司風琪,男,1973年2月生,江蘇鹽都人,工學博士、教授、博士生導師。現任東南大學能源與環境學院黨委委員、副院長、學術委員會副主任委員。分管對外合作工作,協管校友工作;聯系動力工程及自動化系。長期從事智慧電廠及電力大數據、大型火電機組運行特性、熱工自動控制、優化及故障診斷等方面的教學研究工作。發表論文200余篇,授權發明專利20余件。同時也擔任中國動力工程學會理事、自動控制專委會副主任委員、江蘇省工程熱物理學會理事、江蘇省能源研究會理事等職務。
人物經歷
2007.10—2008.10,美國Lehigh大學訪問學者。
2014.09—2014.12,加拿大Alberta大學訪問學者。
2019年6月8日,東南大學決定:司風琪同志任能源與環境學院副院長(兼);任職時間從2019年5月27日起算。
2020年9月,中共東南大學委員會決定:免去司風琪同志能源與環境學院黨委副書記、黨校副校長(兼)職務;免職時間從2020年9月9日起算。
2020年9月,東南大學決定:免去司風琪同志能源與環境學院副院長(兼)職務;免職時間從2020年9月9日起算。
2020年10月25日,東南大學能源與環境學院召開黨委換屆大會,選舉產生了司風琪同志為新一屆黨委委員。
2022年7月,東南大學決定:司風琪同志任能源與環境學院副院長,任職時間從2022年6月17日起算。
主要成果
科學研究
司風琪長期投身于智慧電廠及電力大數據、大型火電機組運行特性、熱工自動控制、優化及故障診斷等領域的教學研究工作。
論文專利
司風琪發表了200余篇論文,授權發明專利達20余件。
主要作品
論文
[1]Peng Wang, Fengqi Si, Yue Cao, Zhuang Shao, Shaojun Ren. Prediction of superheated steam 溫度 for thermal 功率 plants using a novel integrated method based on the hybrid model and attention mechanism[J]. Applied Thermal Engineering,2022,203:117899. (SCI收錄號:000742709100005)
[2]Wei Jin, Fengqi Si,Yue Cao, Huan Ma, Ya ou Wang. Numerical optimization of separated overfire air distribution for air staged combustion in a 1000 MW coal-fired boiler considering the corrosion hazard to H?O walls[J]. Fuel, 2022, 309:122022. (SCI收錄號:000706524200007)
[3]Haiquan Yu, Jianxin Zhou, Fengqi Si, Lars O. Nord. Combined heat and 功率 dynamic economic dispatch considering field operational characteristics of natural gas combined cycle plants[J]. 能量, 2022, 244:122567.
[4]Yue Cao, Peiyu Li, Zongliang Qiao, Shaojun Ren, Fengqi Si. A concept of a supercritical CO2 Brayton and organic Rankine combined cycle for solar energy utilization with typical geothermal as auxiliary heat source: Thermodynamic analysis and optimization[J]. 能量 Reports, 2022, 8:322-333.
[5]Wei Fan, Qinqin Zhu, Shaojun Ren, Liang Zhang, Fengqi 硅 Robust probabilistic predictable feature analysis and its application for dynamic process monitoring[J]. Journal of Process Control, 2022, 112:21-35.
[6]Cao Y , Zhan J, Zhou JX, Si FQ. Design Optimization of Plate-Fin Heat Exchanger in a Gas Turbine and Supercritical 碳 Di氧化物 Combined Cycle with Thermal Oil Loop[J]. Applied Sciences-Basel, 2022, 12(1). (SCI收錄號:000752543100001)
[7]Fan W, Zhu QQ, Ren SJ, Zhang L, Si FQ. Dynamic Probabilistic Predictable Feature Analysis for Multivariate Temporal Process Monitoring[J]. IEEE Transactions on Control Systems Technology, 2022, 112:21-35. (SCI收錄號:000773270800001)
[8]Dong YS, Cao Y, Si FQ, Wang P, Zhou JX. Co-simulating fouling, erosion of gas-particle flow and morphologies predictions around circular tube via parallel CFD DEM modeling[J].Fuel, 2021,294:120464. (SCI收錄號:000640910700005)
[9]Ma H,Cai L, Si FQ, Wang JS. Exploratory research on annular-arranged moist media to improve cooling capacity of natural draft dry cooling tower and thermo-flow characteristics of its radiators[J]. International Journal of Heat and 質量 Transfer, 2021, 172:121123. (SCI收錄號:000641142400015)
[10]Jin W, Geng CM, Wang YO, Ma H, Dong YS, Si FQ. Combined effects of yaw and tilt angles of separated overfire air on the combustion characteristics in a 1,000 MW coal-fired boiler: A numerical study[J]. Korean Journal of Chemical Engineering, 2021, 38(4):771-787. (SCI收錄號:000637505700010)
[11]Gu H, Cui XB, Zhu HX, Si FQ, Kong Y. Multi-objective optimization analysis on gas-steam combined cycle system with exergy theory[J]. Journal of Cleaner Production, 2021, 278: 123939. (SCI收錄號:000592390300008)
[12]Dong YS, Si FQ, Cao Y, Jin W, Ren SJ. A new mechanistic model for abrasive erosion using discrete element method[J]. Powder Technology, 2021, 380:486-496. (SCI收錄號:000609422300004)
[13]Wang P, Si FQ, Fan W, Shao Z, Ren SJ. 數據 Enhancement for Data-Driven Modeling in 功率 Plants Based on a Conditional Variational- Adversarial Generative Network[J]. Industrial & Engineering 化學 Research, 2021, 60(24): 8829-8843. (SCI收錄號:000667984100022)
[14]壯語 Shao,Fengqi Si, Huaijiang Wu, XiaozhongTong. An agile and intelligent dynamic economic emission dispatcher based on multi-objective proximal policy optimization[J]. Applied Soft Computing, 2020, 102:107047.
[15]Yu HQ, Nord LO, Yu C, Zhou JX, Si FQ. An improved combined heat and 功率 economic dispatch model for natural gas combined cycle power plants[J]. Applied Thermal Engineering, 2020, 181:115939. (SCI收錄號:000592635100049)
[16]Shao Z, Si FQ, Kudenko D, Wang P, Tong XZ. Predictive scheduling of wet flue gas desulfurization system based on reinforcement learning[J]. 計算機s & Chemical Engineering, 2020, 141:107000. (SCI收錄號:000571095800012)
[17]Dong YS, Si FQ, Jin W, Cao Y, Ren Super Junior A new soft-particle DEM model of micro-particle impact integrated adhesive, elastoplastic and microslip behaviors[J]. Advanced Powder Technology, 2020, 31:3960-3973. (SCI收錄號:000579717400026)
[18]Ma H, Si FQ, Wang JS. Study on the effects of apex angle of the delta-type radiator on thermo-flow 表演 of natural draft dry cooling tower[J]. International Journal of Heat and 質量 Transfer, 2020, 148:119002. (SCI收錄號:000509626100052)
[19]Ma H, Si FQ, Wang JS. Internal flow reconstruction strategies to improve both thermo-flow 表演 and flue gas diffusion characteristic of the integrated dry-cooling tower and stack system[J]. Applied Thermal Engineering, 2020, 166(5):114675. (SCI收錄號:000512220900065)
[20]Tang YF, Qiao ZL, Cao Y, Si FQ, Romero CE, Rubio-Maya C. Numerical analysis of separation 表演 of an axial-flow cyclone for supercritical CO2-H?O separation in CO2 plume geothermal systems[J]. Separation and Purification Technology, 2020, 248:116999. (SCI收錄號:000538827600021)
[21]Qiao ZL, Cao Y, Yin YM, Zhao LL, Si FQ. Solvation structure of supercritical CO2 and brine 混合物 for CO2 plume geothermal applications: A molecular 動力學 study[J]. Journal of Supercritical Fluids, 2020, 159:104783. (SCI收錄號:000521516100004)
[22]Qiao ZL, Cao Y, Tang YF, Si FQ. Numerical analysis of membrane-absorption separation for supercritical 碳 dioxide and H?O 混合物 of plume geothermal 功率 generation systems[J]. 能量 Conversion and Management, 2020, 208-112609. (SCI收錄號:000524305200024)
[23]Fan W, Si FQ, Ren SJ, Yu C, Cui YF,Wang P. Integration of continuous restricted Boltzmann machine and SVR in NOx emissions prediction of a tangential firing boiler[J]. 化學計量學 and Intelligent Laboratory Systems, 2019, 195:103870. (SCI收錄號:000503086400002)
[24]Ma H, Si F, Zhu K, Wang J. Quantitative research of spray cooling effects on thermo-flow 表演 of the large-scale dry cooling tower with an integrated numerical model[J]. International Journal of Heat and 質量 Transfer, 2019,141: 799-817. (SCI收錄號:000480665000068)
[25]Qiao Z, Tang Y, et al. 設計 and 表演 analysis of a supercritical CO2 (sCO2)-H?O separator for 功率 generation systems using hot sCO2 from geothermal reservoirs[J]. Geothermics, 2019, 81:123-132. (SCI收錄號:000472689800010)
[26]Qiao Z, Wang X, Gu H, Tang Y, Si F, et al. An investigation on data mining and operating optimization for wet flue gas desulfurization systems[J]. Fuel, 2019.
[27]Qiao Z, Tang Y, et al. 表演 analysis and optimization 設計 of an axial-flow vane separator for supercritical CO2 (sCO2)-H?O mixtures from geothermal reservoirs[J]. International Journal of 能量 Research, 2019, 43(6): 2327-2342.(SCI收錄號:000465092800024)
[28]Ma H, Si F, Zhu K, et al. Utilization of partial through-flow tower shell to cope with the excess cooling capacity of dry cooling tower in extremely cold days with crosswind[J]. International Journal of Thermal Sciences, 2019, 136:70-85. (SCI收錄號:000467003100008)
[29]Yu H, Zhou J, Ma H, et al. 表演 analysis and optimization of a NGCC-CHP plant with low 壓強 economizer partial recirculation system[J]. 能量 Conversion and Management, 2019, 180: 524-532. (SCI收錄號:000457666700040)
[30]Zhou J, Ma H, Si F, et al. To broaden safe operation range of the indirect dry cooling system with internal annular windbreak cloth in extremely cold days[J]. Applied Thermal Engineering, 2019, 152:420-429. (SCI收錄號:000465058700038)
[31]Yu C, Xiong W, Ma H, Zhou J, Si F, et al. Numerical investigation of combustion optimization in a tangential firing boiler considering steam tube overheating[J]. Applied Thermal Engineering, 2019, 154:87-101. (SCI收錄號:000469892000009)
[32]Ma H, Si F, Zhu K, et al. The adoption of windbreak wall partially rotating to improve thermo-flow 表演 of natural draft dry cooling tower under crosswind[J]. International Journal of Thermal Sciences, 2018, 134: 66-88. (SCI收錄號:000447572700006)
[33]Dong Y, Qiao Z, Si F, et al. A Novel Method for the Prediction of Erosion Evolution Process Based on Dynamic Mesh and Its Applications[J]. Catalysts, 2018, 8(10):432. (SCI收錄號:000448543300028)
[34]Gu H, Zhu H, Cui Y, et al. Optimized scheme in coal-fired boiler combustion based on information entropy and modified K-prototypes algorithm[J]. Results in Physics, 2018, 9: 1262-1274. (SCI收錄號:000435611100168)
[35]Gu H, Cui Y, Zhu H, et al. A new approach for clustering in desulfurization system based on modified framework for gypsum slurry quality monitoring[J]. 能量, 2018, 148: 789-801. (SCI收錄號:000429764000059)
[36]Ren S, Si F, Zhou J, et al. A new reconstruction-based auto-associative neural network for fault diagnosis in nonlinear systems[J]. 化學計量學 and Intelligent Laboratory Systems, 2018, 172: 118-128. (SCI收錄號:000426026400013)
[37]Gu H, Ren S, Si F, et al. Evolved FCM framework for working condition classification in furnace system[J]. Soft Computing, 2017, 21(21): 6317-6329. (SCI收錄號:000412458000008)
[38]Yu C, Si F, Ren S, et al. Experimental and numerical predictions of ash particle erosion in SCR monolithic catalysts for coal-fired utility boilers[J]. Korean Journal of Chemical Engineering, 2017, 34(5): 1563-1575. (SCI收錄號:000400661600033)
[39]Ren S, Si F, Gu H. multiple Sensor Validation for Natural Gas Combined Cycle 功率 Plants Based on Robust Input Training Neural Networks[J]. Journal of Chemical Engineering of Japan, 2017, 50(3): 186-194. (SCI收錄號:000398125000004)
[40]Ma H, Si F, Kong Y, et al. Wind-break walls with optimized setting angles for natural draft dry cooling tower with vertical radiators[J]. Applied Thermal Engineering, 2017, 112: 326-339. (SCI收錄號:000394831500033)
[41]Gu H, Ren S J, Si F Q, et al. Evolved clustering analysis of 300 MW boiler furnace 壓強 sequence based on entropy characterization[J]. Science China Technological Sciences, 2016, 59(4): 647-656. (SCI收錄號:000373853400015)
[42]Ma H, Si F, Kong Y, et al. A new theoretical method for predicating the part-load 表演 of natural draft dry cooling towers[J]. Applied Thermal Engineering, 2015, 91: 1106-1115. (SCI收錄號:000365053200111)
[43]Ronquillo-Lomeli G, Romero C E, Yao Z, et al. On-line flame signal 時間 series analysis for oil-fired burner optimization[J]. Fuel, 2015, 158: 416-423. (SCI收錄號:000357670100048)
[44]Ma H, Si F, Li L, et al. Effects of ambient 溫度 and crosswind on thermo-flow 表演 of the tower under energy balance of the indirect dry cooling system[J]. Applied Thermal Engineering, 2015, 78: 90-100. (SCI收錄號:000350096700010)
[45]pan Y, Si F, Xu Z, et al. DEM simulation and fractal analysis of particulate fouling on coal-fired utility boilers' heating surfaces[J]. Powder technology, 2012, 231: 70-76. (SCI收錄號:000309370800009)
[46]Liang H, Xu Z, Si F. Economic analysis of amine based 碳 dioxide capture system with bi-壓強 stripper in supercritical coal-fired 功率 plant[J]. International journal of greenhouse gas control, 2011, 5(4): 702-709. (SCI收錄號:000294700900012)
[47]pan Y, Si F, Xu Z, et al. An integrated theoretical fouling model for convective heating surfaces in coal-fired boilers[J]. Powder technology, 2011, 210(2): 150-156. (SCI收錄號:000291287700009)
[48]Si F, Romero C E, Yao Z, et al. A new approach for 函數 approximation in boiler combustion optimization based on modified structural AOSVR[J]. Expert Systems with Applications, 2009, 36(4): 8691-8704. (SCI收錄號:000264528600153)
[49]Si F, Romero C E, Yao Z, et al. Optimization of coal-fired boiler SCRs based on modified support 向量 machine models and genetic algorithms[J]. Fuel, 2009, 88(5): 806-816. (SCI收錄號:000264087300006)
[50]Si F, Romero C E, Yao Z, et al. Inferential sensor for on-line monitoring of ammonium bisulfate formation 溫度 in coal-fired 功率 plants[J]. Fuel Processing Technology, 2009, 90(1): 56-66. (SCI收錄號:000262206800006)
[51]董云山,司風琪,金煒. 考慮溫度效應的灰顆粒碰撞模型及沉積行為預測[J].中國電機工程學報, 2021, 41(21):7370-7377. (EI: 20214811226752)
[52]喻聰,司風琪,熊尾,周建新,江曉明. 電站鍋爐低氮燃燒與高溫受熱面換熱的聯合模擬及分析[J]. 中國電機工程學報,2019,39(13):3842-3850.(EI: 20193607395962)
[53]喻聰,司風琪,董云山,江曉明.燃煤電站SCR系統氣固流動與催化劑磨損的混合數值模擬與優化[J].東南大學學報(自然科學版),2019,49(01):133-140.(EI:20191506748463)
[54]雷麗君,司風琪,邵壯,白德龍.表面式三段給水加熱器簡化傳熱模型[J].中國電機工程學報,2019,39(01):204-211+334.(EI: 20191606801346)
[55]喬宗良,湯有飛,張蕾,董云山,司風琪.超臨界CO_2-水分離器性能數值模擬[J].東南大學學報(自然科學版),2018,48(05):781-788.(EI:20184706122053)
[56]李萍,王鵬,周建新,王曉東,司風琪.基于自適應模型的熱電聯產機組循環水系統運行優化[J].中國電機工程學報,2018,38(18):5500-5509.(EI:20191006611544)
[57]張貝,馬歡,司風琪,白德龍,解冠宇.計及集群效應的直接空冷機組經濟背壓研究[J].中國電機工程學報,2018,38(19):5779-5786+5934.(EI:20184706088163)
[58]周衛慶,司風琪,徐治皋,黃葆華,仇曉智.基于KPCA殘差方向梯度的故障檢測方法及應用[J].儀器儀表學報,2017,38(10):2518-2524.(EI:20175004519914)
[59]馬歡,司風琪,李嵐,閆文生,祝康平.間接空冷塔部分冷卻扇段關閉熱力特性的數值研究[J].中國電機工程學報,2015,35(18):4682-4689.(EI:20154401462364)
[60]邵壯,司風琪,郭俊山,徐治皋,閻文生.靜葉可調汽動引風機運行特性與性能優化[J].東南大學學報(自然科學版),2015,45(04):707-713.(EI:20153201119763)
[61]顧慧,喬宗良,司風琪,徐治皋.一種基于EKFCM算法的電站脫硫系統目標工況庫的建立方法[J].中國電機工程學報,2015,35(15):3859-3864.(EI:20153601250676)
[62]馬歡,司風琪,李嵐,祝康平,閻文生.間接空冷系統變工況快速計算模型[J].東南大學學報(自然科學版),2015,45(01):79-84.(EI:20151000594379)
[63]周建新,邵壯,李崇,司風琪,徐治皋.基于Aspen平臺的Oxy-CFB燃燒側動態特性模擬[J].東南大學學報(自然科學版),2014,44(06):1187-1193.(EI:20145300387673)
[64]馬歡,司風琪,祝康平,閻文生.間接空冷機組變工況運行特性的數值研究[J].華中科技大學學報(自然科學版),2014,42(10):98-103.
[65]喬宗良,張蕾,周建新,司風琪,徐治皋.一種改進的CPSO-LSSVM軟測量模型及其應用[J].儀器儀表學報,2014,35(01):234-240.(EI:20141017420164)
[66]任少君,司風琪,李歡歡,徐治皋.基于混合型魯棒輸入訓練神經網絡的非線性數據校正方法及其應用[J].東南大學學報(自然科學版),2013,43(02):322-327.(EI: 20131916321912)
[67]喬宗良,周建新,周衛慶,司風琪,徐治皋.基于預數值計算的除霧器葉片結構優化設計[J].東南大學學報(自然科學版),2013,43(01):76-82.(EI:20131916321869)
[68]顧慧,郭振宇,劉偉,司風琪,徐治皋.基于禁忌粒子群算法的熱電聯產負荷經濟分配[J].東南大學學報(自然科學版),2013,43(01):83-87.(EI:20131916321870)
[69]周衛慶,喬宗良,周建新,司風琪,徐治皋.一種熱工過程數據協調與顯著誤差檢測同步處理方法[J].中國電機工程學報,2012,32(35):115-121.(EI:20130315910059)
[70]任少君,司風琪,徐治皋.基于滑動樣本熵的汽輪機熱耗率不確定度分析[J].東南大學學報(自然科學版),2012,42(S2):287-291.(EI:20132216372264)
[71]劉偉,司風琪,徐治皋.基于燃燒特征量和模糊C均值聚類的燃燒診斷[J].東南大學學報(自然科學版),2012,42(S2):326-330.(EI:20132216372271)
[72]周建新,吳盈,司風琪,徐治皋.基于非線性塊式遞推偏最小二乘法的電站熱力過程動態數據檢驗[J].中國電機工程學報,2012,32(29):110-115+4.(EI:20124815724441)
[73]李歡歡,司風琪,徐治皋.一種基于魯棒自聯想神經網絡的傳感器故障診斷方法[J].中國電機工程學報,2012,32(14):116-121.(EI:20122715200303)
[74]司風琪,顧慧,葉亞蘭,汪軍,徐治皋.基于混沌粒子群算法的火電廠廠級負荷在線優化分配[J].中國電機工程學報,2011,31(26):103-109.(EI:20114214431863)
[75]司風琪,李歡歡,徐治皋.基于魯棒輸入訓練神經網絡的非線性多傳感器故障診斷方法及其應用[J].東南大學學報(自然科學版),2011,41(03):574-578.(EI:20112614102964)
[76]周衛慶,司風琪,喬宗良,周建新,徐治皋.基于穩健估計的迭代型支持向量機及其在電站數據檢驗中的應用[J].中國電機工程學報,2011,31(11):113-118.(EI:20112013990525)
[77]吳盈,司風琪,徐治皋.基于樣條變換偏魯棒M–回歸的電站熱力過程數據檢驗[J].中國電機工程學報,2011,31(08):114-118.(EI:20111713935872)
[78]邱鳳翔,郭振宇,徐治皋,司風琪.模糊概率符號有向圖單元模型及電站高加系統故障診斷[J].中國電機工程學報,2011,31(02):104-110.(EI:20110913712498)
[79]潘亞娣,司風琪,徐治皋.電站鍋爐受熱面灰污剝離模型[J].中國電機工程學報,2010,30(11):33-37.(EI:20102112958240)
[80]潘亞娣,司風琪,徐治皋.電站鍋爐受熱面灰污沉積模型[J].中國電機工程學報,2010,30(08):63-67.(EI:20101812907119)
[81]周衛慶,喬宗良,司風琪,徐治皋.電站多目標負荷優化分配與決策指導[J].中國電機工程學報,2010,30(02):29-34.(EI:20100912741015)
[82]司風琪,周建新,仇曉智,徐治皋.基于APCA的電站熱力過程故障傳感器自適應檢測方法[J].東南大學學報(自然科學版),2009,39(02):282-286.(EI:20091812064358)
[83]邱鳳翔,司風琪,徐治皋.電站關聯規則的主元分析挖掘方法及傳感器故障檢測[J].中國電機工程學報,2009,29(05):97-102.(EI:20090911932678)
[84]周建新,司風琪,仇曉智,陳晨,徐治皋.基于SVR和GA的鍋爐運行氧量基準值的優化確定[J].東南大學學報(自然科學版),2008,38(06):1061-1066.(EI:20090111830173)
[85]司風琪,周建新,仇曉智,徐治皋.獨立成分分析方法在電站熱力過程數據檢驗中的應用[J].中國電機工程學報,2008(26):77-81.(EI:20084211646960)
[86]王雷,徐治皋,司風琪.基于支持向量回歸的凝汽器清潔系數時間序列預測[J].中國電機工程學報,2007(14):62-66.(EI:20072610674294)
[87]王洪躍,畢小龍,司風琪,徐治皋.求解回轉式空氣預熱器傳熱模型的解析-數值法[J].中國電機工程學報,2006(11):51-55.(EI:20063210056028)
[88]司風琪,洪軍,徐治皋.基于改進Elman網絡的動態系統測量數據檢驗方法[J].東南大學學報(自然科學版),2005(01):50-54.(EI:2005149025252)
[89]司風琪,洪軍,徐治皋.基于向量投影的數據檢驗PCA方法[J].中國電機工程學報,2002(10):158-161.
[90]司風琪,徐治皋.基于自聯想神經網絡的測量數據自校正檢驗方法[J].中國電機工程學報,2002(06):153-156.
[91]司風琪,馬寶萍,徐治皋.熱力系統性能監測中的數據調和及不良數據檢測[J].東南大學學報(自然科學版),2000(03):65-69.
[92]Shao Z, Si F, Xu Z. Modelling of thermal 功率 unit target value based on hierarchical regression[C]. 2018 3rd International Conference on Insulating Materials, Material Application and Electrical Engineering - Power Engineering and Renewable 能量 September 15, 2018, Melbourne, VIC, Australia. (EI:20191306696873)
[93]Yu C, Si F, Xiong W. Multiple Scales Modelling of 化學 and 質量 Transfer in a SCR Process for Plate-Type Monolithic Catalysts[C]. 2018 International Conference on Manufacturing Technology, Materials and Chemical Engineering, MTMCE 2018, June 22, 2018. Zhuhai, China.(EI:20183505759910)
[94]Ma H, Si F, Li X, et al. Effects of 壓強 loss coefficients of heat exchanger on thermal 表演 of the dry cooling tower[J]. 能量 Procedia, 2017, 136: 169-175.
[95]Yu C, Zhang B, Fan W, et al. 1D kinetic analysis and 3D multi-channel modeling of plate-type monolithic catalysts for a Selective 催化 Reduction process[J]. 能量 Procedia, 2017, 136: 182-187.
[96]Qiao Z, Si F, Zhou J, et al. Monitoring method of slurry quality in wet flue gas desulfurization system based on fuzzy C-means clustering[C]//2016 3rd International Conference on Systems and Informatics (ICSAI). IEEE, 2016: 166-170.
[97]Zhou J, Shao Z, Si F, et al. Dynamic tests and results in an oxy-fuel circulating fluidized bed combustor with warm flue gas recycle[J]. 能量 & Fuels, 2014, 28(12): 7616-7620. (SCI收錄號:000346759800036)
[98]Zhang L, Ye Y L, Si F Q. Optimization of Condenser Vacuum Based on Neural Network and SA-BBO[C]//Advanced Materials Research. Trans Tech Publications, 2014, 860: 676-679.
[99]Zhao Y, Si F Q, Xu Z G. An Independent Component Analysis Based on Sliding Window 統計學 and its Application to 功率 Plant Equipment State Monitoring[C]//Advanced Materials Research. Trans Tech Publications, 2014, 860: 1801-1806.
[100]Qiao Z L, Zhang L, Si F Q, et al. Multi-Objective Optimum 設計 for Wave-Plate Demister Based on NSGA-ΙΙ Algorithm[C]//Advanced Materials Research. Trans Tech Publications, 2014, 864: 1163-1167.
[101]Zhou J, Ji Y, Qiao Z, et al. 氮 oxide emission modeling for boiler combustion using accurate online support 向量 regression[C]//2013 10th international conference on fuzzy systems and knowledge discovery (fskd). IEEE, 2013: 989-993.
[102]Qiao Z, Zhou J, Si F, et al. Fault diagnosis of slurry pH data base on autoregressive integrated moving average and least squares support 向量 machines[C]//2013 Ninth International Conference on Natural Computation (ICNC). IEEE, 2013: 141-145.
[103]Zhu Y, Li Q, Feng Y, et al. Hierarchical economic load dispatch based on chaotic-particle swarm optimization[C]//2013 Ninth International Conference on Natural Computation (ICNC). IEEE, 2013: 517-521.
[104]Zhang L, Xu Z, Si F. GCMDDBSCAN: Multi-密度 DBSCAN Based on Grid and Contribution[C]//2013 IEEE 11th International Conference on Dependable, Autonomic and Secure Computing. IEEE, 2013: 502-507.
[105]Zhang L, Xu Z, Si F. CGDBSCAN: DBSCAN Algorithm Based on Contribution and Grid[C]//2013 Sixth International Symposium on Computational Intelligence and 設計 IEEE, 2013, 2: 368-371.
[106]Gu H, Ye Y, Guo Z, et al. Optimization of the Initial Steam 壓強 for Supercritical Unit Based on ANN and PSO Algorithms[C]//2012 Asia-Pacific 功率 and 能量 Engineering Conference. IEEE, 2012: 1-5.
[107]Zhou W, Si F, Xu Z, et al. An investigation on system anomaly source diagnosis using KPCA-FPSDG[C]//2012 Asia-Pacific Power and Energy Engineering Conference. IEEE, 2012: 1-4.
[108]Schuster E, Romero C, Yao Z, et al. Integrated real-時間 optimization of boiler and post-combustion system in coal-based 功率 plants via extremum seeking[C]//2010 IEEE International Conference on Control Applications. IEEE, 2010: 2184-2189.
[109]Qiu X Z, Xu Z G, Zhang L M, et al. Nonlinear predictive control on the load system of a thermal 功率 unit based on AOSVR and SAPSO[C]//2009 Asia-Pacific Power and 能量 Engineering Conference. IEEE, 2009: 1-4.
[110]Xiaozhi Q, Zhigao X, Linmeng Z, et al. Nonlinear predictive control on the load system of a thermal 功率 unit based on EMRAN and SAPSO[C]//2009 International Conference on Sustainable Power Generation and Supply. IEEE, 2009: 1-4.
[111]Qiu X, Zhang L, Zhou J, et al. Research and Application of Predictive Control Based on EMRAN in Superheated Steam 溫度 Control System[C]//2009 International Conference on Advanced Computer Control. IEEE, 2009: 742-746.
參考資料:
社會職務
司風琪的社會職務包括:中國動力工程學會理事、自動控制專委會副主任委員、中國電力市場技術協會汽機專委會副主任委員、江蘇省工程熱物理學會理事、江蘇省能源研究會理事以及智慧能源專委會主任委員。
人才培養
司風琪指導的博士研究生有何天宇、王柏公、湯友飛、朱保宇、金煒、王鵬等。他指導的碩士研究生有賈博清、劉維、翁琪航、李治達、劉衛東、謝家琪等。
獲得榮譽
獲國家教學成果獎二等獎1項,省級教學成果獎特等獎1項、中國電力創新獎及能源創新獎等行業獎項一等獎4項、二等獎3項。
參考資料 >
司風琪.東南大學能源與環境學院.2024-03-11
職務任免的通知.東南大學組織部.2024-03-11
關于能源與環境學院行政領導 班子成員任免的通知.東南大學組織部.2024-03-11
關于潘勇濤等同志職務任免的通知.東南大學組織部.2024-03-11
關于錢怡君等同志職務任免的通知.東南大學組織部.2024-03-11
2020年中國共產黨東南大學能源與環境學院黨員大會.東南大學能源與環境學院.2024-03-11
司風琪.東南大學.2024-07-24
中文信息.東南大學能源與環境學院.2024-09-29
司風琪.東南大學能源與環境學院.2024-08-01
司風琪.東南大學能源與環境學院.2024-09-29