Investigation of Tonal Noise Sources from Centrifugal Fan using Detached Eddy Simulation
Doktorsavhandling, 2022

Since we spend the majority of our time indoors, heating, ventilation, and air conditioning (HVAC) systems have become a more and more important part of many people´s life. They provide a sufficient amount of airflow with the correct temperature, quality, and humidity. The negative side is the noise it produces and the dominant one is the tonal noise which is generated by the fan. In the fan, there is a gap between the rotating shroud and the stationary inlet duct. The pressure difference between the fan's inner and outer sides drives air to pass through the gap.

     In this thesis, tonal noises at the blade passing frequency (BPF) produced by a centrifugal fan is investigated to be able to understand the generation mechanism and identify their sources. The approach is to use the hybrid method coupling the improved delayed detached eddy simulation with the acoustic analogy Formulation 1A of Farassat.

It is found that recirculating flows at the blades are associated with the gap between the shroud and the inlet duct. The turbulence that develops at the gap is swept along the shroud wall and is swept downstream to interact with the top side of the blade leading edge (BLE). The interaction renders uneven surface pressure distributions among the blades that agree with the tonal noise sources from the wall-pressure fluctuations.

     Different gap geometries are studied and it is found that the gap designs affect the amplitude of the root mean square (RMS) pressure on the BLE. The spectral analysis shows that the regions with high energy correspond to the high RMS regions at the BLE and that the amplitude of the tonal noise at the BPF differs between the cases.

Also, the turbulent structures at the gap are swept downstream along the intersection between the blade and shroud, on the pressure side of the blade. They render uneven high-pressure regions in the blade passage. The high-pressure regions rotate with a speed of approximately 5% of the fan rotation speed.

Computational aeroacoustics

Blade passing frequency

Centrifugal fan

Low-frequency rotation

Tonal noise.

EF
Opponent: Thomas Carolus, Universität Siegen, Germany

Författare

Martin Ottersten

Chalmers, Mekanik och maritima vetenskaper, Strömningslära

When a centrifugal fan rotates it generates tonal noise. Today the noise problem is solved by installing silencers, which increase the energy consumption and only have a small effect on the tonal noise.

Exposure to tonal noise for a long term can affect the human body, leading to symptoms such as cardiac arrest, high blood pressure e.tc. Millions of people in Europe lose their healthy lifespan due to noise-related diseases.

The results from this thesis show that turbulence generates in the gap between the rotating fan and the stationary inlet duct. These turbulent structures interact with the fan blades and produce tonal noise. The sources responsible for the tonal noise are identified.

With this discovery, it is possible to design a centrifugal fan that has lower tonal noise than today´s fans. Different designs are tested and the tonal noise has been decreased.

This will improve the indoor environment and make people healthier. Also, energy consumption decreases due to fewer silencers and higher fan efficiency.

Styrkeområden

Energi

Hälsa och teknik

Ämneskategorier

Strömningsmekanik och akustik

ISBN

978-91-7905-674-2

Doktorsavhandlingar vid Chalmers tekniska högskola. Ny serie: 5140

Utgivare

Chalmers

EF

Opponent: Thomas Carolus, Universität Siegen, Germany

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Senast uppdaterat

2023-10-26