Abstract
An important challenge for acoustic engineers in room acoustics design is related to the acoustic performance of multi-purpose auditoriums, which are typically designed to suit several performance requirements. With this intent, the analysis of several scenarios is usually performed individually, and then an acceptable solution, that may be adapted to several situations, is selected. One way of providing a more appropriate acoustic performance for each function of the auditorium is using variable sound absorption techniques to control reverberation and other relevant acoustic phenomena associated to sound perception. In this paper, the acoustic behavior of a perforated system that may be suitable for achieving a variable acoustic solution for room acoustic design is addressed. In the design of a cost-effective solution, the surface appearance is kept unchanged, while variable acoustic behavior is achieved either by closing the holes in the back face of the perforated panel or by placing a porous material in varying positions inside the backing cavity, thus accomplishing different acoustic requirements within a multipurpose auditorium. An analytical approach, based on the transfer matrix method is employed for preliminary acoustic sound absorption assessment provided by the system and to develop optimized solutions. Diffuse sound absorption is then computed and used to simulate, by the ray-tracing method, the acoustic behavior of a multipurpose auditorium to demonstrate efficient acoustic performance for different types of use.
Highlights
Most of the existing auditoriums of many cities have been designed to accommodate one type of use, while in common practice, these are used for different and complementary purposes
The results evaluated by the analytical approach and the experimental tests for the two analyzed configurations are given in Figure 3c, where it is possible to verify that the analytical predictions are in good agreement with the experiments and allow to identify the peak of sound absorption and general acoustic behavior provided by both configurations
While its surface appearance is kept constant, the acoustic properties may vary by either closing the holes of the perforated panel or changing the position of a porous material embedded inside the air gap
Summary
Most of the existing auditoriums of many cities have been designed to accommodate one type of use, while in common practice, these are used for different and complementary purposes. During the design of a room, the first parameter to be analyzed is the reverberation time, being possible to change this metric by varying the absorption inside the auditorium This can be accomplished by using systems composed of combinations of porous or fibrous materials that, through their properties (such as porosity, fiber length, density or material thickness), allow to enhance absorption in the higher frequencies, volume absorbers [12,13], such as air cavities, and panel absorbers. A passive variable acoustics concept, based on the ideas described, is developed and its acoustic performance is analyzed With this aim, sound absorption systems that may be suitable for achieving a variable acoustic solution, for room acoustic design, are addressed, making use of perforated panels, porous materials and air gaps of varying thickness. Several acoustic parameters are calculated and compared with different requirements, established for different types of use
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
