Abstract:
Sound absorption barriers made of plants are used as an environmentally friendly
solution to reduce noise pollution. In cities of Sri Lanka, noise pollution is one of
the major problems that needs attention. This paper compares noise absorption
power of two fruit plants, Anacardium occidentale (cashew) and Mangifera indica
(mango), measured by ‘reverberation room method’. The preliminary result
presented here is part of an attempt to identify locally available plants as sound
barriers. A reverberation room, with appropriate dimensions and diffusers to
satisfy the ISO 354:2003 standard with uniform sound distribution in the working
area, was designed and constructed to perform the experiment. B&K type 2250L
hand-held analyzer, Dodecahedron Omni Directional B&K speaker, internal sound
generator with B&K power amplifier and A16 Mega Pixel camera were the main
equipment used. Plant holder with dimensions 2.4 x 2.4 m2 was placed in the
middle of the reverberation room to hang the testing plant samples. Speaker and
the analyzer were placed at appropriate locations keeping 1m away from the
sample and 1m above the ground. Special care was taken to keep plant samples
alive during the process. Reverberation Time (RT30) was measured using
reverberation room method. Thirty (30) measurements were taken for each plant
sample, at three different locations of the analyzer, repeating 10 times at each
location. The procedure was repeated for three different samples of each plant
type. Sound Absorption Coefficient (α) was calculated using Sabine’s formula.
Variations of RT30 and α with frequency were plotted. RT30 decreases and α
increases with the increase of frequency for both samples. M. indica (mango) had
lower RT and higher α than A. occidentale(cashew) in the frequency range (1000-
3150 Hz) studied. At 2500 Hz, α of M. indica (α =0.295) is 28.8% higher than that
of A. occidentale (α =0.229) indicating mango plants are better than cashew plants
for noise absorption. Further studies are in progress to study other plant types.