Modeling Cavitation in Converging-Diverging Nozzle Using Computational Fluid Dynamics and Machine Learning Model

被引:0
|
作者
Lu, You-Cheng [1 ]
Mohammadzaheri, Morteza [2 ]
Cheng, Way Lee [1 ]
机构
[1] Natl Sun Yat sen Univ, Dept Mech & Electromech Engn, 70 Lien hai Rd, Kaohsiung 804, Taiwan
[2] German Univ Technol Oman, Engn Dept, POB 1816, Athaibah 130, Sultanate Of Om, Oman
来源
CHEMICAL ENGINEERING & TECHNOLOGY | 2025年
关键词
Cavitation; Computational fluid dynamic; Machine learning; Venturi tube; HYDRODYNAMIC CAVITATION; FLOWS; CFD;
D O I
10.1002/ceat.12011
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
Cavitation occurs when the pressure drops below the saturation pressure. In this study, computational fluid dynamics (CFD) is used to model the cavitation behavior in the Venturi tube under high pressure and to investigate the impact of geometric parameters on steam generation. In recent years, there has been a shift toward exploring machine learning as an alternative to traditional CFD. This work aims to establish an artificial neural network (ANN) using numerical analysis results to predict flow characteristics for various geometrical shapes of nozzles. This including the prediction of pressure drop and steam generation. The final results demonstrate a high accuracy in prediction.
引用
收藏
页数:8
相关论文
共 50 条
  • [41] Computational simulation of mass transfer in membranes using hybrid machine learning models and computational fluid dynamics
    Liu, Yi
    Zhu, Yue
    Li, Dong
    Huang, Zhigang
    Bi, Chonghao
    CASE STUDIES IN THERMAL ENGINEERING, 2023, 47
  • [42] Computational fluid dynamics modeling of coronary artery blood flow using OpenFOAM: Validation with the food and drug administration benchmark nozzle model
    Ali, Sajid
    Ho, Chien-Yi
    Yang, Chen-Chia
    Chou, Szu-Hsien
    Chen, Zhen-Ye
    Huang, Wei-Chien
    Shih, Tzu-Ching
    JOURNAL OF X-RAY SCIENCE AND TECHNOLOGY, 2024, 32 (04) : 1121 - 1136
  • [43] Power Consumption Simulator of Data Center by using Computational Fluid Dynamics and Machine Learning
    Kuwahara, Hayato
    Hsu, Ying-Feng
    Matsuda, Kazuhiro
    Matsuoka, Morito
    ASHRAE TRANSACTIONS 2019, VOL 125, PT 1, 2019, 125 : 116 - 123
  • [44] Using Machine-Learning-Aided Computational Fluid Dynamics to Facilitate Design of Experiments
    Zhao, Ziqing
    Baumann, Amanda
    Ryan, Emily M.
    INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2024, 63 (49) : 21444 - 21454
  • [45] Optimal design of passive micromixers using the combination of computational fluid dynamics and machine learning
    Zhao, Zhongyi
    Su, Meishi
    Yuan, Jinliang
    Yang, Lixia
    Chen, Xueye
    Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2025, 47 (04)
  • [46] A generalized framework for integrating machine learning into computational fluid dynamics
    Sun, Xuxiang
    Cao, Wenbo
    Shan, Xianglin
    Liu, Yilang
    Zhang, Weiwei
    JOURNAL OF COMPUTATIONAL SCIENCE, 2024, 82
  • [47] Assessment of airborne transmitted infection risk in classrooms using computational fluid dynamics and machine learning-based surrogate modeling
    Lee, Hyeonjun
    Rim, Donghyun
    JOURNAL OF BUILDING ENGINEERING, 2024, 97
  • [48] A numerical investigation of the performance of Polymer Electrolyte Membrane fuel cell with the converging-diverging flow field using two-phase flow modeling
    Havaej, P.
    ENERGY, 2019, 182 : 656 - 672
  • [49] Influence of throat and diverging section on the performance of venturi scrubber by using computational fluid dynamics
    Ahad, Jawaria
    Ahmad, Masroor
    Farooq, Amjad
    Siddique, Waseem
    Waheed, Khalid
    Qureshi, Kamran Rasheed
    Shah, Ajmal
    Ahmed, Ammar
    Bibi, Ayesha
    Irfan, Naseem
    PROGRESS IN NUCLEAR ENERGY, 2023, 163
  • [50] Assessment of spillway modeling using computational fluid dynamics
    Chanel, Paul G.
    Doering, John C.
    CANADIAN JOURNAL OF CIVIL ENGINEERING, 2008, 35 (12) : 1481 - 1485
12345