| Investigation on Rijke pipe's acoustic characteristics by numerical simulation: modeling the pulsing flow field coupled the inner of pipe with its outer space |
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| 作者姓名: | ZHONG Yingjie DENG Kai ZHANG Guojun LIN Haihao LI Hua |
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| 作者单位: | Institute of Energy and Power Engineering, Engineering Research Center of Pulse Technology, Zhejiang University of Technology Hangzhou 310014 |
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| 摘 要: | Based on the results of fluid dynamics, heat transfer and acoustics, a Computational Fluid Dynamics (CFD) method was utilized to study the acoustic characteristics and self-excited pulsation mechanism inside a Rijke pipe. To avoid settling the irrational boundary conditions of the finite-amplitude standing wave in the Rijke thermo-acoustic system, the simulation modeling in the flow field, which coupled the inner of pipe with its outer space, was carried out to replace the traditional way in form of internal flow field numerical investigations. A hypothesis for heat source in energy equation including the relationship on unsteady heat of air around heat source, oscillation pressure and oscillation velocity was presented. To reflect the essence of Rijke pipe, simulation on self-excited oscillation was conducted by means of its own pulsation of pressure, velocity and temperature. This method can make the convergence process steady and effectively avoid divergence. The physical phenomenon of the self-excited Rijke pipe was analyzed. Moreover, the mechanisms on the Rijke pipe's self-excited oscillation were explained. Based on this method, comparative researches on the acoustic characteristic of the Rijke pipe with different size and different shape of nozzle were performed. The simulation results agreed with the experimental data satisfactorily. The results show that this numerical simulation can be used to study the sound pressure of nozzle for the engineering application of Rijke pipes.
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| 关 键 词: | 声学特征 数学模拟技术 脉冲流 外太空 |
Investigation on Rijke pipe's acoustic characteristics by numerical simulation: modeling the pulsing flow field coupled the inner of pipe with its outer space |
| |
| Authors: | ZHONG Yingjie DENG Kai ZHANG Guojun LIN Haihao LI Hua |
| |
| Abstract: | Based on the results of fluid dynamics, heat transfer and acoustics, a Computational Fluid Dynamics (CFD) method was utilized to study the acoustic characteristics and self-excited pulsation mechanism inside a Rijke pipe. To avoid settling the irrational boundary conditions of the finite-amplitude standing wave in the Rijke thermo-acoustic system, the simulation modeling in the flow field, which coupled the inner of pipe with its outer space, was carried out to replace the traditional way in form of internal flow field numerical investigations. A hypothesis for heat source in energy equation including the relationship on unsteady heat of air around heat source, oscillation pressure and oscillation velocity was presented. To reflect the essence of Rijke pipe, simulation on self-excited oscillation was conducted by means of its own pulsation of pressure, velocity and temperature. This method can make the convergence process steady and effectively avoid divergence. The physical phenomenon of the self-excited Rijke pipe was analyzed. Moreover, the mechanisms on the Rijke pipe's self-excited oscillation were explained.Based on this method, comparative researches on the acoustic characteristic of the Rijke pipe with different size and different shape of nozzle were performed. The simulation results agreed with the experimental data satisfactorily. The results show that this numerical simulation can be used to study the sound pressure of nozzle for the engineering application of Rijke pipes. |
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