Advanced Search Thesis

مقالات فارسی ISI کنفرانسها ژورنالها

Numerical Study of Erosion Wear Characteristics in a High-pressure Black Water Angle Valve by Using CFD-VOF-DPM Method

Publish place: Journal of Applied Fluid Mechanics، Vol: 17، Issue: 9

Publish Year: 1403

نوع سند: مقاله ژورنالی

زبان: English

View: 5

This Paper With 18 Page And PDF Format Ready To Download

دریافت فایل کامل Paper

Certificate
من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:

https://civilica.com/doc/2024516

شناسه ملی سند علمی:

JR_JAFM-17-9_020

تاریخ نمایه سازی: 19 تیر 1403

Abstract:

High-pressure black water angle valves are essential equipment of black water flash treatment systems in the coal gasification process, and they usually suffer from a high risk of erosion wear failure. In this study, computational fluid dynamics (CFD), combined with the discrete particle method (DPM) and the volume of fluid (VOF) method, was used to study the flow characteristics and erosion wear phenomenon in high-pressure black water angle valves under different valve cavity radii and opening angles. In particular, a new parameter, the drift index, was introduced to analyze the bias flow phenomenon in the throttling zone. With the increase in valve cavity radius, the drift index first decreases and then increases, and the influence of the valve cavity radius gradually weakens with the increase in the valve opening. It was found that, with the increase in valve cavity radius, the average erosion wear rate of the valve body decreases first and then increases. When the valve cavity radius was ۱۳۲ mm, the average erosion wear rate of the valve body was the smallest. Therefore, the optimization of the valve cavity radius selection value can reduce the erosion wear damage of the high-pressure black water angle valve and increase its operational dependability.

Keywords:

DPM , Valve cavity radius , Multiphase flow , Drift index , Erosion wear

Authors

Department of Energy and Power Engineering, Faculty of Mechanical Engineering; Zhejiang Sci-Tech University, Hangzhou, Zhejiang, China

Department of Energy and Power Engineering, Faculty of Mechanical Engineering; Zhejiang Sci-Tech University, Hangzhou, Zhejiang, China

Department of Energy and Power Engineering, Faculty of Mechanical Engineering; Zhejiang Sci-Tech University, Hangzhou, Zhejiang, China

Department of Energy and Power Engineering, Faculty of Mechanical Engineering; Zhejiang Sci-Tech University, Hangzhou, Zhejiang, China

Department of Energy and Power Engineering, Faculty of Mechanical Engineering; Zhejiang Sci-Tech University, Hangzhou, Zhejiang, China

Department of Energy and Power Engineering, Faculty of Mechanical Engineering; Zhejiang Sci-Tech University, Hangzhou, Zhejiang, China

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :

Abbaspour, M., Chapman, K. S., Glasgow, L. A., & Zheng, ...
Alghurabi, A., Mohyaldinn, M., Jufar, S., Younis, O., Abduljabbar, A., ...
Bambhania, M., & Patel, N. K. (۲۰۲۲). Numerical modeling of ...
Ban, S., Pao, W., & Nasif, M. S. (۲۰۲۱). Experimental ...
Cao, L., Liu, S., Hu, P., & Si, H. (۲۰۲۰). ...
Chen, P., Cui, B., Li, J., Zheng, J., & Zhao, ...
Chen, S., Gong, J., Li, W., Yang, Q., Shi, G., ...
Chowdhury, M. A., Hossain, N., Shahin, M., Debnath, U. K., ...
Drew, D., Cheng, L., & Lahey Jr, R. T. (۱۹۷۹). ...
Espinoza-Jara, A., Walczak, M., Molina, N., Jahn, W., & Brevis, ...
Forder, A., Thew, M., & Harrison, D. (۱۹۹۸). A numerical ...
Ganesan, P. B., Tariqul Islam, M., Pokrajac, D., Hamad, F. ...
Guo, F., Guo, Y., Qiu, G., Xu, J., Niu, Y., ...
Hou, L. Y., Wang, K. S., & Lu, T. (۲۰۱۱). ...
Humphrey, J. A. C. (۱۹۹۰). Fundamentals of fluid motion in ...
Kharangate, C. R., & Mudawar, I. (۲۰۱۷). Review of computational ...
Kou, B., Hou, Y., Fu, W., Yang, N., Liu, J., ...
Li, L., Gu, Z., Xu, W., Tan, Y., Fan, X., ...
Li, Y., Zhang, J., & Fan, L. S. (۱۹۹۹). Numerical ...
Mansouri, A., Arabnejad, H., Shirazi, S. A., & McLaury, B. ...
Parsi, M., Najmi, K., Najafifard, F., Hassani, S., McLaury, B. ...
Peng Jr, D., Pak, A., Chinello, L., Wood, T., & ...
Qin, D., Pan, G., Huang, Q., Zhang, Z., & Ke, ...
Severiano, J. D., Silva, A. S., Sussushi, E. M., da ...
Shao, C., Ge, Z., Zhou, Z., Liu, W., Li, Z., ...
Shirani, E., Ghadiri, F., & Ahmadi, A. (۲۰۱۱). Modeling and ...
Song, X., Cui, L., Cao, M., Cao, W., Park, Y., ...
Tan, D. P., Ni, Y. S., & Zhang, L. B. ...
Wang, S., & Shen, Y. (۲۰۲۳). CFD-DEM-VOF-phase diagram modelling of ...
Wallace, M. S., Dempster, W. M., Scanlon, T. J., Peters, ...
Wen, Q., Liu, Y., Chen, Z., & Wang, W. (۲۰۲۲). ...
Wiedemann, P., Meller, R., Schubert, M., & Hampel, U. (۲۰۲۳). ...
Yadigaroglu, G., & Zeller, M. (۱۹۹۴). Fluid-to-fluid scaling for a ...
Yan, X., Wei, W., You, M., Fan-Ding, L., & Hao-Zhe, ...
Yu, R., Wu, Y., Chen, X., & Wu, X. (۲۰۲۳). ...
Zamani, M., Seddighi, S., & Nazif, H. R. (۲۰۱۷). Erosion ...
Zhang, E., Zeng, D., Zhu, H., Li, S., Chen, D., ...
Zhang, M. M., Katz, J., & Prosperetti, A. (۲۰۱۰). Enhancement ...
Zheng, K., Hu, H., Chen, F., & Zheng, Y. (۲۰۲۱). ...
Zheng, Z., Ou, G., Yi, Y., Shu, G., Jin, H., ...

نمایش کامل مراجع