Add to ORKGOscillatory flows past solid bodies are a feature typical for thermoacoustic systems. Understanding such flows is one of the keys for improving the system performance. This work investigates oscillatory flows around parallel-plate heat exchanger through numerical modeling developed based on the experimental data obtained in-house within a standing-wave thermoacoustic setup. Attention is given to developing a model that can explain the physics of phenomena observed in the experimental work. Four drive ratios (defined as maximum pressure amplitude to mean pressure) were investigated: 0.3%, 0.45%, 0.65% and 0.83%. The suitability of selected turbulence models for predicting the flow phenomena at varied drive ratios has been tested. Discussion...
Thermoacoustic system is one of the alternative technologies that provides green working principles ...
Thermoacoustic devices are built based on interactions between sound wave and a solid boundary, with...
Thermoacoustic devices are built based on interactions between sound wave and a solid boundary, with...
Oscillatory flows past solid bodies are a feature typical for thermoacoustic systems. Understanding ...
Heat exchangers are considered to be critical components of thermoacoustic systems and their appropr...
Heat exchangers are considered to be critical components of thermoacoustic systems and their appropr...
Thermoacoustics is a sustainable technology for novel energy conversion applications. The performanc...
This work focuses on the predictions of turbulent transition in oscillatory flow subjected to temper...
Thermoacoustic systems rely on conversion between thermal and acoustic (i.e. mechanical) forms of en...
Thermoacoustic technologies rely on a direct power conversion between acoustic and thermal energies ...
A simplified computational method for studying the heat transfer characteristics of parallel plate t...
This paper addresses the issues of heat transfer in oscillatory flow conditions, which are typically...
The design of appropriate heat exchangers is an essential requirement for the development of next ge...
Power can be converted with high efficiently between thermal energy and mechanical (acoustic) energy...
Heat exchangers are critical components of energy systems such as thermoacoustic engines and coolers...
Thermoacoustic system is one of the alternative technologies that provides green working principles ...
Thermoacoustic devices are built based on interactions between sound wave and a solid boundary, with...
Thermoacoustic devices are built based on interactions between sound wave and a solid boundary, with...
Oscillatory flows past solid bodies are a feature typical for thermoacoustic systems. Understanding ...
Heat exchangers are considered to be critical components of thermoacoustic systems and their appropr...
Heat exchangers are considered to be critical components of thermoacoustic systems and their appropr...
Thermoacoustics is a sustainable technology for novel energy conversion applications. The performanc...
This work focuses on the predictions of turbulent transition in oscillatory flow subjected to temper...
Thermoacoustic systems rely on conversion between thermal and acoustic (i.e. mechanical) forms of en...
Thermoacoustic technologies rely on a direct power conversion between acoustic and thermal energies ...
A simplified computational method for studying the heat transfer characteristics of parallel plate t...
This paper addresses the issues of heat transfer in oscillatory flow conditions, which are typically...
The design of appropriate heat exchangers is an essential requirement for the development of next ge...
Power can be converted with high efficiently between thermal energy and mechanical (acoustic) energy...
Heat exchangers are critical components of energy systems such as thermoacoustic engines and coolers...
Thermoacoustic system is one of the alternative technologies that provides green working principles ...
Thermoacoustic devices are built based on interactions between sound wave and a solid boundary, with...
Thermoacoustic devices are built based on interactions between sound wave and a solid boundary, with...