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Experimental Investigation of Reflection of Airborne Noise at Duct TerminationsMichaud, Alexander Page 16 May 2007 (has links)
Noise between 25-500 Hz is a common problem in Heating, Ventilating, and Air Conditioning (HVAC) systems. The American Society of Heating, Refrigerating, and Air-Conditioning Engineers (ASHRAE) Handbook lists values of end reflection loss (ERL), a frequency dependent parameter describing energy reflected back up a duct at a termination impedance, to help engineers design and account for noise. The ASHRAE Handbook does not account for common termination variations and only lists ERL values using octave bands down to 63 Hz. This thesis experimentally determined the ERL of a variety of rectangular duct configurations and termination conditions between 25-500 Hz. This research also compared experimental ERL results with analytic predictions and ASHRAE Handbook values. Seven duct sizes were tested, from 6X6 to 18X54 inches. Duct termination baffle hardness was varied between acoustically hard (plywood) and soft (ceiling tiles) for the 6X6, 6X10, and 6X18 ducts. Five duct termination distances above the termination baffle were tested, between flush and 1D for the 6X10 and 6X18 ducts and between flush and 5D for the 6X6 duct, where D equals the duct s effective diameter. Diffusers and flex duct configurations were installed at the end of the rigid duct to test their effect on ERL on the 6X6, 6X10, and 6X18 ducts. ERL was determined using an adaptation of the ASTM E1050 Standard, an application of the two-microphone impedance tube method. Experimental results closely conformed to analytic predictions and are an improvement over ASHRAE Handbook ERL values. The results indicate that baffle hardness has a negligible impact on ERL, which contradicts the ASHRAE assumption that diffusers that terminate in a suspended lay-in acoustic ceiling can be treated as terminating in free space. Termination distance above the baffle has a negligible impact on ERL at distances less than six inches for the 6X6 duct. Termination distances above the baffle greater than six inches exhibit limited free space ERL behavior for the 6X6 duct. The use of flex duct greatly reduces low frequency ERL and this is not accounted for by the ASHRAE Handbook. The impact from flex duct usage also negates any influence from downstream termination variations.
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Composite plaster cement-based electromagnetic wave absorberPretorius, Johann Christiaan January 2013 (has links)
The electromagnetic wave absorption characteristics of composite cement-based building
material have attracted much interest in recent times. Researchers have mainly focused on
the 2 GHz to 12 GHz frequency range. Mobile and wireless communication systems use
frequencies from 800 MHz upwards. The determination of characteristics such as reflection
loss, absorption, attenuation and shielding effectiveness are crucial in the evaluation
and development of these materials for the building industry. Absorption is an indication of
how much of the EMW energy enters the material. Attenuation indicates how much of the
absorbed energy is converted into other forms of energy by the material. Shielding effectiveness
(SE) is a combination of reflection loss, attenuation and multiple internal reflections
and attenuations.
This research determined these characteristics by measuring the S11 and S21 parameters
of the composite cement-based material in the GSM and WiFi frequency bands. The time domain gating function of a vector network analyser is applied to measure the reflection
from the material. The data was then used to obtain the reflection and absorption losses
in the frequency bands. The transmission loss was measured by placing the sample in the
propagation path between two antennas.
MnZn-ferrite and electrolytic manganese dioxide in powder form were evaluated as absorber
material to increase the permeability of the cement-based material to improve absorption
and attenuation capabilities to create a cost-effective practical electromagnetic wave absorber.
The compound of the cement-based material was cement, sifted river sand and filler
powder.
The results achieved in the research showed the uniqueness of electrolytic manganese dioxide
as filler in composite cement based material for electromagnetic wave shielding effectiveness
improvement. The combined measurement techniques used in this research were
uniquely used to determine the required electromagnetic wave absorption characteristics and
shielding effectiveness of 10 dB was measured in the GSM850 and GSM900 frequency
bands. / Dissertation (MEng)--University of Pretoria, 2013. / gm2014 / Electrical, Electronic and Computer Engineering / unrestricted
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