Novel drag and Nusselt number models based on direct numerical simulations of a bidisperse gas–solid system

Author:

Wang Dong1,Wang Shuai12ORCID,Jin Tai13,Luo Kun12ORCID,Fan Jianren12

Affiliation:

1. State Key Laboratory of Clean Energy Utilization Zhejiang University Hangzhou China

2. Shanghai Institute for Advanced Study Zhejiang University Shanghai China

3. School of Aeronautics and Astronautics Zhejiang University Hangzhou China

Abstract

AbstractFlow and heat transfer in a bidisperse gas–solid system with freely moving spheres  are simulated by particle‐resolved direct numerical simulation (PR‐DNS). Gas–solid coupling is enforced by the direct‐forcing immersed boundary method. Compard with the DNS database, it is found that the existing polydisperse drag correction model developed from static systems combined with various monodisperse drag models underestimates the drag force on dynamic arrays of particles. The existing Nusselt number correction model developed from static systems combined with various monodisperse models overestimates the Nusselt number of dynamic arrays of particles. Sensitivity analysis indicates that the effects of the granular temperature on the drag force and Nusselt number are negligible. Novel polydisperse drag and Nusselt number models are derived based on the database. The advantages of the derived polydisperse drag and Nusselt number models are demonstrated and confirmed by comparing the results of the computational fluid dynamics–discrete element method using various drag and Nusselt number models with experimental or additional PR‐DNS data.

Funder

National Natural Science Foundation of China

Publisher

Wiley

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