Industrial Noise Control and Sound Attenuation Design Applications
Sound Propagation Concepts, Acoustic Materials Concepts, Design of Barriers, Enclosures, Attenuators, Louvers and Silencers
17 - 19 Feb 2025 Online (Zoom)
19 - 21 May 2025 Online (Zoom) 18 - 20 Aug 2025 Online (Zoom) 17 - 19 Nov 2025 Online (Zoom) About this Course: |
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Industrial noise control receives increasing importance over the years due to strict noise regulations imposed by many nations worldwide. Noise sources in industry can be from power generation equipment like diesel engines, turbines, generators, motors and exhaust jet gases. They can be from HVAC equipment like chillers, fans and pumps. They can be from factory machines, fabrication workshops and production lines. They also can be from vehicles or the roads.
For example most of the sold diesel generators nowadays are equipped with acoustic enclosures (canopies), to reduce the noise coming from the generators to a level that is safe for human ears as per OSHA standards. One challenge here is that this noise is coming from different sources within the diesel generator and with different frequency spectrum and amplitudes. The other challenge is that when the enclosure is dropped over the diesel generator unit it should be designed to allow for the air to flow freely in order to cool the unit and supply the necessary air for combustion, this is not easy as you have to reduce the noise and at the same time allow the air to flow without causing loss of pressure across the enclosure.
One year license of ACOSTIX for one year will be available to all participants.
This 3-days course will explain the sound control engineering then it will cover the sound propagation, reflection and absorption, then will cover the noise criteria, noise absorption materials and criteria to select which material. Then the course will talk about the design of walls, barriers and enclosures to meet the noise criteria, design the rectangular sound attenuators and acoustic louvers to achieve the noise attenuation and maintain the low pressure drop. Then will discuss the design of exhaust silencers. The diesel generators and HVAC noise will be the study cases of the course because they cover different noises and pressure drop problems.
The course is full of exercises and design workshop. 50% will be presentations and 50% will be practical calculations and design work. All participants will be engaged in practical work during the course.
For example most of the sold diesel generators nowadays are equipped with acoustic enclosures (canopies), to reduce the noise coming from the generators to a level that is safe for human ears as per OSHA standards. One challenge here is that this noise is coming from different sources within the diesel generator and with different frequency spectrum and amplitudes. The other challenge is that when the enclosure is dropped over the diesel generator unit it should be designed to allow for the air to flow freely in order to cool the unit and supply the necessary air for combustion, this is not easy as you have to reduce the noise and at the same time allow the air to flow without causing loss of pressure across the enclosure.
One year license of ACOSTIX for one year will be available to all participants.
This 3-days course will explain the sound control engineering then it will cover the sound propagation, reflection and absorption, then will cover the noise criteria, noise absorption materials and criteria to select which material. Then the course will talk about the design of walls, barriers and enclosures to meet the noise criteria, design the rectangular sound attenuators and acoustic louvers to achieve the noise attenuation and maintain the low pressure drop. Then will discuss the design of exhaust silencers. The diesel generators and HVAC noise will be the study cases of the course because they cover different noises and pressure drop problems.
The course is full of exercises and design workshop. 50% will be presentations and 50% will be practical calculations and design work. All participants will be engaged in practical work during the course.
Learning Objectives:
- Understand the fundamentals of sound physics
- Understand the propagation of sound in free field and inside rooms/enclosures
- Understand the dB, dBA, SPL and SWL and their calculations
- Understand the acoustic materials absorption, reflection and transmission characteristics.
- Learn how to estimate the average sound absorption coefficient for a room or enclosure
- Learn the sound specification and estimation for some industrial equipment
- Understand the calculations of SWL/SPL in free field
- Understand the calculations of SWL/SPL in accordance with ISO 3744
- Understand the calculations of average SPL inside the rooms
- Understand how to calculate the SPL in one room from sound source in another room
- Learn how to calculate SPL outside the room/enclosure from a sound source inside the room/enclosure through a wall
- Learn how to design a wall or partition to achieve certain transmission loss (TL)
- Learn how to design acoustic ducts
- Learn how to design duct sound attenuators
- Learn how to design acoustic louvers
- Learn the calculations of pressure drop across the attenuators and acoustic louvers
- Learn the concepts and procedures of sound attenuation in HVAC applications
Course Contents:
Day-1
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Day-2
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Day-3
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One Year License of Acostix Software is available to all participants of the course
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