A selection of recently completed interior acoustic treatment by Resonics, using Saint Gobain Ecophon sound absorption products. Visit http://.resonics.co.uk to find more!
This document provides details about the acoustics case study of the Jamshed Bhabha Hall at the National Centre for Performing Arts (NCPA) in Mumbai, India. It describes the location, founders, and neighboring sites. It also outlines the layout of the hall, including details about the main theatre space, experimental theatre, green rooms, doors, walls, ceilings, seating, floors, and lighting fixtures. The goal is to analyze the acoustics of the performance spaces through documentation of the physical design and construction features.
Acoustical considerations in designing musical auditoriums are complex with many interrelated factors. An ideal reverberation time (RT) must balance fullness of tone with loudness, definition, and diffusion. However, RT alone does not guarantee acoustic excellence - it is one contributing factor. Definition is satisfactory if the initial time delay gap is under 20 milliseconds, direct sound is loud relative to reverberant sound, and there is no echo. Providing adequate bass over large audiences is difficult since many instruments are weak in fundamentals.
The document discusses various acoustic panel materials and their properties that can be used to improve acoustics in auditoriums. It describes acoustic panels made of sound absorbing cotton and aluminum frames that provide wide frequency sound absorption. It also mentions decorative acoustic wall panels that have both acoustic and decorative functions. Acoustic tiles, drywall, carpet, foam and eco-friendly absorption materials are outlined with their acoustic properties and applications in rooms where optimal sound is desired such as recording studios, theaters and meeting halls. Seating for auditoriums is also covered, describing molded foam, finishes and numbered/identified seats for ease of use.
Sound is a disturbance that passes through a medium as longitudinal waves, causing the sensation of hearing. The speed of sound differs depending on the molecular composition of the medium. When sound waves encounter barriers in an enclosed space, they can be reflected, absorbed, refracted, diffused, diffracted, or transmitted. Reflection occurs when the wavelength is smaller than the surface, causing the waves to hit the enclosure continuously until the energy reduces to zero. Absorption occurs when some of the wave's energy is lost through transfer to barrier molecules. Refraction is the bending of sound waves when passing between different media. [END SUMMARY]
This document discusses various types of acoustical materials used to control sound, including sound absorbers, diffusers, barriers, and reflectors. It provides details on common sound absorbing materials like acoustical foam panels, fabric-wrapped panels, wall coverings, ceiling tiles, and baffles. These materials use porous materials like foam, fiberglass, and fabrics to absorb sound waves. The document also briefly mentions sound diffusers which scatter sound reflections instead of absorbing them.
Acoustic Fencing & Noise Walls - Lee Brothers FencingAnnette Jebb
The Lee Brothers Group is a family-owned commercial fencing business operating in Melbourne since 1948. They specialize in acoustic fencing and noise walls to reduce noise pollution from sources like traffic and industry. Their acoustic fencing range includes colorbond, light timber, heavy timber, and acoustic ply fences of varying densities and designs to meet different noise reduction needs. They work with acoustic consultants and engineers to design fences that adhere to regulations and meet clients' acoustic requirements.
This document provides details about the acoustics case study of the Jamshed Bhabha Hall at the National Centre for Performing Arts (NCPA) in Mumbai, India. It describes the location, founders, and neighboring sites. It also outlines the layout of the hall, including details about the main theatre space, experimental theatre, green rooms, doors, walls, ceilings, seating, floors, and lighting fixtures. The goal is to analyze the acoustics of the performance spaces through documentation of the physical design and construction features.
Acoustical considerations in designing musical auditoriums are complex with many interrelated factors. An ideal reverberation time (RT) must balance fullness of tone with loudness, definition, and diffusion. However, RT alone does not guarantee acoustic excellence - it is one contributing factor. Definition is satisfactory if the initial time delay gap is under 20 milliseconds, direct sound is loud relative to reverberant sound, and there is no echo. Providing adequate bass over large audiences is difficult since many instruments are weak in fundamentals.
The document discusses various acoustic panel materials and their properties that can be used to improve acoustics in auditoriums. It describes acoustic panels made of sound absorbing cotton and aluminum frames that provide wide frequency sound absorption. It also mentions decorative acoustic wall panels that have both acoustic and decorative functions. Acoustic tiles, drywall, carpet, foam and eco-friendly absorption materials are outlined with their acoustic properties and applications in rooms where optimal sound is desired such as recording studios, theaters and meeting halls. Seating for auditoriums is also covered, describing molded foam, finishes and numbered/identified seats for ease of use.
Sound is a disturbance that passes through a medium as longitudinal waves, causing the sensation of hearing. The speed of sound differs depending on the molecular composition of the medium. When sound waves encounter barriers in an enclosed space, they can be reflected, absorbed, refracted, diffused, diffracted, or transmitted. Reflection occurs when the wavelength is smaller than the surface, causing the waves to hit the enclosure continuously until the energy reduces to zero. Absorption occurs when some of the wave's energy is lost through transfer to barrier molecules. Refraction is the bending of sound waves when passing between different media. [END SUMMARY]
This document discusses various types of acoustical materials used to control sound, including sound absorbers, diffusers, barriers, and reflectors. It provides details on common sound absorbing materials like acoustical foam panels, fabric-wrapped panels, wall coverings, ceiling tiles, and baffles. These materials use porous materials like foam, fiberglass, and fabrics to absorb sound waves. The document also briefly mentions sound diffusers which scatter sound reflections instead of absorbing them.
Acoustic Fencing & Noise Walls - Lee Brothers FencingAnnette Jebb
The Lee Brothers Group is a family-owned commercial fencing business operating in Melbourne since 1948. They specialize in acoustic fencing and noise walls to reduce noise pollution from sources like traffic and industry. Their acoustic fencing range includes colorbond, light timber, heavy timber, and acoustic ply fences of varying densities and designs to meet different noise reduction needs. They work with acoustic consultants and engineers to design fences that adhere to regulations and meet clients' acoustic requirements.
Office Furniture allows a customer to decide from a thick variety of the furniture systems which are offered in the market. Another big advantage these systems carry with themselves is their mobility.
Acoustical Solutions Inc. is a leader in environmental noise and vibration control since 1989. They focus on site evaluation, acoustical studies, and visual and noise barrier systems. They offer expertise in data analysis, modeling, planning, construction and more. Their vinyl fencing systems are durable, maintenance-free options for residential, commercial and industrial noise barriers that are termite free, graffiti resistant and have a projected lifetime.
Sound absorption insulation uses materials with numerous holes and fissures to resist sound from reflecting into a room. Acoustical ceiling tiles and panels are the most common type of sound absorption insulation that contains many small holes to trap sound waves.
Classroom acoustics are an important factor in the learning environment but are often neglected. Up to 60% of classroom activities involve speech communication, so environments that support clear communication are important. However, many modern classrooms have high levels of background noise that can inhibit learning. This document discusses acoustic issues in schools and strategies to address them, including controlling background noise, reverberation times, and signal-to-noise ratios. Design approaches like site planning, exterior wall construction, and interior finishes can improve classroom acoustics.
Sound is defined as vibrations that travel through air or another medium and can be heard. It includes speech, music, and noise. Noise lacks a regular pattern and is considered undesirable sound. Sound is measured in decibels and can be recorded using microphones. The science of acoustics deals with the production, transmission, and effects of sound. It is divided into sound, which travels through fluids, and vibration, which is felt through denser materials. Psychoacoustics studies the relationship between the physical properties of sound and the sensations and perceptions they produce in human hearing.
Architectural acoustics, New engineering materials ,ultrasoniKunj Patel
This document summarizes a physics presentation given by 5 students - Patel Harsh, Patel Hetul, Patel Jaina, Patel Kinjal, and Patel Kunj. The presentation covered three topics: Architectural Acoustics, New Engineering Materials, and Ultrasonics. For Architectural Acoustics, the document defines acoustics and discusses sound classification, characteristics, intensity, absorption materials, and factors affecting building acoustics. For New Engineering Materials, it discusses metallic glasses, bio-materials, and energy materials like solar cells. For Ultrasonics, it defines ultrasonic waves, methods of production like magnetostriction and piezoelectric, and applications of
Acoustics is the interdisciplinary science that deals with the study of mechanical waves in gases, liquids, and solids, including sound. Key areas of acoustics include architectural acoustics, musical acoustics, physiological acoustics, underwater acoustics, electroacoustics, noise control, and ultrasonics. The field involves the generation, propagation, and reception of sound waves. Important concepts include sound pressure levels, frequency, transduction, room acoustics, reverberation, and natural modes. Acoustics has a long history and many applications across fields such as music, medicine, architecture, and industry.
This document describes the design of a seminar hall by Rushabh H. Shah. It outlines the objectives of the design such as encouraging interactive learning and providing comfortable seating. It then discusses considerations for the seminar hall layout and design, including seating types, windows, projection screens, lighting, walls, ceilings and acoustics. It also presents a case study where modifications were suggested for an existing seminar hall to improve its acoustics, such as changing the speaker position, adding curtains and carpet. The document concludes that following design guidance can help create better learning environments.
The document provides details about Ravindralaya Auditorium in Lucknow, India. It describes the auditorium's capacity of 777 people, stage dimensions of 40ft x 40ft, and 14 rows of ground seating and 10 rows of balcony seating. Acoustical materials used include wooden wall panels, plastered brick walls, and different ceiling types. The auditorium was built in 1964 and is used for cultural, political and entertainment events.
Rethinking Kållered │ From Big Box to a Reuse Hub: A Transformation Journey ...SirmaDuztepeliler
"Rethinking Kållered │ From Big Box to a Reuse Hub: A Transformation Journey Toward Sustainability"
The booklet of my master’s thesis at the Department of Architecture and Civil Engineering at Chalmers University of Technology. (Gothenburg, Sweden)
This thesis explores the transformation of the vacated (2023) IKEA store in Kållered, Sweden, into a "Reuse Hub" addressing various user types. The project aims to create a model for circular and sustainable economic practices that promote resource efficiency, waste reduction, and a shift in societal overconsumption patterns.
Reuse, though crucial in the circular economy, is one of the least studied areas. Most materials with reuse potential, especially in the construction sector, are recycled (downcycled), causing a greater loss of resources and energy. My project addresses barriers to reuse, such as difficult access to materials, storage, and logistics issues.
Aims:
• Enhancing Access to Reclaimed Materials: Creating a hub for reclaimed construction materials for both institutional and individual needs.
• Promoting Circular Economy: Showcasing the potential and variety of reusable materials and how they can drive a circular economy.
• Fostering Community Engagement: Developing spaces for social interaction around reuse-focused stores and workshops.
• Raising Awareness: Transforming a former consumerist symbol into a center for circular practices.
Highlights:
• The project emphasizes cross-sector collaboration with producers and wholesalers to repurpose surplus materials before they enter the recycling phase.
• This project can serve as a prototype for reusing many idle commercial buildings in different scales and sizes.
• The findings indicate that transforming large vacant properties can support sustainable practices and present an economically attractive business model with high social returns at the same time.
• It highlights the potential of how sustainable practices in the construction sector can drive societal change.
Office Furniture allows a customer to decide from a thick variety of the furniture systems which are offered in the market. Another big advantage these systems carry with themselves is their mobility.
Acoustical Solutions Inc. is a leader in environmental noise and vibration control since 1989. They focus on site evaluation, acoustical studies, and visual and noise barrier systems. They offer expertise in data analysis, modeling, planning, construction and more. Their vinyl fencing systems are durable, maintenance-free options for residential, commercial and industrial noise barriers that are termite free, graffiti resistant and have a projected lifetime.
Sound absorption insulation uses materials with numerous holes and fissures to resist sound from reflecting into a room. Acoustical ceiling tiles and panels are the most common type of sound absorption insulation that contains many small holes to trap sound waves.
Classroom acoustics are an important factor in the learning environment but are often neglected. Up to 60% of classroom activities involve speech communication, so environments that support clear communication are important. However, many modern classrooms have high levels of background noise that can inhibit learning. This document discusses acoustic issues in schools and strategies to address them, including controlling background noise, reverberation times, and signal-to-noise ratios. Design approaches like site planning, exterior wall construction, and interior finishes can improve classroom acoustics.
Sound is defined as vibrations that travel through air or another medium and can be heard. It includes speech, music, and noise. Noise lacks a regular pattern and is considered undesirable sound. Sound is measured in decibels and can be recorded using microphones. The science of acoustics deals with the production, transmission, and effects of sound. It is divided into sound, which travels through fluids, and vibration, which is felt through denser materials. Psychoacoustics studies the relationship between the physical properties of sound and the sensations and perceptions they produce in human hearing.
Architectural acoustics, New engineering materials ,ultrasoniKunj Patel
This document summarizes a physics presentation given by 5 students - Patel Harsh, Patel Hetul, Patel Jaina, Patel Kinjal, and Patel Kunj. The presentation covered three topics: Architectural Acoustics, New Engineering Materials, and Ultrasonics. For Architectural Acoustics, the document defines acoustics and discusses sound classification, characteristics, intensity, absorption materials, and factors affecting building acoustics. For New Engineering Materials, it discusses metallic glasses, bio-materials, and energy materials like solar cells. For Ultrasonics, it defines ultrasonic waves, methods of production like magnetostriction and piezoelectric, and applications of
Acoustics is the interdisciplinary science that deals with the study of mechanical waves in gases, liquids, and solids, including sound. Key areas of acoustics include architectural acoustics, musical acoustics, physiological acoustics, underwater acoustics, electroacoustics, noise control, and ultrasonics. The field involves the generation, propagation, and reception of sound waves. Important concepts include sound pressure levels, frequency, transduction, room acoustics, reverberation, and natural modes. Acoustics has a long history and many applications across fields such as music, medicine, architecture, and industry.
This document describes the design of a seminar hall by Rushabh H. Shah. It outlines the objectives of the design such as encouraging interactive learning and providing comfortable seating. It then discusses considerations for the seminar hall layout and design, including seating types, windows, projection screens, lighting, walls, ceilings and acoustics. It also presents a case study where modifications were suggested for an existing seminar hall to improve its acoustics, such as changing the speaker position, adding curtains and carpet. The document concludes that following design guidance can help create better learning environments.
The document provides details about Ravindralaya Auditorium in Lucknow, India. It describes the auditorium's capacity of 777 people, stage dimensions of 40ft x 40ft, and 14 rows of ground seating and 10 rows of balcony seating. Acoustical materials used include wooden wall panels, plastered brick walls, and different ceiling types. The auditorium was built in 1964 and is used for cultural, political and entertainment events.
Rethinking Kållered │ From Big Box to a Reuse Hub: A Transformation Journey ...SirmaDuztepeliler
"Rethinking Kållered │ From Big Box to a Reuse Hub: A Transformation Journey Toward Sustainability"
The booklet of my master’s thesis at the Department of Architecture and Civil Engineering at Chalmers University of Technology. (Gothenburg, Sweden)
This thesis explores the transformation of the vacated (2023) IKEA store in Kållered, Sweden, into a "Reuse Hub" addressing various user types. The project aims to create a model for circular and sustainable economic practices that promote resource efficiency, waste reduction, and a shift in societal overconsumption patterns.
Reuse, though crucial in the circular economy, is one of the least studied areas. Most materials with reuse potential, especially in the construction sector, are recycled (downcycled), causing a greater loss of resources and energy. My project addresses barriers to reuse, such as difficult access to materials, storage, and logistics issues.
Aims:
• Enhancing Access to Reclaimed Materials: Creating a hub for reclaimed construction materials for both institutional and individual needs.
• Promoting Circular Economy: Showcasing the potential and variety of reusable materials and how they can drive a circular economy.
• Fostering Community Engagement: Developing spaces for social interaction around reuse-focused stores and workshops.
• Raising Awareness: Transforming a former consumerist symbol into a center for circular practices.
Highlights:
• The project emphasizes cross-sector collaboration with producers and wholesalers to repurpose surplus materials before they enter the recycling phase.
• This project can serve as a prototype for reusing many idle commercial buildings in different scales and sizes.
• The findings indicate that transforming large vacant properties can support sustainable practices and present an economically attractive business model with high social returns at the same time.
• It highlights the potential of how sustainable practices in the construction sector can drive societal change.
2. CASE STUDIES
BNP Paribas Bank G2F Media Hotham Primary School Kings College London
Wing, Focus Ds & Dot Page 1 Solo & Vista Wall Panels Page 2 Printed Super G Page 3 Focus XL & Ds Page 4
Trinity Methodist Church West Mercia Police
Solo Page 5 Solo & Vista Wall Panels Page 6
HR Wallingford Exact Target Expedia
Solo Page 7 Solo Page 8 Solo & Baffle Page 9
3. CASE STUDIES
Emarsys John Thompson & Partners Pavilion Leisure Navartian Centre
Vista Wall Panels & Solo Page 10 Solo & Vista Wall Panels Page 11 Vista Wall Panels & Solo Page 12 Solo Hanging Panels Page 13
Burslem Methodist Church Calvery Church
Solo & Vista Wall Panels Page 14 Solo Hanging Panels Page 15
Beechwood Village Hall Claycots School Urban Development
Solo Hanging Panels Page 16 Super G Wall Panels Page 17 Vista Wall Panels – Edge A Page 18
4. CASE STUDIES
Westgate School TCPA Brighton College DIG
Vista Wall Panels Page 19 Vista Wall Panels Page 20 Solo Hanging Panels Page 21 Solo, Baffles & Vista Page 22
Crossfield Hall DAI
Solo Hanging Panels Page 23 Vista Wall Panels Page 24
PepsiCo International Dapdune Surgery PepsiCo International - Theale
Solo Circular Panels & Vista Page 25 Vista Wall Panels Page 26 Vista Wall Panels, Wing Floating Ceiling with Dot Lighting Page 27
5. CASE STUDIES
Audible Blue Coat School Chichester School for Girls University of Westminster
Circular Solo Panels Page 28 Solo & Vista Wall Panels Page 29 Super G Wall Panels Page 30 Solo Baffles Page 31
Eltham College Event Brite
Super G Wall Panels Page 32 Vista Wall Panels & Solo Page 33
Rotherfield School Putney School of Arts Say Media
Solo Hanging Panels Page 34 Vista Wall Panels & Solo Page 35 Custom Printed Solo Panels Page 36
6. CASE STUDIES
Watford FC Watford School for Boys Totton College St Johns School
Custom Printed Super G Page 37 Super G Wall Panels Page 38 Vista Wall Panels & Solo Page 39 Vista Wall Panels & Solo P age 40
Simmonds & Simmonds Ryder Architects - London
Vista Wall Panels Page 41 Vista Wall Panels & Solo Page 42
PepsiCo International Mr & Mrs Gibb PepsiCo - Leicester
Vista Wall Panels & Solo Page 43 Vista Wall Panels & Solo Page 44 Vista Wall Panels, Wing Floating Ceiling with Dot Lighting Page 45
7. CASE STUDIES
German Gymnasium Glaziers Hall Langford School Patcham School
Vista Wall Panels Page 46 Solo Hanging Panels Page 47 Solo Hanging Panels Page 48 Vista Wall Panels & Solo P age 49
Ryder Architects - Newcastle Malet Lambert School
Solo & Vista Wall Panels Page 50 Custom Super G Page 51
The Samaritans SLI Systems PepsiCo International
Vista Wall Panels & Solo Page 52 Vista Wall Panels & Solo Page 53 Vista Wall Panels & Solo in Slate Grey Page 54
9. G2F MEDIA
CLIENT:
G2F Media
LOCATION:
Bury, BL9
Open Office – view 1 Open Office – view 2 Open Office – view 3
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Ecophon Vista Wall Panels
Open plan office acoustic treatment
PRODUCTS:
Ecophon Vista Wall Panels
Ecophon Solo Hanging Panels
Custom Stainless Steel Logo
REVERBERATION TIME:
Before After
3.80s 0.80s
2
10. HOTHAM PRIMARY
SCHOOL
CLIENT:
Hotham Primary School
LOCATION:
London, SW15
Sports Hall – view 1 Sports Hall – view 2 Sports Hall – view 3
PROJECT: Printed Ecophon Super G Printed Ecophon Super G Printed Ecophon Super G
Sports Hall acoustic treatment
for primary school using custom
printed impact resistant acoustic wall
panelling
PRODUCTS:
Ecophon Super G
Custom Printed
REVERBERATION TIME:
Before After
3.50s 1.20s
3
11. FRANKLYN WILKINS LIBRARY
CLIENT:
Kings College, London
LOCATION:
London, SE1
Library – view 1 Library – view 2 Sports Hall – view 3
PROJECT: Ecophon Focus Ds Ecophon Focus Ds XL Ecophon Focus Ds XL
Acoustic ceilings to college
library and circulation areas
PRODUCTS:
Ecophon Focus Ds XL
Ecophon Focus Ds
REVERBERATION TIME:
Before After
2.50s 0.80s
4
12. TRINITY METHODIST
CHURCH
CLIENT:
Trinity Methodist Church
LOCATION:
East Grinstead, RH19
Church Hall – view 1 Church Hall – view 2 Church Hall – view 3
PROJECT: Ecophon Solo Ecophon Solo Ecophon Solo
Church hall acoustic
treatment
PRODUCTS:
Ecophon Solo – white frost
REVERBERATION TIME:
Before After
3.50s 1.20s
5
13. WEST MERCIA POLICE
CLIENT:
West Mercia Police
LOCATION:
Worcester, WR3
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Open plan and cellular
office acoustic treatments to police
headquarters offices
PRODUCTS:
Ecophon Solo
Ecophon Vista
REVERBERATION TIME:
Before After
1.80s 0.80s
6
14. HR WALLINGFORD
CLIENT:
HR Wallingford
LOCATION:
Wallingford, OX10
Restaurant – view 1 Restaurant – view 2 Restaurant – view 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Restaurant area acoustics
treatment using suspended acoustic
panels
PRODUCTS:
Ecophon Solo – white frost
REVERBERATION TIME:
Before After
3.20s 1.10s
7
15. EXACT TARGET
CLIENT:
Exact Target
LOCATION:
London, W1W
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Solo Baffles Ecophon Vista Wall Panels Ecophon Solo Baffles
Open plan office acoustic treatments
using a number of different absorption
products strategically placed
PRODUCTS:
Ecophon Solo Panels
Ecophon Vests Wall Panelling
Ecophon Vertical Hanging Baffle
REVERBERATION TIME:
Before After
2.60s 0.80s
8
16. EXPEDIA
CLIENT:
Paragon Interiors
LOCATION:
London, W1W
Meeting Room VC Room Boardroom
PROJECT: Ecophon Vista Wall Panels & Solo Ecophon Solo Hanging Panels Ecophon Vista & Solo
Treatments to numerous
meeting rooms with different
functions. From small meeting rooms
to large video conference boardrooms
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
2.50s 0.70s
9
17. EMARSYS
CLIENT:
Emarsys
LOCATION:
London, NW1
Open Plan Office Open Plan Office Open Plan Office
PROJECT: Ecophon Vista Wall Panels & Solo Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Open plan office acoustic
treatments to walls and ceilings. Two
tone wall panel colours and white frost
rafts
PRODUCTS:
Ecophon Solo Panels
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
3.10s 0.90s
1
18. J. THOMPSON & PARTNERS
CLIENT:
John Thompson & Partners
LOCATION:
London, EC1V
Open Plan Office Open Plan Office Open Plan Office
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Open plan office acoustic
treatment solution
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
2.10s 0.80s
11
19. PAVILION LEISURE
CLIENT:
Pavilion Leisure
LOCATION:
Surrey, KT8
Gymnasium Gymnasium Gymnasium
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Solution for highly
reverberant fitness gym.
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
3.20s 1.10s
1
20. NAVARTIAN CENTRE
CLIENT:
Navartian Centre
LOCATION:
Ealing, W13
Hall – View 1 Hall – View 2 Hall – View 3
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Solution for multi-purpose
worship space suffering from poor
acoustics.
PRODUCTS:
Connect framework panels –
direct fix
REVERBERATION TIME:
Before After
2.90s 1.00s
1
21. BURSLEM METHODIST
CHURCH
CLIENT:
Burslem Methodist Church
LOCATION:
Southampton, ST6
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Open plan office acoustic
treatment solution
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
2.90s 1.30s
1
22. CALVARY CHURCH
CLIENT:
Calvary Church
LOCATION:
Macclesfield, SK11
Church – View 1 Church – View 2 Church – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Ceiling treatment to worship
space using Class A sound absorption
ceiling panels suspended between
existing lighting and services
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
3.30s 1.00s
1
23. BEECHWOOD VILLAGE HALL
CLIENT:
Beechwood Village Hall
LOCATION:
Maidstone, ME16
Hall – View 1 Hall – View 2 Hall – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Large hall treatment to
ceiling using 2.4m x 1.2m Solo
hanging units
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
3.50s 1.30s
1
24. CLAYCOTT SCHOOL
CLIENT:
Claycott School
LOCATION:
Slough, SL2
Hall – View 1 Hall – View 2 Hall – View 3
PROJECT: Ecophon Vista Wall Panels Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Hall acoustic treatment to
walls
PRODUCTS:
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
3.10s 1.20s
1
25. URBAN DEVELOPMENT
CLIENT:
Urban Development
LOCATION:
London, E15
Studio - View 1 Studio – View 2 Studio – View 3
PROJECT: Ecophon Vista Wall Panels Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Complete studio recording
studio build including wall and floor
soundproofing and sound absorption
panels
PRODUCTS:
Ecophon Vista Wall Panels
Soundproofing treatments to walls and
floor
REVERBERATION TIME:
Before After
n/a 0.80s
1
26. WESTGATE SCHOOL
CLIENT:
Westgate School
LOCATION:
London, N7
Classroom Classroom Sports Hall
PROJECT: Ecophon Vista Wall Panels Ecophon Vista Wall Panels Ecophon Solo Hanging Panels
BB93 treatment to school
classrooms and sports hall
PRODUCTS:
Ecophon Solo Panels
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
n/a BB93
1
27. TCPA
CLIENT:
TCPA
LOCATION:
London, W1W
Meeting Room
PROJECT: Ecophon Vista Wall Panels
Meeting room wall panel
treatment
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
2.10s 0.70s
2
28. BRIGHTON COLLEGE
CLIENT:
Brighton & Hove City College
LOCATION:
Brighton, BR1
Canteen – View 1 Canteen – View 2 Canteen – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
College student canteen
area treatment using 2.4 x 1.2m white
frost Solo hanging acoustic panels
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
3.20s 1.00s
2
29. DIG
CLIENT:
Dig
LOCATION:
York, YO1
View 1 View 2 View 3
PROJECT: Ecophon Solo Baffle Ecophon Vista Wall Panels Ecophon Solo Baffle
Acoustic treatment to converted
church using a combination of baffles
and wall panels
PRODUCTS:
Ecophon Solo Baffles
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
3.50s 1.20s
2
30. CROSFIELD HALL
CLIENT:
Crosfield Hall
LOCATION:
Romsey, SO15
Hall – View 1 Hall – View 2 Hall – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Hall ceiling treatment using
suspended sound absorption panels
PRODUCTS:
Ecophon Solo Panels
REVERBERATION TIME:
Before After
3.20s 1.10s
2
31. DAI
CLIENT:
DAI
LOCATION:
London, EC1V
Office Meeting Room Meeting Room
PROJECT: Ecophon Solo Hanging Panels Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Open plan office and meeting
room solution using Vista wall panels
& Solo panels
PRODUCTS:
Ecophon Solo Panels
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
3.20s 0.90s
2
32. PEPSICO INTERNATIONAL
CLIENT:
PepsiCo International
LOCATION:
Theale, RG7
Staff Restaurant Staff Restaurant Staff Restaurant
PROJECT: Ecophon Vista Wall Panels & Solo Ecophon Custom Printed Wall Panels Ecophon Circular Solo
Treatment for noisy staff
restaurant at corporate headquarters
building
PRODUCTS:
Ecophon Solo Panels
Ecophon Wall Panel A
REVERBERATION TIME:
Before After
3.20s 1.00s
2
33. DAPDUNE SURGERY
CLIENT:
Dapdune Surgery
LOCATION:
Guildford, GU1
Corridor Waiting Room Waiting Room
PROJECT: Ecophon Vista Wall Panels Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Surgery waiting and corridor
acoustic treatment using Class A wall
panels
PRODUCTS:
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
2.50s 0.90s
2
34. PEPSICO HQ
TELEPRESENCE
CLIENT:
PepsiCo International
LOCATION:
Theale, RG7
TelePresence Room – View 1 TelePresence Room – View 2 TelePresence Room – View 3
PROJECT: Ecophon Vista Wall Panels Equipment Ecophon Wing Ceiling & Dot Lighting
Full TelePresence room build
including floating Wing acoustic
ceiling, Dot lighting and Vista wall
panelling
PRODUCTS:
Ecophon Wing Ceiling
Ecophon Vista Wall Panels
Dot Lighting
REVERBERATION TIME:
Before After
n/a 0.60s
2
35. AUDIBLE
CLIENT:
Audible
LOCATION:
London, W1
Open Plan Office Open Plan Office Open Plan Office
PROJECT: Circular Solo Panels Circular Solo Panels Circular Solo Panels
Acoustic treatment to meeting
rooms and circulation areas in lively
office environment
PRODUCTS:
Ecophon Circular Solo Panels
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
3.50s 1.20s
2
36. BLUE COAT SCHOOL
CLIENT:
Blue Coat School
LOCATION:
Sonning, RG6
Reception Hall Music Classroom
PROJECT: Ecophon Solo SQ Ecophon Solo Hanging Panels Ecophon Vista Wall Panels
Acoustic treatments to various
areas of school including reception
and teaching areas
PRODUCTS:
Ecophon Solo SQ
Ecophon Solo Hanging Panels
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
n/a BB93
2
37. CHICHESTER GIRLS SCHOOL
CLIENT:
Chichester Girls School
LOCATION:
Chichester, PO19
Sports Hall – View 1 Sports Hall – View 2 Sports Hall – View 3
PROJECT: Ecophon Super G Ecophon Super G Ecophon Super G
School sports hall acoustic
treatment using impact resistant
acoustic wall panelling at high level
PRODUCTS:
Ecophon Super G
REVERBERATION TIME:
Before After
3.50s 1.30s
3
38. UNIVERSITY OF
WESTMINSTER
CLIENT:
Interserve
LOCATION:
Harrow, HA1
View 1 View 2 View 3
PROJECT: Ecophon Solo Baffle Ecophon Solo Baffle Ecophon Sol Baffle
University of Westminster Harrow
campus new media, art and design
centre installation of 300no. Solo
hanging acoustic baffles in 3 Akutex
colours
PRODUCTS:
Ecophon Solo Baffle
REVERBERATION TIME:
Before After
4.50s 1.50s
3
39. ELTHAM COLLEGE
CLIENT:
Eltham College
LOCATION:
London, SE9
Sports Hall – View 1 Sports Hall – View 2 Sports Hall – View 3
PROJECT: Ecophon Super G Ecophon Super G Ecophon Super G
College sports hall treatment
using impact resistant wall panelling to
walls
PRODUCTS:
Ecophon Super G
REVERBERATION TIME:
Before After
3.40s 1.20s
3
40. EVENT BRITE
CLIENT:
Event Brite
LOCATION:
London, EC1N
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Open plan office acoustic
treatment solution to combat sever
echo problem using ceiling and wall
treatments
PRODUCTS:
Ecophon Solo Panels
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
3.50s 1.10s
3
41. ROTHERFIELD SCHOOL
CLIENT:
Rotherfield Primary School
LOCATION:
London, N1
Sports Hall – View 1 Sports Hall – View 2 Sports Hall – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
School sports hall treatment using
to allow multi use for the space
including exams and class assembly
PRODUCTS:
Ecophon Solo Panels
Ecophon Super G
REVERBERATION TIME:
Before After
3.20s 1.10s
3
42. PUTNEY SCHOOL OF ARTS
CLIENT:
Putney School of Arts
LOCATION:
London, SW12
Performance Space Performance Space Performance Space
PROJECT: Ecophon Super G Ecophon Super G Ecophon Super G
Wall and ceiling treatment to
create ideal sound environment for
performance and speech
PRODUCTS:
Ecophon Solo Panels
Ecophon Super G
REVERBERATION TIME:
Before After
3.50s 1.20s
3
43. SAY MEDIA
CLIENT:
Say Media
LOCATION:
London, W1T
Meeting Room – View 1 Meeting Room – View 2 Meeting Room – View 3
PROJECT: Ecophon Printed Wall & Ceiling Panels Ecophon Printed Wall & Ceiling Panels Ecophon Printed Wall & Ceiling Panels
Custom printed suspended wall
and ceiling panels to boardroom
PRODUCTS:
Ecophon Solo Panels
(custom printed)
REVERBERATION TIME:
Before After
2.50s 0.60s
3
44. WATFORD FC
CLIENT:
Watford FC
LOCATION:
Watford, WD18
Office Gym Open Plan Office
PROJECT: Ecophon Custom Printed Vista Ecophon Solo Hanging Panels Ecophon Custom Printed Super G
Treatments to various areas of
youth sports facility including gym and
circulation spaces
PRODUCTS:
Ecophon Super G Wall Panels
(custom printed)
Ecophon Solo
REVERBERATION TIME:
Before After
3.50s 1.40s
3
45. WATFORD SCHOOL FOR
BOYS
CLIENT:
Watford School for Boys
LOCATION:
Watford, WD18
Sports Hall – View 1 Sports Hall – View 2 Sports Hall – View 3
PROJECT: Ecophon Super G Wall Panels Ecophon Super G Wall Panels Ecophon Super G Wall Panels
School sports hall acoustic
treatment using impact resistant
acoustic wall panels
PRODUCTS:
Ecophon Super G
REVERBERATION TIME:
Before After
3.50s 1.20s
3
46. TOTTON DANCE STUDIO
CLIENT:
Totton College
LOCATION:
Southampton, SO1
Dance Studio – View 1 Dance Studio – View 2 Dance Studio – View 3
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
New dance studio acoustic solution
using suspended panels and Class A
wall panelling at high level
PRODUCTS:
Ecophon Vista Wall Panels
Ecophon Vista Solo Panels
REVERBERATION TIME:
Before After
3.50s 1.40s
3
47. ST JOHNS SCHOOL
CLIENT:
St. Johns School
LOCATION:
Essex, CM12
Sports Hall Open Plan Office Open Plan Office
PROJECT: Ecophon Super G Ecophon Solo Hanging Panels Ecophon Solo with Lighting
BB93 acoustic treatment to
school classrooms, sports hall and
circulation areas to new build school
PRODUCTS:
Ecophon Vista Wall Panels
Ecophon Solo Hanging Panels
REVERBERATION TIME:
Before After
n/a BB93
4
48. SIMMONS & SIMMONS
CLIENT:
Simmons & Simmons
LOCATION:
London, W1
Office Meeting Room Manager Office
PROJECT: Ecophon Vista Wall Panels Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Treatment for meeting rooms to
solicitors practice, matching WP
framework to whiteboards
PRODUCTS:
Ecophon Vista Wall Panels
REVERBERATION TIME:
Before After
1.50s 0.70s
4
49. RYDER ARCHITECTS
LONDON
CLIENT:
Ryder Architects
LOCATION:
London, W1T
Meeting Room – View 1 Meeting Room – View 2 Meeting Room – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Acoustic treatment to echoing
meeting room
PRODUCTS:
Ecophon Vista Wall Panels
Solo hanging panels
REVERBERATION TIME:
Before After
2.20s 0.60s
4
50. PEPSICO CONSUMER
SERVICES
CLIENT:
PepsiCo International
LOCATION:
Leicester, LE1
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
BB93 acoustic treatment to
school classrooms, sports hall and
circulation areas
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.50s 0.80s
4
51. MR & MRS GIBB
CLIENT:
Mr & Mrs Gibb
LOCATION:
Kent, TN13
Living Room – View 1 Living Room – View 2 Living Room – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Residential treatment to large
kitchen / living extension.
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.10s 0.90s
4
52. PEPSICO R&D
TELEPRESENCE
CLIENT:
PepsiCo International
LOCATION:
Leicester
TelePresence Room – View 1 TelePresence Room – View 2 TelePresence Room Corridor
PROJECT: Ecophon Wing Ds Floating Ceiling Ecophon Vista Wall Panels Ecophon Focus Ds XL
Complete TelePresence room
acoustic treatment solution to achieve
a reverberation time of 0.6 seconds
PRODUCTS:
Ecophon Wing Ds Ceiling
Ecophon Dot Lighting
Ecophon Vista WP Wall Panels
REVERBERATION TIME:
Before After
n/a 0.60s
4
53. THE GERMAN GYMNASIUM
CLIENT:
The German Gymnasium
LOCATION:
London, SW1
Entertainment Space Boardroom Boardroom
PROJECT: Ecophon Vista Wall Panels Ecophon Vista Wall Panels Ecophon Vista Wall Panels
Acoustic treatment required for
boardroom in prestigious building
opposite St Pancras station, London.
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.20s 0.80s
4
54. GLAZIERS HALL
CLIENT:
Glaziers Hall
LOCATION:
London, SE1
Hall – View 1 Hall – View 2 Hall – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Acoustic treatment solution for
hired entertainment space suffering
from extremely poor acoustics.
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.50s 1.10s
4
55. LANGFORD SCHOOL
CLIENT:
Langford School
LOCATION:
London, W1W
Sports Hall Sports Hall Sports Hall
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
School sports hall acoustic
treatments to walls and ceilings
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
3.20s 0.90s
4
56. PATCHAM SCHOOL
CLIENT:
Patcham School
LOCATION:
Brighton, BN1
Classroom Classroom Classroom
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
BB93 acoustic treatment to
primary school classrooms for an
enhanced listening and learning
environment.
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.30s 0.60s
4
57. RYDER ARCHITECTS
CLIENT:
Ryder Architects
LOCATION:
Newcastle, NE1
Meeting Room – View 1 Meeting Room – View 2 Meeting Room – View 3
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels
Meeting room treatments for an
architects practice with exposed steel
beams and solid ceiling rooms with a
high reverberation
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
1.50s 0.50s
5
58. MALET LAMBERT SCHOOL
CLIENT:
Malet Lambert School
LOCATION:
Hull
Staff Restaurant Staff Restaurant Staff Restaurant
PROJECT: Ecophon Custom Print Super G Ecophon Custom Print Super G Ecophon Custom Print Super G
Dining hall acoustic treatment
using custom printed Super G to
produce window effect
PRODUCTS:
Custom Ecophon Super G
REVERBERATION TIME:
Before After
3.50s 1.20s
5
59. THE SAMARITANS
CLIENT:
The Samaritans
LOCATION:
Devon
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Speech privacy is extremely
important to the Samaritans. Wall and
ceiling treatments were used here to
create the perfect listening
environment
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.50s 0.80s
5
60. SLI SYSTEMS
CLIENT:
SLI Systems
LOCATION:
London, EC1V
Office Open Plan Office Open Plan Office
PROJECT: Ecophon Solo Hanging Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Open plan office and meeting
room treatments using hanging
acoustic panels and Class A sound
absorbing wall panels
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.50s 1.00s
5
61. PEPSICO INTERNATIONAL
CLIENT:
PepsiCo International
LOCATION:
Leicester
Canteen – View 1 Canteen – View 2 Canteen – View 3
PROJECT: Ecophon Vista Wall Panels Ecophon Solo Hanging Panels Ecophon Vista & Solo
Treatment to noisy staff restaurant
at technology HQ. Vibrant Texona wall
panels and slate hanging acoustic
panels create comfortable eating and
meeting environment
PRODUCTS:
Ecophon Vista Texona Wall panels
and Solo hanging panels
REVERBERATION TIME:
Before After
2.90s 0.90s
5