常英傑(長安大學能源與電氣工程學院講師)

2011-09至2015-06，西安交通大學能源與動力工程學院，能源動力系統及自動化，學士；

2015-09至2023-12，西安交通大學動力工程多相流國家重點實驗室，動力工程及工程熱物理, 碩博連讀；

2021-07至 022-08，德國Otto-von-Guericke-University Magdebur，聯合培養博士；

2023-12至今，長安大學，能源與電氣工程學院，講師。

目前研究方向為氣液兩相/多相流，主要包括：

1.海洋油氣集輸流動安全保障（多相流型人工智慧監控、多相混輸、危害流型預警及消除）；

2.兩相/多相流動測量等方向（ECT/ECVT/PIV/PTV/PLIF/高速相機）和數值模擬；

3.氣泡動力學。

1.中央高校基本科研業務，“海洋長輸管線內氣液多相流動特性及流型轉變機理研究”（No.300102384104），2024.01-2025.12.

2.“十三五”國家科技重大專項，“深水多相流型線上識別及段塞控制工程技術”（No. 2016ZX05028004-002），2016.01-2020.06.

3.國家重大科研儀器研製項目，“深海油氣采輸管道多相流實驗及測控技術研發裝備”（No. 51527808），2016.01-2021.12.

4.國家重點研發計畫課題（2022YFC2806202），2021.01-2025.12.

5.國家自然科學基金基礎科學中心項目“能源有序轉化”（No. 51888103），2019.01-2023.12（首期）.

6.國家自然科學基金委員會，面上項目，52076175，氣液兩相射流凝結聲波的產生與傳播機理研究，2020.01-2024.12.

[1]Yingjie Chang, Qiang Xu*, Suifeng Zou, Xiangyuan Zhao, Quanhong Wu, Yechun Wang, Dominique Thévenin, Liejin Guo*. Experiments and predictions for severe slugging of gas-liquid two-phase flows in a long-distance pipeline-riser system[J]. Ocean Engineering, 2024, 301, 117636.

[2]Yingjie Chang, Bo Huang, Qiang Xu*, Xiangyuan Zhao, Quanhong Wu, Hao Chen, Dominique Thévenin, Liejin Guo*. The influence of operation pressure on the amplitude, frequency, and flow regime transition boundary of severe slugging in a gas-liquid two-phase pipeline-riser system[J]. Energy, 2024, (under review).

[3]Yingjie Chang, Bo Huang, Qiang Xu*, Yiyan Liu, Hao Chen, Nailiang Li, Dominique Thévenin, Liejin Guo.Identification of gas-liquid two-phase undesired flow in pipeline-riser systems under high pressure via back propagation neural network[J]. Patroleum Science, 2024.

[4]劉義艷，郝婷楠，賀晨，常英傑. 基於DBBR-YOLO的光伏電池表面缺陷檢測[J]. 圖學學報，2024,1-10.

[5]Yubo Wang*, Yanan Yu, Zhigang Liu, Yingjie Chang, Xiangyuan Zhao, Qiming Wang. Experimental Study on Gas-Liquid Two-Phase Stratified Flow at High Pressure in a Horizontal Pipe[J]. energies, 2024, 17, 1056.

[6]Xiangyuan Zhao, Qiang Xu*, Jiqiang Fu, Yingjie Chang, Quanhong Wu, Liejin Guo*. Study on eliminating severe slugging by manual and automatic choking in long pipeline-riser system[J]. Chemical Engineering Science, 2024, 292, 119978.

[7]Bo Huang, Qiang Xu, Yeqi Cao, Haiyang Yu, Yuwen Li, Yingjie Chang, Liejin Guo*. Investigation on intermittent flow characteristics in horizontal pipe by visualization measurement method[J]. Experimental Thermal and Fluid Science, 2024.

[8]Bo Huang;Qiang Xu; Yingjie Chang; Yeqi Cao; Haiyang Yu; Yuwen Li; Liejin Guo. Experimental and modeling investigation of zero net liquid flow in hilly terrain pipeline[J]. Patroleum Science, 2024.

[1]Yingjie Chang, Qiang Xu*, Suifeng Zou, Xiangyuan Zhao, Quanhong Wu, Yechun Wang, Dominique Thévenin, Liejin Guo*. An improved void fraction prediction model for gas-liquid two-phase flows in pipeline-riser systems[J]. Chemical Engineering Science, 2023, 278, 118919.

[2]Yingjie Chang, Conrad Müller*, Péter Kováts, Liejin Guo, Katharina Zähringer, Hydrodynamics and shape reconstruction of single rising air bubbles in water using high-speed tomographic particle tracking velocimetry and 3D geometric reconstruction[J]. Experiments in Fluids, 2023, 65, 6.

[3]Xiangyuan Zhao, Qiang Xu*, Quanhong Wu, Yingjie Chang, Yeqi Cao, Suifeng Zou, Liejin Guo*. Effect of high pressure on severe slugging and multiphase flow pattern transition in a long pipeline-riser system[J]. Experimental Thermal and Fluid Science, 2023, 148, 110976.

[4]Quanhong Wu, Suifeng Zou*, Qiang Xu, Yingjie Chang, Xiangyuan Zhao, Tian Yao, Liejin Guo*. A comparison of gas-liquid two-phase flow behaviors between two pipeline-riser systems with different geometric parameters and different operating pressures: From view of flow pattern identification[J]. Ocean Engineering, 2023, 288. 116179.

[1]Yingjie Chang, Qiang Xu*, Quanhong Wu, Xiangyuan Zhao, Bo Huang, Yechun Wang, Liejin Guo*. Experimental study of the hydraulic jump phenomenon induced by the downstream riser structure in a pipeline–riser system[J]. Chemical Engineering Science, 2022, 256, 117687.

[2]常英傑,趙向遠,吳全紅,劉威志,黃博,徐強,郭烈錦*.長距離集輸-立管中嚴重段塞流頻率特性研究[J].工程熱物理學報.2022,43:98-103.

[3]Conrad Müller*, Yingjie Chang, Peter Kováts, Katharina Zähringer, Dominique Thévenin. Flow around bubbles: 4D measurement concept with high-speed tomographic system[C]. Budapest, Hungary: 18th International Conference on Fluid Flow Technologies, 2022.

[1]Yubo Wang, Yingjie Chang, Zhigang Liu, Xiangyuan Zhao, Liejin Guo*. Experimental and Theoretical Study of Interface Characteristics of Gas–Liquid Stratified Flow in Horizontal Pipe at High Pressure [J]. Flow Turbulence and Combustion, 2020, 105, 1249–1275.

[2]Qiang Xu, Wensheng Li, Yingjie Chang, Haiyang Yu, Liejin Guo*. A quantification of penetration length of steam jet condensation in turbulent water flow in a vertical pipe[J]. International Journal of Heat and Mass Transfer, 2020, 146:118818.

[3]Weizhi Liu, Qiang Xu, Suifeng Zou, Yingjie Chang, Liejin Guo*. Optimization of differential pressure signal acquisition for recognition of gas-liquid two-phase flow patterns in pipeline-riser system[J]. Chemical Engineering Science, 2020, 229, 116043.

[4]趙向遠，付吉強，常英傑，徐強，郭烈錦*.嚴重段塞流自動及手動節流控制效果實驗研究[C].中國工程熱物理學會多相流學術會議，大連，2020.

[1]Yubo Wang, Zhigang Liu, Yingjie Chang, Xiangyuan Zhao, Liejin Guo*. Experimental study of gas-liquid two-phase wavy stratified flow in horizontal pipe at high pressure[J]. International Journal of Heat and Mass Transfer, 2019, 143:118537.

[2]吳全紅,趙向遠,常英傑,徐強,郭烈錦*.空氣-水兩相管流中節流法控制不穩定流型壓差波動特性實驗研究[J].海洋工程裝備與技術,2019,6(4):7.

[3]Yingjie Chang, Yubo Wang, Zhigang Liu, Xiangyuan Zhao, Liejin Guo*. Slug frequency in air-water inclined pipe flow: Experiment and prediction[C], Rio de Janeiro:10th ICMF 2019.

[4]Yingjie Chang, Liejin Guo*, Yubo Wang, Zhigang Liu, Xiangyuan Zhao. Statistical assessment of experiment on slug frequency in an inclined pipe[C]. Las Vagas:4th TFEC 2019.

[5]Yubo Wang, Yingjie Chang, Zhigang Liu, Xiangyuan Zhao, Liejin Guo*. Experimental study of interface wave characteristics of gas-liquid flow in horizontal pipe at high pressure[C]. Rio de Janeiro:10th ICMF 2019.

[6]常英傑，劉志剛，黃博，王玉博，徐強，郭烈錦*.基於PSD方法的近水平管段塞頻率預測研究[C].中國工程熱物理學會多相流學術會議，長沙，2019.

[7]常英傑，郭烈錦*，王玉博，劉志剛，趙向遠.高壓水平管內界面波特性研究[C].中國工程熱物理學會多相流學術會議，北京，2018.

[8]常英傑，郭烈錦*，王玉博，劉志剛.高壓水平管內空氣-水兩相流流型特徵[C].中國工程熱物理學會多相流學術會議，揚州，2017.

[9]王玉博，郭烈錦*，常英傑，劉志剛，趙向遠.基於水平管流壓降信號特徵分析的局部流型識別研究[C].中國工程熱物理學會多相流學術會議，北京，2018.

[10]趙向遠，郭烈錦*，吳全紅，常英傑，徐強.節流-分離器聯合控制嚴重段塞流效果研究[C].中國工程熱物理學會多相流學術會議，長沙，2019.