报告详情
  1. 活动首页
  2. 报告清单
  3. 报告详情
Intelligent Prediction of the Lateral Velocity and Mixing Characteristics Downstream of the Spacer Grid
编号:35 访问权限:仅限参会人 更新:2024-09-05 12:21:04 浏览:98次 口头报告

报告开始:暂无开始时间(Asia/Shanghai)

报告时间:暂无持续时间

所在会场:[暂无会议] [暂无会议段]

演示文件

提示:该报告下的文件权限为仅限参会人,您尚未登录,暂时无法查看。

摘要
In the traditional optimization process of the spacer gird with mixing wings, it is necessary to establish a 3D model and conduct CFD simulation .  We also need to conduct experimental verification on the simulation model with good performance. The entire optimization process is time-consuming and labor-intensive. In order to optimize the design process and reduce the consumption of manpower, material resources, and computing power, this article introduces artificial intelligence methods to simplify the process of establishing 3D models and simulations in the optimization process. A database of mixing characteristics parameters under different working conditions and different mixing blade structure parameters was established through PIV experiments and CFD simulations. The artificial intelligence model was trained using the database to roughly judge the strength of the mixing characteristics under different working conditions and model parameters. By training the artificial intelligence model using the database and conducting kernel function cross-validation and hyperparameter optimization, conclusions were drawn. It was found that, using the Gaussian process regression algorithm(GPR) algorithm for prediction, the model had good prediction performance for the eddy factor with an determinant coefficients(R2 score)of 0.92, while its prediction performance for the turbulence factor was poor with an R2 score of only 0.31. When using the backpropagation neural network algorithm for prediction, the model had good prediction performance for both parameters after optimization, with a comprehensive R2 score of 0.81, which is acceptable. However, after optimizing each parameter separately, the R2 score for eddy factor prediction was 0.97, while the R2 score for turbulence intensity prediction was 0.93, which demonstrated excellent performance.
关键词
Spacer grid; mixing vane; GPR; backpropagation neural network
报告人
quanbo li
PhD student Harbin Engineering University

稿件作者
quanbo li Harbin Engineering University
发表评论
验证码 看不清楚,更换一张
全部评论
重要日期

  • 会议日期

    09月23日

    2024

    09月25日

    2024

  • 09月24日 2024

    报告提交截止日期

  • 09月25日 2024

    注册截止日期

主办单位
Harbin Engineering University (HEU)
联系方式
登录查看完整联系方式
历届会议
移动端
在手机上打开
小程序
打开微信小程序
客服
扫码或点此咨询