Driving positive educational outcomes through smart specification of interior acoustic solutions

<h2>Children spend an average of four to five hours a day in classrooms&comma; according to the Association of Australasian Acoustical Consultants&comma; and experts estimate that between 45 and 75 percent of that time is spent comprehending their teachers’ and classmates’ speech &lpar;Mealings&rpar;&period;<&sol;h2>&NewLine;<p>If students are unable to hear what is going on&comma; they often become disconnected and can struggle to concentrate&period; The acoustic environment should be a prime consideration for any new classroom design&period; Modern educational practices and learning spaces have evolved&colon; it is now expected that contemporary learning environments facilitate collaboration and interaction&period;<&sol;p>&NewLine;<p>This often requires high noise levels with lots of conversation&period; Studies such as collaborative research undertaken last year by the University of Queensland and   Monash University on &OpenCurlyDoubleQuote;the &OpenCurlyQuote;acoustic health’ of primary school classrooms in Brisbane&comma; Australia”&comma; have shown that when it comes to acoustic performance&comma; Australian classrooms are well behind the mark&period;<&sol;p>&NewLine;<p>However&comma; designers and specifiers can make a difference in this area&period; Interior acoustic solutions are a high-performance means of reducing reverberation and other noise within educational environments&comma; creating better learning outcomes for children&period; They are lightweight and easy to install&comma; meaning they retrofit within existing spaces and new projects&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;16851" aria-describedby&equals;"caption-attachment-16851" style&equals;"width&colon; 680px" class&equals;"wp-caption aligncenter"><img class&equals;"size-full wp-image-16851" src&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;wp-content&sol;uploads&sol;2020&sol;09&sol;MBGREENEDGE30PRINT&period;jpg" alt&equals;"" width&equals;"680" height&equals;"453" &sol;><figcaption id&equals;"caption-attachment-16851" class&equals;"wp-caption-text">Image supplied by Autex<&sol;figcaption><&sol;figure>&NewLine;<h3><strong>What are the issues around poor acoustics in educational environments&quest; <&sol;strong><&sol;h3>&NewLine;<p>Excessive noise and reverberation in classrooms can make it difficult to hear what is being said&period; This results in what is known as a low Speech Transmission Index &lpar;STI&rpar;&colon; put simply&comma; the acoustics of the space make it difficult for students to determine what is being said&period; An Australian study found that more than 90 percent of Brisbane classrooms failed to achieve recommended STI levels&comma; meaning that children would struggle to adequately decipher information in these environments &lpar;Wilson&rpar;&period;<&sol;p>&NewLine;<p>Younger children are particularly susceptible to the harmful effects of unfavourable acoustics&colon; research indicates that poor school acoustics can lead to decreased learning outcomes for students through impaired speech perception and listening comprehension&period; In addition&comma; these issues are exacerbated in children with learning difficulties&comma; hearing impairment&comma; and&sol;or English as a second language &lpar;ESL&rpar;&period;<&sol;p>&NewLine;<p>Noise-induced disruption can also have an impact on students’ abilities to perform non-auditory tasks&period; Excessive reverberation was linked to poor performance in verbal tasks&comma; and high exposure to ambient noise with a reduced reading level &lpar;Berg&rpar;&period; This shows that acoustic issues can negatively affect children’s wider cognition and brain function at a time that is crucial for the healthy development of neural pathways &lpar;Flexer&rpar;&period;<&sol;p>&NewLine;<p>Poor classroom acoustics can also harm a teacher’s greatest tool&semi; vocal damage from excessive shouting poses serious occupational health and safety concerns&period; In fact&comma; voice disorders are considered one of the major hazards of school teaching&comma; affecting relationships between staff and students&comma; as well productivity &lpar;Mattiskea&rpar;&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;16849" aria-describedby&equals;"caption-attachment-16849" style&equals;"width&colon; 680px" class&equals;"wp-caption aligncenter"><img class&equals;"size-full wp-image-16849" src&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;wp-content&sol;uploads&sol;2020&sol;09&sol;1P0A3147-2&period;jpg" alt&equals;"" width&equals;"680" height&equals;"453" &sol;><figcaption id&equals;"caption-attachment-16849" class&equals;"wp-caption-text">Image supplied by Autex<&sol;figcaption><&sol;figure>&NewLine;<h3><strong>The need for acoustic-focused learning environments<&sol;strong><&sol;h3>&NewLine;<p>The traditional idea of a theatre-style classroom with students’ desks facing a teacher at one end is&comma; for the most part&comma; obsolete&period; 21<sup>st<&sol;sup> century education practices have evolved to a more immersive style&comma; heavily integrated with technology as a means of preparing students for the realities of the modern world&period; Classrooms are now &OpenCurlyQuote;learning environments’ centred around collaboration&comma; problem solving&comma; and interaction&period; These endeavours are all rooted in the development of strong language and clear communication practices&comma; highlighting the need for good acoustic design&period;<&sol;p>&NewLine;<p>A detailed 2019 study conducted acoustic surveys of 33 classrooms in Brisbane and found significant deficiencies in their acoustic performance&period; Unoccupied sound levels are used as an indication of ambient noise pollution&period; These ranged from 25-50 dBA&comma; meaning 25 percent of classrooms were above the recommended 40dBA maximum&comma; according to the Association of Australasian Acoustical Consultants&period; In addition&comma; classrooms showed reverberation times &lpar;RTs&rpar; of up to 1&period;26 seconds&comma; meaning 79 percent of classrooms were above the suggested 0&period;6 second maximum&period; Occupied sound levels were as loud as 64&period;8dBL&comma; and STIs as low as 0&period;35 &lpar;on a scale of 0-1&rpar;&comma; meaning 92 percent of classrooms failed in these regards&period; When compared with similar studies using datasets from Sydney and broader Australia&comma; findings were consistent with the results of the Brisbane study &lpar;Mealings&rpar;&period; Overall&comma; the high percentage of classrooms not meeting the recommended performance requirements for beneficial learning environments highlights a need for better acoustic solutions&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;16852" aria-describedby&equals;"caption-attachment-16852" style&equals;"width&colon; 680px" class&equals;"wp-caption aligncenter"><img class&equals;"size-full wp-image-16852" src&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;wp-content&sol;uploads&sol;2020&sol;09&sol;MCLELLANBUSH8&period;jpg" alt&equals;"" width&equals;"680" height&equals;"453" &sol;><figcaption id&equals;"caption-attachment-16852" class&equals;"wp-caption-text">Image supplied by Autex<&sol;figcaption><&sol;figure>&NewLine;<h3><strong>Regulations and guidelines<&sol;strong><&sol;h3>&NewLine;<p>The <em>Building Code of Australia<&sol;em> &lpar;BCA&rpar; does not offer specific recommendations for educational facilities&period; It does&comma; however&comma; outline performance requirements as they relate to specific building types&colon; class 9b buildings include public spaces such as kindergartens&comma; childcare centres&comma; schools and universities<a href&equals;"&num;&lowbar;edn1" name&equals;"&lowbar;ednref1"><sup>&lbrack;i&rsqb;<&sol;sup><&sol;a>&period; This may serve to assist specifiers with specific information relating to minimising airborne and structural noise transfer due to construction elements like heating&comma; ventilations and air conditioning &lpar;HVAC&rpar; systems&comma; but will not provide guidance with the specific mechanics of acoustic treatment for learning spaces&period; Specifiers may draw from <em>AS&sol;NZS 2107&colon;2016 &&num;8211&semi; Acoustics &&num;8211&semi; Recommended design sound levels and reverberation times for building interiors&comma;<&sol;em> which contains acoustic design criteria for building interiors and provides a useful baseline for performance&period;<&sol;p>&NewLine;<p>Again&comma; this does not speak directly to the specific requirements of educational facilities so should be used as a guideline only&period; There are&comma; however&comma; state-based guidelines that must be adhered to&period; For example&comma; the <em>NSW Educational Facilities and Guidelines<&sol;em> outlines mandatory parameters on acoustic indicators&comma; such as reverb times&comma; impact sound insulation&comma; and more&period; Similarly&comma; the <em>Victorian School Building Authority’s Building Quality Standards Handbook<&sol;em> outlines deemed-to-satisfy provisions for onsite sound reduction measurements&comma; amongst other things&period; Specifiers should contact reputable acoustics experts to discuss best practice and what solutions would work best for their particular project&period;<&sol;p>&NewLine;<figure id&equals;"attachment&lowbar;16853" aria-describedby&equals;"caption-attachment-16853" style&equals;"width&colon; 680px" class&equals;"wp-caption aligncenter"><img class&equals;"size-full wp-image-16853" src&equals;"https&colon;&sol;&sol;www&period;school-news&period;com&period;au&sol;wp-content&sol;uploads&sol;2020&sol;09&sol;MBGREENEDGE8PRINT&period;jpg" alt&equals;"" width&equals;"680" height&equals;"1018" &sol;><figcaption id&equals;"caption-attachment-16853" class&equals;"wp-caption-text">Image supplied by Autex<&sol;figcaption><&sol;figure>&NewLine;<h3><strong>Interior acoustic solutions&colon; high performance&comma; low fuss<&sol;strong><&sol;h3>&NewLine;<p>Noise can never be eliminated entirely&comma; and nor should it be&period; The goal in acoustic design is to create a space that offers a high signal-to-noise ratio&semi; that is&comma; that the signal &lpar;in the case of classrooms&comma; most often a teacher’s voice&rpar; can be heard clearly above background noise&period;<&sol;p>&NewLine;<p>In the educational context&comma; noise comes most often from four sources&colon;<&sol;p>&NewLine;<ul>&NewLine;<li>External noise intrusion<&sol;li>&NewLine;<li>Noise generated by building services &lpar;such as HVAC systems&rpar;<&sol;li>&NewLine;<li>Noise transferred between individual spaces&comma; including impact noise<&sol;li>&NewLine;<li>Control of reverberation times to enhance speech intelligibility<&sol;li>&NewLine;<&sol;ul>&NewLine;<p>Part of designing for optimum acoustics is the shape and design of the structure itself&semi; whether rooms are large or small&comma; have high ceilings or low&comma; and what construction materials are used &&num;8211&semi; for example&comma; wood and concrete have different acoustic properties&period; However&comma; many Australian schools are housed in buildings as old as 100 years&comma; meaning that structural changes are not possible&period; Interior acoustic solutions can solve problems in these circumstances&comma; as well as in new builds and contemporary designs&period;<&sol;p>&NewLine;<p>Interior acoustic solutions absorb noise&comma; preventing it from being reverberated within a room&comma; while also providing a thicker membrane to protect from ambient&comma; airborne&comma; and structure-borne noise&period;<&sol;p>&NewLine;<p>They provide particularly effective noise reduction in the region of 1kHz-4kHz&comma; which is the region most sensitive to the human ear&comma; and the region most occupied by the human voice&period;<&sol;p>&NewLine;<p>Interior acoustic solutions are frequently supplied as tiles or panels&comma; making them easy to transport and easy to install&period; Some are available with simple yet strong adhesive backing&comma; making them possible for people with basic trade experience to install&period; Where possible&comma; specifiers should opt for 100 percent polyester fibre interior acoustic solutions for education projects&period; In addition to providing excellent acoustic performance&comma; polyester fibre is non-toxic&comma; non-allergenic and contains no irritants&comma; making it safe for use around children&period;<&sol;p>&NewLine;<p>Interior acoustic solutions offer a versatile&comma; customisable&comma; functional aesthetic for educational design applications&period; They are available in a wide range of standard colours&comma; with custom colours available for manufacturing as required&period; The colours can also be alternated between panels to keep in line with the wider interior design&period; Their hook-and-loop receptive surface means they can be used as staple or pin boards&comma; or have things hung from them with velcro &&num;8211&semi; including children’s artwork in education spaces&period;<&sol;p>&NewLine;<p><strong>References<&sol;strong><&sol;p>&NewLine;<h6>Berg&comma; Frederick&comma; et al&period; &OpenCurlyDoubleQuote;Classroom Acoustics&colon; The Problem&comma; Impact&comma; and Solution”&period;<em> Language&comma; Speech&comma; and Hearing Services in Schools<&sol;em>&comma; vol&period; 27&comma; no&period; 1&comma; 1996&comma; pp&period; 16-20&period;<&sol;h6>&NewLine;<h6>Flexer&comma; Carol&period; &OpenCurlyDoubleQuote;The Impact of Classroom Acoustics&colon; Listening&comma; Learning&comma; and Literacy&period;” <em>Seminars in Hearing&comma;<&sol;em> vol&period; 25&comma; no&period; 2&comma; 2004&comma; pp&period; 134-40&period;<&sol;h6>&NewLine;<h6>Mattiskea&comma; Jacqueline&comma; et al&period; &OpenCurlyDoubleQuote;Vocal problems among teachers&colon; a review of prevalence&comma; causes&comma; prevention&comma; and treatment&period;” <em>Journal of Voice&comma;<&sol;em> vol&period; 12&comma; no&period; 4&comma; 1998&comma; pp&period; 489-99&period;<&sol;h6>&NewLine;<h6>Mealings&comma; Kiri&period; &OpenCurlyDoubleQuote;Classroom acoustic conditions&colon; Understanding what is suitable through a review of national and international standards&comma; recommendations&comma; and live classroom measurements&period;” <em>Proceedings of Acoustics&period;<&sol;em> 2016&comma; Brisbane&comma; Australia&comma; 9-11 November 2016&period; Macquarie University&comma; 2016&comma; pp&period; 1-10&period;<&sol;h6>&NewLine;<h6>Wilson&comma; Wayne&comma; et al&period; &OpenCurlyDoubleQuote;The &OpenCurlyQuote;acoustic health’ of primary school classrooms in Brisbane&comma; Australia&period;” <em>Speech&comma; Language and Hearing<&sol;em>&comma; 2019&period;  DOI&colon; 10&period;1080&sol;2050571X&period;2019&period;1637042&period;<&sol;h6>&NewLine;<p>&nbsp&semi;<&sol;p>&NewLine;<p><strong>Article supplied by Autex<&sol;strong><&sol;p>&NewLine;<p>For over 50 years&comma; Autex has been a market leader in the manufacture and development of textiles and advanced fibre technology&period; Beginning in New Zealand as a manufacturer of jute-based carpet and expanding its operation to Australia in 1991&comma; Autex has stayed at the forefront of advances in technology to become a central innovator in textile engineering&period; Autex now offers a wide range of innovative and sustainable acoustic textiles to meet the ever-changing needs of the contemporary architecture and design industries&period;<&sol;p>&NewLine;<p>Autex’s range of interior acoustic solutions are ideal for use in Australian educational&comma; commercial&comma; hospitality and retail applications&period; Made from 100 percent polyester fibre and backing&comma; they have no chemical binders and are certified low Volatile Organic Compounds &lpar;VOCs&rpar;&period; They are manufactured using a minimum of 60 percent recycled materials and are resistant to colour fade&comma; making them a durable and long-lasting solution for educational spaces&period;<&sol;p>&NewLine;<p>Autex’s panel and Peel &OpenCurlyQuote;n’ Stick products are lightweight and easy to install&comma; with a large range of bespoke and customisable ceiling products &&num;8211&semi; such as the Frontier&&num;x2122&semi; and Horizon&&num;x2122&semi; systems &&num;8211&semi; also available&period; For further information on product ranges&comma; installation&comma; maintenance&comma; or to discuss the bespoke needs of a particular project&comma; designers&comma; and specifiers can contact their local specification manager&period;<&sol;p>&NewLine;<p><a href&equals;"&num;&lowbar;ednref1" name&equals;"&lowbar;edn1"><&sol;a> <&sol;p>&NewLine;