EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD
Decreasing the noise level on the Light Railway Transit (LRT) is desirable to enhance acoustic comfort on the LRT. This study focuses on reducing the noise level of the LRT train floor. This decrease in noise level is marked by a reduction in sound power level, an increase in the value of transmi...
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id-itb.:477702020-06-20T15:47:46ZEVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD Khairin Nisa, Ainil Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Final Project Light Railway Transit, Transmission Losses, Sound Power Level, Waveguide Finite Element/ Boundary Element, Sound Transmission Class INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/47770 Decreasing the noise level on the Light Railway Transit (LRT) is desirable to enhance acoustic comfort on the LRT. This study focuses on reducing the noise level of the LRT train floor. This decrease in noise level is marked by a reduction in sound power level, an increase in the value of transmission losses and an increase in the value of Sound Transmission Class (STC). The LRT train floor which has an extruded panel model structure is modeled using the Waveguide Finite Element - Boundary Element method. Simplification of the LRT train floor, double panel floor and simple double panel floor, is also modeled to determine the effect of each structure on the LRT train floor on the dispersion curve, mobility, sound power level, transmission loss value, and STC. to Variations of extruded panel tilt angle, density, damping loss factor, panel thickness, and thickness of the cavity on the LRT train floor is done to obtain alternative designs of LRT train floor that increase its transmission loss performance. Simulation results show that the STC value of the LRT train floor is 41 with a mass per length of 60 kg/m, with deficiencies at frequencies around 125 Hz, 500 Hz, 1000 Hz, and 3000 Hz. Increasing the thickness of the cavity can increase the STC value with a small increase in mass per length. Increasing panel thickness can increase the value of STC with a significant increase in mass per length. Increasing damping loss factor can increase the value of STC, but only increase the value of transmission loss in the frequency around modes. Increasing the density of the structure can increase the value of STC with a significant increase in mass per length. Increasing extruded panel tilt angle can increase the STC value with a very small decrease in mass per length. Alternative design taken is a train floor design with a cavity thickness of 9 cm, panel thickness of 5 mm, damping loss factor of 0,1, density of 3600 kg/m3, and the tilt angle of 55????. This design has an STC value of 47 with a mass per length of 87 kg/m. text |
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Teknik (Rekayasa, enjinering dan kegiatan berkaitan) |
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Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Khairin Nisa, Ainil EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD |
| description |
Decreasing the noise level on the Light Railway Transit (LRT) is desirable to
enhance acoustic comfort on the LRT. This study focuses on reducing the noise level
of the LRT train floor. This decrease in noise level is marked by a reduction in
sound power level, an increase in the value of transmission losses and an increase
in the value of Sound Transmission Class (STC). The LRT train floor which has an
extruded panel model structure is modeled using the Waveguide Finite Element -
Boundary Element method. Simplification of the LRT train floor, double panel floor
and simple double panel floor, is also modeled to determine the effect of each
structure on the LRT train floor on the dispersion curve, mobility, sound power
level, transmission loss value, and STC. to Variations of extruded panel tilt angle,
density, damping loss factor, panel thickness, and thickness of the cavity on the LRT
train floor is done to obtain alternative designs of LRT train floor that increase its
transmission loss performance.
Simulation results show that the STC value of the LRT train floor is 41 with a mass
per length of 60 kg/m, with deficiencies at frequencies around 125 Hz, 500 Hz, 1000
Hz, and 3000 Hz. Increasing the thickness of the cavity can increase the STC value
with a small increase in mass per length. Increasing panel thickness can increase
the value of STC with a significant increase in mass per length. Increasing damping
loss factor can increase the value of STC, but only increase the value of
transmission loss in the frequency around modes. Increasing the density of the
structure can increase the value of STC with a significant increase in mass per
length. Increasing extruded panel tilt angle can increase the STC value with a very
small decrease in mass per length. Alternative design taken is a train floor design
with a cavity thickness of 9 cm, panel thickness of 5 mm, damping loss factor of 0,1,
density of 3600 kg/m3, and the tilt angle of 55????. This design has an STC value of 47
with a mass per length of 87 kg/m. |
| format |
Final Project |
| author |
Khairin Nisa, Ainil |
| author_facet |
Khairin Nisa, Ainil |
| author_sort |
Khairin Nisa, Ainil |
| title |
EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD |
| title_short |
EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD |
| title_full |
EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD |
| title_fullStr |
EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD |
| title_full_unstemmed |
EVALUATION AND TREATMENT OF NOISE IN LIGHT RAILWAY TRANSIT FLOOR BASED ON WAVEGUIDE FINITE ELEMENT - BOUNDARY ELEMENT METHOD |
| title_sort |
evaluation and treatment of noise in light railway transit floor based on waveguide finite element - boundary element method |
| url |
https://digilib.itb.ac.id/gdl/view/47770 |
| _version_ |
1821999940910448640 |