Theoretical evaluation of stack-based thermoacoustic refrigerators

Prashantha, B; Narasimham, G.S.V.L.; Seetharamu, S.; Hemadri, Vinayak B.

doi:10.1007/s44189-022-00008-2

Cited by 6 publications

(1 citation statement)

References 24 publications

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“…In addition, it is found that the temperature gradient is sensitive to the thermophysical proprieties of working gas; this temperature was the lower for nitrogen followed by helium and argon. other more recent studies have been developed to study the efficiency of the stack either by optimizing its geometry or by using a different working fluid [27][28][29][30].…”

Section: Introductionmentioning

confidence: 99%

Design optimization and CFD analysis of the dynamic behavior of a standing wave thermoacoustic engine with various geometry parameters and boundary conditions

Bouramdane

Bah

Alaoui

et al. 2023

Int. J. Air-Cond. Ref.

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Thermoacoustic devices are converters of thermal energy into acoustic energy and vice versa. Although these machines contain simple components, the design of these machines is very challenging. In order to predict the behavior and optimize the efficiency of a standing-wave thermoacoustic engine designed to drive a thermally driven thermoacoustic refrigerator, considering changes in geometrical parameters and operating conditions, two analogies have been presented in this paper. The first analogy is based on a CFD simulation carried out to investigate the influence of stack parameters, working gas and boundary conditions on the thermoacoustic process. The second analogy is performed by the use of an optimization algorithm based on the simplified linear thermoacoustic theory to design and optimize the parameters investigated by the CFD study. Stack of parallel plates of normalized stack center positions of 0.007 to 0.26, normalized stack lengths of 0.018 to 0.11, and several gaps and thicknesses of plates and working gases are used. The results from the algorithm give the ability to design any thermoacoustic engine with high efficiency by picking the appropriate parameters. Simulation results show that decreasing thickness and position of the plates gives a significant efficiency. However, there are optimum values for length of the stack and the gap between two plates. The material chosen for the construction of plates should have a low thermal conductivity and gases with higher ratios of specific heats and lower Prandtl numbers are well suitable for thermoacoustic systems.

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Section: Introductionmentioning

confidence: 99%

Design optimization and CFD analysis of the dynamic behavior of a standing wave thermoacoustic engine with various geometry parameters and boundary conditions

Bouramdane

Bah

Alaoui

et al. 2023

Int. J. Air-Cond. Ref.

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Design and Analysis of a Thermoacoustic Cooling System with Two-Stack Arrangement for Different Types of Stacks

Siva Sakthi,

Swathiga Devi,

Bogadi

2023

Lecture Notes in Mechanical Engineering

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Effect of gas spacing and resonance frequency on theoretical performance of thermoacoustic refrigerators

Prashantha

Seetharamu

Narasimham

et al. 2023

Int. J. Air-Cond. Ref.

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In this paper, the design and analysis of 500 W thermoacoustic refrigerators for the temperature difference of 28 K using helium and air are discussed. Helium is the best working gas, but air is chosen to study the possibility of replacing helium for the future cost-effective refrigerator since it is much cheaper than helium. Heat and work flow equations of thermoacoustic refrigerators are discussed. The refrigerator models are optimized by normalizing the design parameters using Rott’s linear thermoacoustic theory. The effect of gas spacing expressed in terms of the thermal penetration depth in stack-heat exchanger unit at 85% porosity is discussed. The effect of the resonance frequency of air on the stack-heat exchanger sheets spacing and thickness and on the theoretical performance is discussed. The effect of the resonance frequency of air on the theoretical performance at 200 Hz, 300 Hz, and 400 Hz is discussed. The cooler shows better COP of 1.72 at 300 Hz for air and 1.53 at 400 Hz for helium. The theoretical results are compared with the DeltaEC software results. The DeltaEC predicts cooling power and COP of 347 W at 1.02 for helium and 224 W at 0.79 for air, respectively.

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Theoretical evaluation of stack-based thermoacoustic refrigerators

Cited by 6 publications

References 24 publications

Design optimization and CFD analysis of the dynamic behavior of a standing wave thermoacoustic engine with various geometry parameters and boundary conditions

Design optimization and CFD analysis of the dynamic behavior of a standing wave thermoacoustic engine with various geometry parameters and boundary conditions

Design and Analysis of a Thermoacoustic Cooling System with Two-Stack Arrangement for Different Types of Stacks

Effect of gas spacing and resonance frequency on theoretical performance of thermoacoustic refrigerators

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