Need to calculate the size of your ventilation or acoustic louvre panel relative to a give air flow and pressure drop? Or trying to ascertain pressure drop with a prescribed air flow and louvre size? It's easy with the downloadable louvre calculator. Get it here 👉 https://lnkd.in/g2m-U_D7
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3UGoBwj *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3UGoBwj *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3UGoBwj *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3UGoBwj *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3N1SinS *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3UGoBwj *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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Free Area of Acoustic Louvres Explained If you need to comply with legislation for airflow through your Acoustic Louvre application, or you need to ensure your plant isn't starved of air, then you need to know that the % Free Area has been calculated accurately. Otherwise you might specify an Acoustic Louvre that fails to comply because it claims to have a higher, and yet inaccurate % Free Area than larger, correctly sized and more expensive Acoustic Louvres. BSRIA has confirmed that our method of calculating the % Free Area for Caice Acoustic Louvres is in accordance with BS EN 13141-1:2019*. See our Acoustic Louvre brochure, where we provide our data in accordance to BS EN 13141-1:2019. https://bit.ly/3UGoBwj *BSI Standard; BS EN 13141-1:2019 section 5.4 Free area states that the “Free area shall be calculated from the measurements in one plane of the air transfer device. The measurement plane shall be such that the total cross section area of the air flow passage(s) crossing the minimum.” #FreeArea #CaiceAcoustics #AcousticLouvres
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📆 𝗠𝗮𝗿𝗸 𝘆𝗼𝘂𝗿 𝗰𝗮𝗹𝗲𝗻𝗱𝗮𝗿𝘀! We’re excited to invite you to our upcoming webinar on October 2nd at 09:00 AM (CEST), where we’ll dive into the acoustic analysis of multi-family buildings using AcouBAT by CYPE. What can AcouBAT do? AcouBAT is an innovative tool designed to analyze the acoustic properties of buildings, offering solutions for: 𝗜𝗻𝗱𝗼𝗼𝗿 𝗦𝗼𝘂𝗻𝗱 𝗜𝗻𝘀𝘂𝗹𝗮𝘁𝗶𝗼𝗻: Analyze airborne and impact sound insulation to ensure optimal acoustic conditions within your building. 𝗢𝘂𝘁𝗱𝗼𝗼𝗿 𝗦𝗼𝘂𝗻𝗱 𝗣𝗿𝗼𝘁𝗲𝗰𝘁𝗶𝗼𝗻: Evaluate how well your structure insulates against external sounds, keeping indoor spaces peaceful. 𝗥𝗲𝘃𝗲𝗿𝗯𝗲𝗿𝗮𝘁𝗶𝗼𝗻 𝗧𝗶𝗺𝗲𝘀: Calculate reverberation times and sound absorption areas to improve 𝗮coustic comfort. 𝗘𝗾𝘂𝗶𝗽𝗺𝗲𝗻𝘁 𝗡𝗼𝗶𝘀𝗲 𝗔𝘀𝘀𝗲𝘀𝘀𝗺𝗲𝗻𝘁: Measure sound pressure levels from building equipment to identify and mitigate potential noise issues. 👀 Sound interesting? Join our experienced acoustic experts for insights and practical tips on optimizing building acoustics. Don’t miss out! 👉 Register here: https://lnkd.in/eeaHz2HW
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Has anyone seen evidence or literature of correlation between the air in the HVAC return and the actual constituents in room air using IAQ monitors like HAVEN IAQ? In other words, how closely does a return air monitor mirror the existent conditions of the air in the living space?
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Air voids is a critical parameter in the design of a Bituminous mix. How to control air voids - watch this video, I am sure you will find it useful. https://lnkd.in/gKnqW7Nk
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