Thermoacoustic systems have been a focus of recent research due to its structural simplicity, high reliability due to absence of moving parts, and can be driven by low grade energy such as fuel, gas, solar energy, waste heat etc. There has been extensive research on both standing wave and traveling wave systems. Towards the development of such systems, simulations can be carried out by several methods such as (a) solving the energy equation, (b) enthalpy flow model, (c) DeltaEC, a free software available from LANL, USA (d) Computational Fluid Dynamics (CFD) etc. We present here the simulation studies of standing wave and traveling wave thermoacoustic prime movers using CFD and DeltaEC. The CFD analysis is carried out using Fluent 6.3.26, incorporating the necessary boundary conditions with different working fluids at different operating pressures. The results obtained by CFD are compared with those obtained using DeltaEC. Also, the CFD simulation of the thermoacoustically driven refrigerator is presented.
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29 January 2014
ADVANCES IN CRYOGENIC ENGINEERING: Transactions of the Cryogenic Engineering Conference - CEC
17–21 June 2013
Anchorage, Alaska, USA
Research Article|
January 29 2014
Simulation studies on the standing and traveling wave thermoacoustic prime movers
Mathew Skaria;
Mathew Skaria
Department of Mechanical Engineering, TKM College of Engineering, Kollam, Kerala,
India
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K. K. Abdul Rasheed;
K. K. Abdul Rasheed
Department of Mechanical Engineering, TKM College of Engineering, Kollam, Kerala,
India
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K. A. Shafi;
K. A. Shafi
Department of Mechanical Engineering, TKM College of Engineering, Kollam, Kerala,
India
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S. Kasthurirengan;
S. Kasthurirengan
Center for Cryogenic Technology, Indian Institute of Science, Bangalore, Karnataka,
India
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Upendra Behera
Upendra Behera
Center for Cryogenic Technology, Indian Institute of Science, Bangalore, Karnataka,
India
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AIP Conf. Proc. 1573, 760–767 (2014)
Citation
Mathew Skaria, K. K. Abdul Rasheed, K. A. Shafi, S. Kasthurirengan, Upendra Behera; Simulation studies on the standing and traveling wave thermoacoustic prime movers. AIP Conf. Proc. 29 January 2014; 1573 (1): 760–767. https://doi.org/10.1063/1.4860780
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