scholarly journals Studi eksperimental terhadap porositas dan hambat alir udara pada komposit penyerap suara

2018 ◽  
Vol 8 (1) ◽  
pp. 35
Author(s):  
N.H. Sari ◽  
J. Fajrin ◽  
I.G.N.K. Yudhyadi
Keyword(s):  
Experimental Investigation ◽  
Polyester Resin ◽  
Volume Fraction ◽  
Air Flow ◽  
Composite Sample ◽  
Sound Absorber ◽  
Flow Resistivity ◽  
Air Flow Resistivity

In this paper, we present a comprehensive analytical and experimental investigation for the determination of the air flow resistivity and porosity of sound absorber composite. The ratio of the volume fraction of fiber and polyester resin is 15, 25, 35, 55 and 65 (%).The dimensions of the absorbent composite sample are 29 mm x 20 cm (diameter x thickness). Porosity and Air flow resistivity of composites have been investigated. The results showed that the porosity of the composites increased with increasing amount of fiber due to the interface between fiber and resinless dense. In contrast, the air flow resistivity values are lower with a denser resin and fiber interface.

scholarly journals Studi eksperimental terhadap porositas dan hambat alir udara pada komposit penyerap suara

2018 ◽  
Vol 8 (1) ◽  
Author(s):  
Nasmi Herlina Sari ◽  
Jauhar Fajrin ◽  
IGNK Yudhyadi
Keyword(s):  
Experimental Investigation ◽  
Polyester Resin ◽  
Volume Fraction ◽  
Air Flow ◽  
Composite Sample ◽  
Sound Absorber ◽  
Flow Resistivity ◽  
Air Flow Resistivity

In this paper, we present a comprehensive analytical and experimental investigation for the determination of the air flow resistivity and porosity of sound absorber composite. The ratio of the volume fraction of fiber and polyester resin is 15, 25, 35, 55 and 65 (%).The dimensions of the absorbent composite sample are 29 mm x 20 cm (diameter x thickness). Porosity and Air flow resistivity of composites have been investigated. The results showed that the porosity of the composites increased with increasing amount of fiber due to the interface between fiber and resinless dense. In contrast, the air flow resistivity values are lower with a denser resin and fiber interface.

scholarly journals Studi eksperimental terhadap porositas dan hambat alir udara pada komposit penyerap suara

2018 ◽  
Vol 8 (2) ◽  
Author(s):  
Nasmi Herlina Sari
Keyword(s):  
Experimental Investigation ◽  
Polyester Resin ◽  
Volume Fraction ◽  
Fibrous Composite ◽  
Air Flow ◽  
Composite Sample ◽  
Sound Absorber ◽  
Flow Resistivity ◽  
Air Flow Resistivity

In this paper, we present a comprehensive analytical and experimental investigation for the determination of the air flow resistivity and porosity of sound absorber composite. The ratio of the volume fraction of fiber and polyester resin is 15, 25, 35, 55 and 65 (%).The dimensions of the absorbent composite sample are 29 mm x 20 cm (diameter x thickness). Porosity and Air flow resistivity of composites have been investigated. The results showed that the porosity of the composites increased with increasing amount of fiber due to the interface between fiber and resinless dense. In contrast, the air flow resistivity values are lower with a denser resin and fiber interface.Keywords: Air Flow Resistivity, Fibrous composite, Porosity, Sound Absorber 

scholarly journals Experimental Investigation of Water Droplet Heating in Humidified Air Flow

Mechanika ◽  
2019 ◽  
Vol 25 (6) ◽  
pp. 434-441
Author(s):  
Virginijus RAMANAUSKAS ◽  
Egidijus PUIDA ◽  
Gintautas MILIAUSKAS ◽  
Linas PAUKŠTAITIS
Keyword(s):  
Experimental Investigation ◽  
Flue Gas ◽  
Volume Fraction ◽  
Air Flow ◽  
Experimental Methods ◽  
Gas Temperature ◽  
Transfer Processes ◽  
Air Heating ◽  
Mass Transfer Processes ◽  
Humidified Air

The droplet heat and mass transfer processes are important for liquid spraying technologies, which were investigated when applying the theoretical and numerical modelling and experimental methods. In this work, results of experimental research on the heating of water droplets in purified biofuel flue gas were presented and analyzed. In experimental investigation, the purified biofuel flue gas is replaced by additionally humidified airflow. The experiment methods and results processing are discussed and provided. Impact of air heating and additional humidification was estimated. While heating and additionally humidifying the air flow was focused on boundary conditions in condense economizers, when the flue gas temperature is 20-100°C and water vapor volume fraction is 0-0.2.

scholarly journals On the influence of the air flow resistivity on the measurement of the dynamic stiffness of underlays for floating floors

Acta Acustica ◽  
2021 ◽  
Vol 5 ◽  
pp. 13
Author(s):  
Martin Schmelzer ◽  
Volker Wittstock ◽  
Heinrich Bietz ◽  
Spyros Brezas
Keyword(s):  
Physical Model ◽  
Dynamic Stiffness ◽  
Air Flow ◽  
Edge Length ◽  
Insulating Materials ◽  
Airborne Noise ◽  
Flow Resistivity ◽  
Air Flow Resistivity

The dynamic stiffness of underlays is a required quantity to predict the reduction of impact and airborne noise transmitted through floating floors. The measurement of the dynamic stiffness is standardized in ISO 9052–1 using a floating floor section of 200 mm edge length. If open pore insulating materials are used for the underlay, the air flow and its flow resistivity have a significant impact on the dynamic stiffness. The standard ISO 9052–1 therefore calculates the dynamic stiffness based on three distinct intervals of the flow resistivity. This contribution analyses and discusses the mathematical origin and practical consequences of these three standardized intervals and proposes an improvement for a revision of the standard. The current physical model is expanded to examine if the results, that are gained from the geometrically reduced systems of the standard, can be transferred to room sized systems.

Classification of soils based on acoustic impedance, air flow resistivity, and other physical soil parameters

1985 ◽  
Vol 78 (3) ◽  
pp. 970-980 ◽  
Author(s):  
M. J. M. Martens ◽  
L. A. M. van der Heijden ◽  
H. H. J. Walthaus ◽  
W. J. J. M. van Rens
Keyword(s):  
Acoustic Impedance ◽  
Air Flow ◽  
Soil Parameters ◽  
Flow Resistivity ◽  
Air Flow Resistivity
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