The purpose of correcting or insulating the spaces was to obtain a good acoustics in locations used at a reasonable cost. The acoustic correction was achieved by using sound-absorbing panels made from low-density polyethylene foam with a closed calibrated cell structure, placed on the walls and on the ceiling, and sound-insulation panels made of geometrically spherical composites. The optimal distribution of the sound absorbing panels was made using commercial software for simulating a scattering of sound pressure levels in a room. Reverberation time was measured at various frequencies with a class A phonometer, using an Integrated Impulse Response, in accordance with the international standard ISO 3382. For each measurement position variations of reverberation time in terms of time and frequency are measured. The results show a substantial accordance with the simulation in the design phase, allowing the authors to conclude that the proposed development is characterized by good performance in terms of cost-benefit.