The acoustic performance of ventilated window with quarter-wave resonators and membrane absorber

•Ventilated window can balance between acoustic and ventilation performances.•Multiple-wave resonators and membrane absorber are developed.•New design can enhance the durability and light transparency.•TL up to 22 dB can be achieved in the frequency range of 500 Hz–4 kHz band.•Air flow velocity of ventilated window is twice higher than that of “open window”.

Noise and air pollution problems become significantly in a busy city such as Hong Kong since buildings usually located close to the heavy traffic lines. Traditional openable window cannot fulfill all the functions of noise reduction, lighting and natural ventilation. A new ventilated window combines the multiple quarter-wave resonators (silencer) and the new wing wall designs aim to make a balance between acoustic and ventilation performances at the same time. Furthermore, the use of multiple-wave resonators and membrane absorber which made plexi-glass plastic sheet replace absorption material can improve the durability; avoid small particle emission and light transparency.The acoustic and ventilation performance of new ventilated window were examined in this study. Noise attenuation of the new ventilated window design has improved significantly by combine flexible absorber and quarter-wave resonator effects. Transmission loss of 10–22 dB can be achieved in the frequency range of 500 Hz–4 kHz band. Outlet air flow velocity of ventilated window design is higher than that of “an open window”. Thus, both the acoustics and ventilation performance of the new ventilated window is essential. Wind-driven natural ventilation is an effective strategy in maintaining the comfort and health of the indoor environment.