Noise reduction in centrifugal fans: A literature survey

Summary Using the discontinuous Galerkin (DG) method for conjugate heat transfer problems can provide improved accuracy close to the fluid‐solid interface, localizing the data exchange process, which may further enhance the convergence and stability of the entire computation. This paper presents a framework for the simulation of conjugate heat transfer problems using DG methods on unstructured grids. Based on an existing DG solver for the incompressible Navier‐Stokes equation, the fluid advection‐diffusion equation, Boussinesq term, and solid heat equation are introduced using an explicit DG formulation. A Dirichlet‐Neumann partitioning strategy has been implemented to achieve the data exchange process via the numerical flux of interface quadrature points in the fluid‐solid interface. Formal h and p convergence studies employing the method of manufactured solutions demonstrate that the expected order of accuracy is achieved. The algorithm is then further validated against 3 existing benchmark cases, including a thermally driven cavity, conjugate thermally driven cavity, and a thermally driven cavity with conducting solid, at Rayleigh numbers from 1000 to 100 000. The computational effort is documented in detail demonstrating clearly that, for all cases, the highest‐order accurate algorithm has several magnitudes lower error than first‐ or second‐order schemes for a given computational effort.

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An internal penalty discontinuous Galerkin method for simulating a thermoelectric cooler

Cai

Thornber

2018

International Journal of Heat and Mass Transfer

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Prediction of fluid surge in partially-filled clean-bore and transverse baffled tanks of multiple designs under the United Nations Model Regulations

Cai

Herath²,

Djukic³

et al. 2023

Ocean Engineering

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Zhemin Cai

A high-order discontinuous Galerkin method for simulating incompressible fluid-thermal-structural interaction problems

Evaluation of rigid body force in liquid sloshing problems of a partially filled tank: Traditional CFD/SPH/ALE comparative study

An internal penalty discontinuous Galerkin method for simulating conjugate heat transfer in a closed cavity

An internal penalty discontinuous Galerkin method for simulating a thermoelectric cooler

Prediction of fluid surge in partially-filled clean-bore and transverse baffled tanks of multiple designs under the United Nations Model Regulations

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