Thermoacoustic engines are an interesting alternative to conventional heat engines (such as Stirling engines) due to the absence of moving parts in the hot region and the small temperature difference required to operate. These engines can provide a durable solution in, for example, waste heat recovery applications. Using a traveling wave based configuration, consisting of a toroidal geometry, thermal-to-acoustic efficiencies of up to 30% have been obtained. However, the traveling wave configuration has a major disadvantage: due to the closed looped geometry a time-averaged mass flow, known as "Gedeon streaming", can occur. This type of acoustic streaming can lead to a drastic reduction in efficiency or even prevent the engine from running. ...
The study of thermoacoustic effects is a relatively new area, particularly in application to thermoa...
Thermoacoustic engines have received many attention because of the lack of moving parts and environm...
Thermoacoustic energy conversion is based on the Stirling cycle and uses sound waves to displace and...
Thermoacoustic engines are an interesting alternative to conventional heat engines (such as Stirling...
The oscillatory flow through tapered cylindrical tube sections (jet pumps) is characterized by a num...
A two-dimensional computational fluid dynamics model is used to predict the oscillatory flow through...
A computational fluid dynamics model is used to predict the oscillatory flow through tapered cylindr...
The effect of flow separation and turbulence on the performance of a jet pump in oscillatory flows i...
The design of compact thermoacoustic devices requires compact jet pump geometries, which can be real...
A two-dimensional CFD model for predicting the oscillating flow through a jet pump is developed. Var...
International audienceDuring recent decades, research institutions and industries showed an importan...
A thermoacoustic engine is one of promising system for utilization of unused energy. The object of t...
<p><strong>Thermoacoustic engine</strong> is one of the emerging technologies in the field of energy...
Thermoacoustic heat pumps (TAHPs) can be used for heating and/or cooling purposes. Current designs o...
The utilisation of the thermal emissions of modern ship power plants requires the development and im...
The study of thermoacoustic effects is a relatively new area, particularly in application to thermoa...
Thermoacoustic engines have received many attention because of the lack of moving parts and environm...
Thermoacoustic energy conversion is based on the Stirling cycle and uses sound waves to displace and...
Thermoacoustic engines are an interesting alternative to conventional heat engines (such as Stirling...
The oscillatory flow through tapered cylindrical tube sections (jet pumps) is characterized by a num...
A two-dimensional computational fluid dynamics model is used to predict the oscillatory flow through...
A computational fluid dynamics model is used to predict the oscillatory flow through tapered cylindr...
The effect of flow separation and turbulence on the performance of a jet pump in oscillatory flows i...
The design of compact thermoacoustic devices requires compact jet pump geometries, which can be real...
A two-dimensional CFD model for predicting the oscillating flow through a jet pump is developed. Var...
International audienceDuring recent decades, research institutions and industries showed an importan...
A thermoacoustic engine is one of promising system for utilization of unused energy. The object of t...
<p><strong>Thermoacoustic engine</strong> is one of the emerging technologies in the field of energy...
Thermoacoustic heat pumps (TAHPs) can be used for heating and/or cooling purposes. Current designs o...
The utilisation of the thermal emissions of modern ship power plants requires the development and im...
The study of thermoacoustic effects is a relatively new area, particularly in application to thermoa...
Thermoacoustic engines have received many attention because of the lack of moving parts and environm...
Thermoacoustic energy conversion is based on the Stirling cycle and uses sound waves to displace and...
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