簡介
| 姓 名:牛培峰 (男) | 民 族:漢族 | |
| 出生年月:1963.9 | 政治面貌:九三學社社員 | |
| 所屬單位:自動化系 | 現有職稱:教授 | |
| 最高學歷:博士 | 導師身份:博士生導師 | |
| 畢業院校:東北大學/美國加州大學 | 畢業時間:1997.9 |
1、 本科生教學
(1) 熱工自動控制系統;
(2) 模糊控制;
(3) 過程控制系統;
(4) 控制系統仿真;
(5) 電力電子變流技術;
2、 碩士研究生教學
(1) 模糊控制理論;
(2) 自適應控制理論;
(3) 計算機控制理論與設計;
(4) 熱工測量與控制。
3、 博士研究生教學
(1) 先進過程控制;
(2) 數據驅動理論。
一、招生學科專業
1、控制理論與控制工程;
2、模式識別與智慧型系統;
3、系統工程;
4、熱工綜合自動化;
5、冶金綜合自動化;
6、導航、制導與控制。
二、招生人數
1、每年招收碩士研究生:5-7人;
2、每年招收博士研究生:2-3人。
三、研究方向
1、複雜工業系統的建模與控制;
2、流程工業綜合自動化;
3、熱工自動化;
4、冶金自動化;
5、系統工程理論與套用;
6、動態系統建模、控制、故障診斷與故障預測;
7、數據驅動理論與技術及其套用;
8、控制系統的故障診斷與容錯控制;
9、計算機智慧型控制系統;
10、模式識別與圖像處理及套用;
11、電力電子裝置與系統。
東北電力大學動力系工業自動化專業,獲學士學位;
青海省電力科學研究院自控部,工程師;
東北電力大學自動化系,副教授;
東北大學信息科學與工程學院/美國加州大學電子與信息工程學院,博士研究生,獲博士學位;
中國海洋大學工程學院自動化系,教授;
燕山大學電氣工程學院自動化系,教授,博士生導師。
1、中國電機工程學會會員,理事;
2、中國自動化學會會員,理事;
3、中國自動化系統註冊工程師。
科研成果及論文
學科及研究方向學科:
控制科學與工程
研究方向:
1、複雜工業系統的建模與控制;
2、流程工業綜合自動化;
3、熱工自動化;
4、冶金自動化;
5、系統工程理論與套用;
6、動態系統建模、控制、故障診斷與故障預測;
7、數據驅動理論與技術及其套用;
8、控制系統的故障診斷與容錯控制;
9、計算機智慧型控制系統;
10、模式識別與圖像處理及套用;
11、電力電子裝置與系統。
一、在研項目
1、大規模複雜環境條件下複雜工業過程的建模與控制技術研究(子課題:數據驅動建模),國家高技術研究計畫(863),2010.1-2014.12;
2、國產大型循環流化床鍋爐機組綜合自動化系統研究,國家“十二.五”攻關項目,2011.1-2015.12;
3、基於多感測器信息融合的循環流化床鍋爐燃燒過程聚類控制研究,河北省自然科學基金,2010.1-2012.12;
4、大型燃煤鍋爐燃燒過程最佳化控制研究,中國華能發電集團公司,2011.1-2015.12;
二、已完成項目
1、火電廠220t/h鍋爐汽包給水過程微機控制系統,1986年,經費20萬元;
2、火電廠220t/h鍋爐主汽溫微機控制系統,1986年,經費25萬元;
3、火電廠220t/h鍋爐熱負荷微機控制系統,1986年,經費28萬元;
4、火電廠220t/h鍋爐燃燒過程微機控制系統,1987年,經費30萬元;
5、火電廠410t/h鍋爐三衝量變頻調速給水過程控制系統,1988年,經費35萬元;
6、火電廠410t/h鍋爐汽溫自適應控制系統,1988年,經費40萬元;
7、火電廠410t/h鍋爐燃燒過程自適應控制系統,1989年,經費50萬元;
8、火電廠200MW鍋爐機組綜合自動化系統(DCS),1990年,經費400萬元;
9、火電廠200MW單元機組汽壓自適應控制系統,1991年,經費80萬元;
10、火電廠200MW單元機組汽溫自適應控制系統,1992年,經費85萬元;
11、火電廠300MW鍋爐機組綜合自動化系統(DCS),1993年,經費680萬元;
12、國產35t/h循環流化床鍋爐機組綜合自動化系統(5套),1994--1995年,經費450萬元;
13、國產75t/h循環流化床鍋爐機組綜合自動化系統(3套),國家“八.五”攻關項目,1996--1997年,經費300萬;
14、國產130t/h循環流化床鍋爐機組綜合自動化系統(DCS),1998年,經費200萬元;
15、配電自動化終端裝置(FTU)研製,1998年,經費30萬元;
16、集中供熱小區(6台)鍋爐群控自動化系統(DCS),1999年,經費300萬元;
17、集中供熱小區(3台)鍋爐群控自動化系統(DCS),2000年,經費180萬元;
18、國產130t/h循環流化床鍋爐機組綜合自動化系統(3套,DCS),2001--2002年,經費560萬元;
19、國產75t/h循環流化床鍋爐機組綜合自動化系統(DCS),2002年,經費150萬元;
20、變電站新型靜止無功功率發生器(ASVG)研製,省級“十.五”攻關項目,2002--2005年,經費65萬元;
21、熱網智慧型控制機的研製,2006―2008年,經費26萬元;
22、鍋爐爐膛火焰三維溫度場測量及可視化系統,2009--2010年,經費30萬元;
23、循環流化床鍋爐燃燒過程聚類融合控制研究,國家自然科學基金項目,2008--2010年,經費29萬元。
三、Main Projects(Selected)
・ Clustering fusion control research for circulating fluidized bed boiler combustion process, National Natural Science Foundation of China,2008―2010.
・ Basic theory and key technique research on flow industry integrated process control, National Natural Science Foundation of China,2006-2009,Member.
・ The theory and application of complex industry process control and real-time scheduling, Key Project, National Natural Science Foundation of China, 2006-2008,Member.
・ Save-energy technique in electric automation systems, China “863” Program, 2006-2008,Member.
・ The research and application of new nonlinear control algorithm for complex system, China Educational Commission Excellent Teacher Foundation, 1999-2001.
・ Fuzzy-neural inferential control, China Educational Commission, 1996-1997.
・ Fuzzy self-tuning control method with two kind of uncertainty, National Natural Science Foundation of China,1995-1997.
・ The 410t/h boiler combustion process adaptive control system of Qinghai Power Plants, Electric Industry Ministry of China, 1992-1993.
・ The 200Mw boiler unit integrated automation system of Tongliao Power Plants, Electric Industry Ministry of China, 1993-1994.
・ The 300Mw boiler unit integrated automation system of Tongliao Power Plants, Electric Industry Ministry of China, 1994-1995.
・ The 75t/h circulating fluidized bed boiler unit integrated automation system of Shengzhou Power Plants, Electric Industry Ministry of China, 1995-1996.
・ The 130 t/h circulating fluidized bed boiler unit integrated automation system of Shengzhou Power Plants, Electric Industry Ministry of China, 1996-1997.
・ The 410t/h circulating fluidized bed boiler unit integrated automation system of Tianjin Power Plants, Electric Industry Ministry of China, 1997-1998.
・ Computer management information system of Qinghe Power Plants, Electric Industry Ministry of China, 1994-1995.
Publications (Selected)
[1] P. F. niu, K. Hua, and X.. P. Zhang, “Measurement and control system for Unburned Carbon in Fly Ash Based on Information Fusion Techniques”, Chinese Journal of Scientific Instrument, Vol.30, No.6, pp.1207-1210, 2009.
[2] P. F. Niu, L.Wang, and J. H. Ma, etc.,“Application and Research of Clustering Fusion Control for Power Plant Thermodynamic Process”, Chinese Journal of Scientific Instrument, Vol.30, No.1, pp.96-102, 2009.
[3] P. F. Niu, J. Zhang, and X. P. Guan,“Research on Genetic algorithm optimization based proportional-integra1-derivative with Two Degrees of Freedom controller for chaotic system”,Acta Physica Sinica, Vol.56, No.7, pp.3759-3765, 2007.
[4] P. F. Niu, J. Zhang and X. P. Guan, “Research on a proportional-integral-derivative neural network decoupling control based on Genetic algorithm optimization for unified chaotic system”, Acta Physica Sinica, Vol.56, No.5, pp.2493-2497, 2007.
[5] P. F. Niu, J. Zhang, “ Research on Clustering Fusion Control for Circulating Fluidized Bed Boilers Combustion System”, Proceedings of the CSEE,Vol.27, No.11, pp.33-39,2007.
[6] P. F. Niu, J. Zhang and G. Zou, “Study on Application of Wavelet Transform Technique to Turbine Generator Fault Diagnosis”,Chinese Journal of Scientific Instrument, Vol.28, No.1, pp.189-192, 2007.
[7] P. F. Niu, X.S .Ding and J. Zhang, “Research Evolution and Development Trend of Circulating Fluidized Ded Boiler Control Technology for Power Plant”, Chinese Journal of Scientific Instrument, Vol.28, No.12, pp.2295-2304, 2007.
[8] P. F. Niu, Y. Lin and J. Zhang, “Study on Adaptive Control for High-order Inertia System” ,Chinese Journal of Scientific Instrument, Vol.28, No.7, pp.1290-1294, 2007.
[9] P. F. Niu, Y. F.Yu and J. Zhang, “A Steam Pressure Adaptive Control System for Circulating Fluidized Bed Boilers”,Journal of Power Engineering, Vol.27, No.4, pp.533-536, 2007.
[10] P. F. Niu, “A Steam Temperature Self-Adaptive Decoupling Control System for Boilers with Surface Type Attemperators”, Journal of Power Engineering, Vol.27, No.5, pp.725-727, 741,2007.
[11] J. Zhang, P. F. Niu, “Load Modeling of Thermal Power Unit with Wavelet Neural Networks”, Journal of Power Engineering, Vol.26, No.6, pp.836-840,2006.
[12] P. F. Niu, J. Zhang and X. P. Guan, “Research on Clustering Fusion Control System Applied to Circulating Fluidized Bed Boilers Combustion Process of Giant Domestic Manufacture”, 6th WCICA,China Dalian: IEEE Press,2006.
[13] J. Zhang , P. F. Niu, and X. P. Guan, “Study on Load Modeling of Thermal Power Unit Based on Wavelet Neural Networks”, 6th WCICA,China Dalian: IEEE Press,2006.
[14] P. F. Niu, L. Q. Zhou and G. S. Li, etc., “A Steam-Temperature Adaptive Series-Step Control System for Circulating Fluidized Bed Boilers of Giant Domestic Manufacture”,Journal of Power Engineering, Vol.24, No.2, pp.204-207,2004.
[15] P. F. Niu,T. Y. Zhu and G. S. Li, etc., “An Adaptive Double Links Selecting Control System for Ciroulating Fluidized Bed Combustion Process”,Journal of Ocean University of Qingdao, Vol.33, No.3, pp.462-468, 2003.
[16] P. F. Niu, “An Intelligence Combustion Process Control System Application and Research for Circulating Fluidized Bed Boilers of Glant Domestic Manufacture”, Proceedings of the CSEE,Vol.20, No.12, pp.62-66,71,2000.
[17] P. F. Niu, D. S. Chu, “The Intelligence Control for the Steam Drum Water-Supply Process of the Boiler with Lash Load”, Journal of Power Engineering, Vol.20, No.6, pp.964-968,963,2000.
[18] P. F. Niu, “Steam Temperature Adaptive Decoupling Control System for Cfbb”,Acta Automatica Sinica, Vol.25, No.1, pp.127-132,1999.
[19] P. F. Niu, “Self-Tuning Intelligent Controller and Its Application”, Acta Automatica Sinica, Vol.22, No.2, pp.214-218,1996.
[20] P. F. Niu, J. Sun and T. Y. Chai, “The Steam Pressure Self-Adaptive Control System of A Monoblock with Home-Made 75t/h Cfbb”,Control Theory and Applications, Vol.15, No.1, pp.82-86,1998.
[21] P. F. Niu, “minicomputer Control System for Fluidized Bed Combustion Boiler of Thermal Power Plant”, Control Theory and Applications, Vol.12, No.6, pp.733-740,1995.
[22] P. F. Niu, J. Sun and T. Y. Chai, “Themodynamic Automatic Control System for CFBC Boiler and Looking Ahead”, Journal of Power Engineering, Vol.18, No.6, pp.39-46,1998.
[23] L. Q. Zhou, A. L. Ge and P. F. Niu, “A Method of Rotor Speed Measurement and Phase Information acquirement”,Journal of Vibration,Measurement & Diagnosis, Vol.24, No.4, pp.303-305,2004.
[24] Chunxia Dou, Xingzhong Zhang, Jiquan Sun, Xinping Guan, Zhiqian Bo, Pei-feng Niu. Delay-dependent control for large-scale systems based on a new decentralized dynamic fuzzy control architecture. International Journal of Innovative Computing Information and Control. 2011,7(6):158-169.
[25] Chun-Xia Dou, Zhi-sheng Duan, Xing-Bei Jia and Pei-feng Niu. Study of Delay-independent decentralized guaranteed cost control for large scale systems, International Journal of Control, Automation, and Systems. 2011,9(3):269-283.
[26] Peifeng Niu,Jun Zhang. Design research of an clustering fusion controller and its application in steel mill. Journal of Advances in Information Technology,2011,6(1):68-74.
[27] Peifeng Niu, Jun Zhang. Clustering fusion control and modeling for steelworks rolling process. Journal of Advances in Information Technology,2010,5(2):30-37.
[28] Peifeng Niu, Jun Zhang. Research on Clustering fusion control system applied to steel rolling process of Giant Domestic Manufacture. J. Iron &. Steel Res.,Int,2008,15(1)23-28.
[29] Peifeng Niu, Jun Zhang. Analysis and design of clustering fusion control systems for steel rolling process. IEEE Transactions on Fuzzy Systems, 2007,45(6):1341-1350.
[30] Peifeng Niu, Jun Zhang. Clustering fusion control controllers and fuzzy controllers. Int.J. of Intelligent Control & Systems,2007,33(2):1125-1133.
1、《過程控制系統》,北京:電子工業出版社,2011年;
2、《熱工過程自動控制》,北京:水利水電工業出版社,2000年。
