Article
Short Communications
2018. V. 56. № 2. P. 309–311
Hariharan N.M., Sivashanmugam P.
CFD simulation of twin thermoacoustic prime mover for binary gas mixtures
The objective of the present simulation is to analyze the performance of a twin thermoacoustic prime mover using CFD in terms of frequency and pressure amplitude. Pure fluid media such as helium, argon, nitrogen and their binary gas mixtures are studied at a constant operating pressure of 5 bar. The GAMBIT 2.3.16 pre-processor is used for creating the geometry of twin prime mover and the CFD package FLUENT 6.3 is used for simulating the device with different combinations of gas mixtures. The geometrical parameters and temperature gradients across the stack are kept constant throughout the simulation. It is found that the pressure amplitude of the thermoacoustic oscillations is higher for pure argon, whereas the frequency of the oscillations is higher for helium $(495$ Hz$)$ rather than other gases and mixtures.
Article reference:
Hariharan N.M., Sivashanmugam P. CFD simulation of twin thermoacoustic prime mover for binary gas mixtures, High Temp., 2018. V. 56. № 2. P. 309
Hariharan N.M., Sivashanmugam P. CFD simulation of twin thermoacoustic prime mover for binary gas mixtures, High Temp., 2018. V. 56. № 2. P. 309