130\u6e29\u5ea6\u7684\u7814\u7a76[J]. \u52a8\u529b\u5de5\u7a0b\u5b66\u62a5. 2016, 36(01): 36-41.<\/p>\n\n\n\n

2015\u5e74 14\u7bc7<\/strong><\/p>\n\n\n\n

[1] Wu Zhou, Jiarui Hu, Mingliang Feng, Bin Yang(*), Xiaoshu Cai. Study on imaging method for measuring droplet size in large sprays[J]. Particuology, 2015, 22(10): 100-106. (SCI: WOS: 000360597600013, EI: 20151100638832)<\/p>\n\n\n\n

[2] \u6768\u658c, \u6842\u6b23\u626c, \u5468\u9a9b, \u59dc\u52c7\u4fca, \u79e6\u98de, \u8521\u5c0f\u8212, \u4f55\u56fd\u5f3a. \u5229\u7528\u8f90\u5c04\u5149\u8c31\u6cd5\u5f00\u5c55\u53d1\u52a8\u673a\u71c3\u70e7\u706b\u7130\u53c2\u6570\u5728\u7ebf\u6d4b\u91cf[J]. \u822a\u7a7a\u52a8\u529b\u5b66\u62a5, 2015, 30(12): 2904-2909. (EI: 20160201786589)<\/p>\n\n\n\n

[3] \u6768\u658c, \u6f58\u79d1\u73ae, \u9ec4\u658c, \u5218\u4f69\u8fdb, \u4f55\u56fd\u5f3a. \u5229\u7528TDLAS\u6280\u672f\u5f00\u5c55\u78b3\u6c22\u71c3\u6599\u9ad8\u901f\u71c3\u6c14\u53c2\u6570\u6d4b\u91cf[J]. \u63a8\u8fdb\u6280\u672f, 2015, 36(8): 1236-1241. (EI: 20153801281535)<\/p>\n\n\n\n

[4] \u6768\u658c, \u9ec4\u658c, \u5218\u4f69\u8fdb, \u6768\u835f\u6960, \u4f55\u56fd\u5f3a. \u5229\u7528TDLAS\u6280\u672f\u8bc4\u4f30\u706b\u7bad\u57fa\u7ec4\u5408\u5faa\u73af\u53d1\u52a8\u673a\u8bd5\u9a8c\u6027\u80fd[J]. \u5b87\u822a\u5b66\u62a5, 2015, 36(7): 885-893. (EI: 20155001677103)<\/p>\n\n\n\n

[5] \u6768\u835f\u6960, \u90ed\u6653\u9f99, \u6768\u658c(*), \u82cf\u660e\u65ed, \u8521\u5c0f\u8212. \u6fc0\u5149\u5149\u8c31\u6cd5\u540c\u6b65\u6d4b\u91cf\u5c3f\u7d20\u6c34\u6eb6\u6db2\u6db2\u819c\u539a\u5ea6\u4e0e\u6d53\u5ea6[J]. \u5316\u5de5\u5b66\u62a5, 2015, 66(2): 759-763. (EI: 20151100647029)<\/p>\n\n\n\n

[6] \u6768\u658c, \u9f50\u5b97\u6ee1, \u6768\u835f\u6960, \u9ec4\u658c, \u5218\u4f69\u8fdb. \u57fa\u4e8eTDLAS\u7684\u71c3\u70e7\u6d41\u573a\u901f\u5ea6\u6d4b\u91cf\u65b9\u6cd5[J]. \u71c3\u70e7\u79d1\u5b66\u4e0e\u6280\u672f, 2015, 21(6): 516-520.<\/p>\n\n\n\n

[7] \u6768\u658c, \u6f58\u79d1\u73ae, \u6768\u835f\u6960, \u9ec4\u658c, \u5218\u4f69\u8fdb. \u6ce2\u957f\u626b\u63cf\u76f4\u63a5\u5438\u6536\u5149\u8c31\u6cd5\u71c3\u70e7\u8bca\u65ad\u6280\u672f\u9002\u7528\u60c5\u51b5\u8ba8\u8bba[J]. \u4e0a\u6d77\u7406\u5de5\u5927\u5b66\u5b66\u62a5, 2015, 37(5): 445-449.<\/p>\n\n\n\n

[8] \u6768\u658c, \u9879\u5ef6\u8f89, \u5218\u6d69, \u5468\u9a9b, \u8521\u5c0f\u8212, \u6881\u5fd7\u5b8f. \u6c7d\u8f6e\u673a\u6e7f\u84b8\u6c7d\u7279\u6b8a\u5f62\u6001\u4e8c\u6b21\u6c34\u6ef4\u63a2\u8ba8[J]. \u70ed\u529b\u900f\u5e73, 2015, 44(4): 249-252.<\/p>\n\n\n\n

[9] \u9ad8\u9633, \u6768\u658c(*), \u4f55\u6e0a, \u7fdf\u91d1\u661f, \u5415\u96ea\u971e, \u9ad8\u95ef, \u674e\u6615\u660e, \u5f20\u8d85, \u845b\u4e3d\u6e05. \u7535\u5382\u7164\u7c89\u7ec6\u5ea6\u5728\u7ebf\u76d1\u6d4b\u7cfb\u7edf\u7814\u5236\u4e0e\u5e94\u7528[J]. \u4e2d\u56fd\u7c89\u4f53\u6280\u672f, 2015, 21(2): 28-31.<\/p>\n\n\n\n

[10] H-N. Yang, B. Yang, X-S. Cai, C. Hecht, T. Dreier, C. Schulz. Three-Dimensional (3-D) temperature measurement in a low pressure flame reactor using multiplexed tunable diode laser absorption spectroscopy (TDLAS)[J]. Lasers in Engineering, 2015, 31, 285-297.<\/p>\n\n\n\n

[12] \u5218\u5bb6\u6c5b, \u6768\u658c, \u8521\u5c0f\u8212. \u8f90\u5c04\u5149\u8c31\u6cd5\u7535\u7ad9\u9505\u7089\u71c3\u70e7\u68c0\u6d4b\u8bca\u65ad\u7814\u7a76[J]. \u5de5\u7a0b\u70ed\u7269\u7406\u5b66\u62a5. 2015, 36(09): 2055-2059.<\/p>\n\n\n\n

[13] \u5468\u661f\u9f99, \u5b59\u5e73, \u8c22\u5efa\u6587, \u6768\u658c, \u9ad8\u80dc\u658c. \u5927\u578b\u5faa\u73af\u6d41\u5316\u5e8a\u9505\u7089\u7089\u819b\u9897\u7c92\u901f\u5ea6\u7684\u5149\u5b66\u6d4b\u91cf[J]. \u4e2d\u56fd\u7535\u529b. 2015, 48(12): 59-63.<\/p>\n\n\n\n

[14] \u80e1\u660c\u9541, \u4f55\u6e0a, \u6768\u658c, \u8521\u5c0f\u8212. \u7535\u7ad9\u9505\u7089\u7164\u7c89\u53c2\u6570\u8fdc\u7a0b\u76d1\u63a7\u7cfb\u7edf\u7684\u8f6f\u4ef6\u8bbe\u8ba1\u4e0e\u5b9e\u73b0[J]. \u80fd\u6e90\u7814\u7a76\u4e0e\u4fe1\u606f. 2015, 31(02): 88-91.<\/p>\n\n\n\n

2014\u5e74 1\u7bc7<\/strong><\/p>\n\n\n\n

[1] \u8521\u5c0f\u8212, \u5468\u9a9b, \u6768\u835f\u6960, \u6768\u658c, \u9648\u519b, \u82cf\u660e\u65ed, \u674e\u4fca\u5cf0. \u71c3\u70e7\u4e0e\u6d41\u573a\u5728\u7ebf\u6d4b\u91cf\u8bca\u65ad\u65b9\u6cd5\u7814\u7a76\u8fdb\u5c55[J]. \u5b9e\u9a8c\u6d41\u4f53\u529b\u5b66. 2014, 28(01): 12-20.<\/p>\n\n\n\n

2013\u5e74\u53ca\u4ee5\u524d 5\u7bc7<\/strong><\/p>\n\n\n\n

@\u897f\u5317\u5de5\u4e1a\u5927\u5b66 \u71c3\u70e7\u3001\u70ed\u7ed3\u6784\u4e0e\u5185\u6d41\u573a\u56fd\u9632\u79d1\u6280\u91cd\u70b9\u5b9e\u9a8c\u5ba4<\/p>\n\n\n\n

[1] \u6768\u658c, \u4f55\u56fd\u5f3a, \u5218\u4f69\u8fdb, \u9f50\u5b97\u6ee1, \u6f58\u79d1\u73ae. \u5229\u7528TDLAS\u6280\u672f\u5f00\u5c55\u5438\u6c14\u5f0f\u53d1\u52a8\u673a\u6765\u6d41\u70ed\u8bd5\u5b9e\u9a8c\u53c2\u6570\u6d4b\u91cf[J]. \u4e2d\u56fd\u6fc0\u5149, 2011, 38(5): 0508006-1-6. (EI: 20112414058055)<\/p>\n\n\n\n

[2] \u6768\u658c, \u4f55\u56fd\u5f3a, \u5218\u4f69\u8fdb, \u9f50\u5b97\u6ee1. \u53ef\u8c03\u8c10LD\u5438\u6536\u5149\u8c31\u71c3\u70e7\u8bca\u65ad\u6280\u672f\u7814\u7a76\u8fdb\u5c55[J]. \u6fc0\u5149\u6280\u672f, 2011, 35(4): 503-510.<\/p>\n\n\n\n

[3] \u6768\u658c, \u4f55\u56fd\u5f3a, \u5218\u4f69\u8fdb, \u9f50\u5b97\u6ee1. \u7528\u4e8e\u71c3\u6c14\u6e29\u5ea6\u6d4b\u91cf\u7684\u5355\u6fc0\u5149\u5668\u5438\u6536\u5149\u8c31\u7cfb\u7edf\u8bbe\u8ba1[J]. \u4f20\u611f\u6280\u672f\u5b66\u62a5, 2011, 24(5): 647-652.<\/p>\n\n\n\n

[4] \u6f58\u79d1\u73ae, \u4f55\u56fd\u5f3a, \u5218\u4f69\u8fdb, \u6768\u658c. RBCC\u6df7\u5408\u71c3\u70e7\u6a21\u6001\u4e00\u6b21\u706b\u7bad\u5bf9\u71c3\u70e7\u7a33\u5b9a\u5f71\u54cd[J]. \u63a8\u8fdb\u6280\u672f. 2010, 31(05): 544-548.<\/p>\n\n\n\n

[5] \u6f58\u79d1\u73ae, \u4f55\u56fd\u5f3a, \u5218\u4f69\u8fdb, \u79e6\u98de, \u6768\u658c. RBCC\u53d1\u52a8\u673a\u71c3\u6599\u55b7\u6ce8\u4f4d\u7f6e\u53d8\u5316\u5bf9\u6df7\u5408\u71c3\u70e7\u6a21\u5f0f\u71c3\u70e7\u7684\u5f71\u54cd[J]. \u822a\u7a7a\u52a8\u529b\u5b66\u62a5. 2011, 26(08): 1900-1906.<\/p>\n","protected":false},"excerpt":{"rendered":"

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\u5b66\u672f\u671f\u520a\u53d1\u8868\u7684\u8bba\u6587<\/h3>\n<\/div>\n
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