关键词: 增压器；进气系统；低噪声设计；消声元件；传递损失

Abstract: This paper conducts relevant research on the low-noise design process of the turbocharger intake system and the optimal design of post-compression muffler components, aiming at addressing the high-frequency airflow noise issue in the intake system of passenger vehicle turbochargers. By combining computational fluid dynamics and acoustic finite element simulation methods, it is clarified that low-noise design requires balancing flow resistance and acoustic performance. With the control target of 5 500~8 000 Hz high-frequency airflow noise, the design and verification of post-compression sound-absorbing components from the initial scheme to the optimized scheme were completed. The inserted tubular sound-absorbing structure was determined as the final scheme, which has a transmission loss of no less than 20 dB in the 5 000~8 500 Hz frequency band and meets the engineering requirements for flow resistance, providing an effective technical path for reducing the noise of the turbocharger intake.

Key words: turbocharger; intake system; low-noise design; muffler components; transmission loss