Blogging Fusion » Blog Details for Architecture, Design & Innovation

Blogging Fusion is a trusted resource online for bloggers around the world!




Follow Us


Available Upgrade Detected
If you are the owner of Architecture, Design & Innovation, or someone who enjoys this blog why not upgrade it to a Featured Listing or Permanent Listing?.

UPGRADE

SHARE THIS PAGE ON:
Blog Details
Blog Directory ID: 32096 Get VIP Status?
: Report Blog Listing This is a free listing which requires a link back!
Google Pagerank: 1
Blog Description:

Construction industry news & views. Focussing on architecture, design & the built environment, including images, video presentations and press releases from some of the top building product manufacturers & industry professionals
Blog Added: May 28, 2017 02:53:59 AM
Audience Rating: General Audience
Blog Platform: WordPress
Blog Country: United-Kingdom/Surrey   United-Kingdom/Surrey
Blog Stats
Total Visits: 667
Blog Rating: 3.09
Add the ReviewMe Button Or SEO Rank to your Blog!
Review Architecture, Design & Innovation at Blogging Fusion Blog Directory
My Blogging Fusion Score

Featured Resources

Example Ad for Architecture, Design & Innovation

This what your Architecture, Design & Innovation Blog Ad will look like to visitors! Of course you will want to use keywords and ad targeting to get the most out of your ad campaign! So purchase an ad space today before there all gone!

https://www.bloggingfusion.com
notice: Total Ad Spaces Available: (2) ad spaces remaining of (2)

Advertise in this blog listing?

Blog specific ad placement
Customize the title link
Place a detailed description
It appears here within the content
Approved within 24 hours!
100% Satisfaction
If not completely satisfied, you'll receive 3 months absolutely free;
No questions asked!
Buy Now!
Alexa Web Ranking: 19,989,251

Alexa Ranking - Architecture, Design & Innovation
Subscribe to Architecture, Design & Innovation
Subscribe Now!
Breathing Buildings’ ventilation design helps create a perfect environment at a nursery and community centre in Hampshire

Breathing Buildings’ ventilation design helps create a perfect environment at a nursery and community centre in Hampshire Breathing Buildings, a leading provider of controlled hybrid ventilation systems in UK, has supplied a first-class natural ventilation system for the construction of YMCA East Anton Nursery and Community Centre. Breathing Buildings’ F1000 units were installed in the classrooms to provide fresh air and to create a healthy indoor environment. YMCA East Anton is a...

Breathing Buildings’ ventilation design helps create a perfect environment at a nursery and community centre in Hampshire

Breathing Buildings, a leading provider of controlled hybrid ventilation systems in UK, has supplied a first-class natural ventilation system for the construction of YMCA East Anton Nursery and Community Centre. Breathing Buildings’ F1000 units were installed in the classrooms to provide fresh air and to create a healthy indoor environment.

YMCA East Anton is a purpose-built nursery for 0-5 year olds which opened in October 2017. At early design stage it was suggested that the classrooms should have mechanical ventilation systems. However, YMCA had concerns about the energy use as well as maintenance costs associated with a mechanical ventilation scheme.

Breathing Buildings was approached by Darcy Construction to design a natural ventilation system that would be unobtrusive and provide high levels of ventilation to keep the rooms fresh.

Each classroom has its own toilet with a void above; this void was initially intended to host a mechanical ventilation system and associated ductwork. The alternative, lower energy solution developed by Breathing Buildings involved fitting an F1000 unit into each of these voids to provide tempered fresh air. The balancing flow path is via a louvre and damper at high level.

In cold weather the F1000 system recycles the heat admitted through solar gain on the south-facing façade and the heat emitted by the children and carers in order to pre-heat the incoming ventilation air. This allows a smaller heating system to be specified than would be possible with a traditional natural ventilation design.

In summer, when the children are roaming in and out of the classroom and outside play area, the fresh air enters the rooms at low level via the doors or windows. It then flows across the space, providing much valued cross-flow ventilation, and exits out through the F1000 unit and high level damper.

YMCA East Anton

At the end of the hottest days in the summer, the system automatically moves into a night-cooling mode. This mode ensures that the space continues to ventilate and benefit from the colder night time temperatures. The fabric of the building is passively cooled alleviating the need to air condition the south facing nursery. This slimline unit is neatly tucked up against the ceiling and provides a throw of up to 10m into the space.

Winter Strategy

In winter when it is too cold to bring in fresh air straight onto occupants the F Series system operates by drawing air in through a damper and into a mixing unit. The mixing unit uses two counter-rotating sweep fans; the lower fan draws in hot room air and the upper fan prevents this air from leaving the room. The cold fresh air entering the top of the mixing unit is thereby mixed with the room air, and the mixed air is discharged into the room. Air is exhausted from the room by a damper on the same side of the building as the F Series unit in order to help avoid inflow through this damper. The control system and critically the draught mitigation strategy, use readings from a room temperature and CO2 sensor, as well as temperature sensors outside the building and within the F Series mixing unit.

Summer Strategy

In warmer weather when it is acceptable to bring fresh air straight onto occupants, the control system encourages room users to open windows at low level. The high level dampers are opened automatically and the system operates in upflow displacement, cross-flow ventilation mode. The damper openings are regulated by the control system in order to keep the interior at ideal comfort conditions. During the hottest summer periods the room ventilation continues at night in order that the room can benefit from the naturally occurring colder temperatures. The room fabric is cooled down at night, again controlled by the controller to ensure that the room is not overcooled, in order to provide optimum conditions the following day.

“Creating a comfortable, fresh and healthy indoor environment at low maintenance costs were the key factors mentioned in the project brief,” says Peter Oliver, Commercial Director at Darcy Construction. “Breathing Buildings’ natural ventilation design using F1000 system has provided well ventilated and energy efficient environment at low running costs making it an ideal choice for the project.”

For more information, please visit: http://www.breathingbuildings.com/

The post Breathing Buildings’ ventilation design helps create a perfect environment at a nursery and community centre in Hampshire appeared first on SPECIFIER REVIEW.



Vent-Axia Supports Noise Action Week 2018

Vent-Axia Supports Noise Action Week 2018 Vent-Axia is delighted to be supporting Noise Action Week (21-26 May 2018) for the sixth year in a row. Co-ordinated by Environmental Protection UK, Noise Action Week aims to raise awareness of the cost of noise to the health and wellbeing of communities and individuals as well as helping tackle noise problems in our neighbourhoods. […] The post Vent-Axia Supports Noise Action Week 2018 appeared first on SPECIFIER...

Vent-Axia Supports Noise Action Week 2018

Vent-Axia is delighted to be supporting Noise Action Week (21-26 May 2018) for the sixth year in a row. Co-ordinated by Environmental Protection UK, Noise Action Week aims to raise awareness of the cost of noise to the health and wellbeing of communities and individuals as well as helping tackle noise problems in our neighbourhoods. At Vent-Axia the company also aims to help tackle household noise through a focus on continuing improvement through its R&D to produce the quietest products on the market, including the Lo-Carbon Svara and the Silent Fan, which both have a Quiet Mark.

Leading the way in silent fan design, Vent-Axia is committed to reducing sound levels in its products to help create a peaceful home environment. Sound levels are an important comfort issue, with nuisance noise causing unnecessary stress in the home. A raft of research has highlighted the detrimental health impact of noise with the Chief Medical Officer’s 2017 Annual Report ‘Health Impacts of all Pollution’ confirming the effects of noise pollution, stating “Noise stands second to poor air quality in terms of the burden of ill health caused by a single pollutant.”

“We are delighted to once again be supporting Noise Action Week. Excessive noise causes many problems and is now proven to affect our health and wellbeing so this initiative is an important way of highlighting the benefits of noise reduction. At Vent-Axia we are committed to developing quiet ventilation solutions that meet our customers’ needs. We have a sound laboratory and use computational fluid dynamics to ensure we can provide the quietest ventilation on the market” said Jenny Smith, Marketing Manager at Vent-Axia.

Offering a solution to noisy extract fans, Vent-Axia’s Lo-Carbon Svara and Silent Fan have both been awarded the Quiet Mark by the Noise Abatement Society, a mark of approval given World-Wide to manufacturers of the quietest products on the market and validated by the UK’s Association of Noise Consultants. The highly sophisticated Svara ensures quiet, disturbance free running with good indoor air quality and comfort. Easy and flexible to install and maintain, it offers a range of features that avoid nuisance running, a clever light sensor that recognises room occupancy and an effective humidistat which reacts to sharp changes in humidity. Meanwhile the innovative Silent Fan is ideal for refurbishment projects and is the quietest intermittent fan available, operating at just 14dBA. A recent redesign now offers ‘visual’ silence as well as acoustic silence, with simple, clean lines and an attractive slimline fascia that looks like a bathroom tile ensuring it is unobtrusive for households who can relax in comfort, free from noise-related stress.

Meanwhile, for the social housing sector Vent-Axia’s Lo-Carbon Revive has been designed to meet the specific needs of the social housing sector, providing good indoor air quality and comfort for residents while being quick and easy to install, low maintenance and reliable. With resident satisfaction vital, Vent-Axia’s R&D department has developed Revive’s innovative Multi-Vortex™ technology which has a high-pressure hybrid impellor that is powerful and efficient, yet quiet. The fan operates discreetly providing continuous ventilation, removing moisture and stale air, leaving a comfortable home environment.

Sentinel Kinetic Advance

For the New Build sector, Vent-Axia’s Sentinel Kinetic Advance Mechanical Ventilation with Heat Recovery (MVHR) offers exceptional efficiency, near silent operation, high pressure development and improved indoor air quality. The Advance also features time-saving commissioning and control via a unique web-enabled App. Featuring trickle settings of up to 40% that still stay below 20dBA the Advance boasts a specific fan power (SFP) as low as 0.38W/l/s, combined with 93% heat recovery and a high pressure airflow of 100l/s at 150Pa. Maximised airflows and minimised noise and energy are achieved through cutting-edge EC motor and highly sculpted interiors.

For further information on all products and services offered by Vent-Axia telephone 0844 856 0590 or visit www.vent-axia.com.

The post Vent-Axia Supports Noise Action Week 2018 appeared first on SPECIFIER REVIEW.



It’s time to embrace the ‘living wall’ years

It’s time to embrace the ‘living wall’ years Ellina Webb looks at some of the most successful examples of living walls in the UK Over the past few years the number of buildings with living walls both internally and on the external facade has grown in popularity. Not only do they look nice but they also help to regulate indoor temperature, combat external […] The post It’s time to embrace the ‘living wall’ years appeared first on SPECIFIER...

It’s time to embrace the ‘living wall’ years

Ellina Webb looks at some of the most successful examples of living walls in the UK

Over the past few years the number of buildings with living walls both internally and on the external facade has grown in popularity.

Not only do they look nice but they also help to regulate indoor temperature, combat external air pollution, absorb rainwater and increase biodiversity.

So what are the most successful examples of living walls across the UK urban landscape and do they have more benefits than we first thought?

The benefits of a living wall

The insulation levels and air tightness of buildings is a concept that continues to gain emphases in the built environment. Reducing running costs, maintaining indoor air temperatures and blocking out pollutants are some of the many things that our buildings need to comply with in order to be premium stock; and living walls are a great way to achieve a number of these.

Foliage around a building acts as an insulation jacket, allowing buildings to stay warmer in winter and colder in summer; in fact tests have shown temperature differences of up to 17C between hard and vegetated surfaces. Furthermore, due to these energy changes in buildings that have a living wall, this solar radiation which is absorbed by the plants (transferring it into sensible and latent heat) can actually combat Urban Heat Island; an issue which I have previously spoken about here.

“A green living wall not only has the potential to keep a building colder in summer, it can also absorb solar radiation making its cooling potential a game changer in Urban Heat Islands like central London”.

Living walls are also proving to be great for wellbeing as greenery can provide uplifting and calming effects on people, reducing stress and purifying air so illness levels are reduced. Green space has also proven to increase workspace productivity, as I have explored previously here.

Living walls are also a great way to protect a building from wind and weather and are visual indicators of sustainable design, which can often help with planning permission.

This article was originally featured on The Hub. To continue reading visit: https://les.mitsubishielectric.co.uk/the-hub/embrace-livingwalls

The post It’s time to embrace the ‘living wall’ years appeared first on SPECIFIER REVIEW.



Artificial intelligence used in major study analysing occupant behaviour to enhance building energy performance

Artificial intelligence used in major study analysing occupant behaviour to enhance building energy performance The work, using AI’s Machine Learning, aims to combat and minimise the ‘energy performance gap’ in buildings ARTIFICAL intelligence has been at the centre of many media reports recently and a researcher at the University of Huddersfield will demonstrate how it can be a better way to better predict building energy usage. Rima Alaaeddine is […] The post Artificial...

Artificial intelligence used in major study analysing occupant behaviour to enhance building energy performance

The work, using AI’s Machine Learning, aims to combat and minimise the ‘energy performance gap’ in buildings

ARTIFICAL intelligence has been at the centre of many media reports recently and a researcher at the University of Huddersfield will demonstrate how it can be a better way to better predict building energy usage.

Rima Alaaeddine is a PhD researcher within the University’s School of Art Design and Architecture.  Her research aims to combat and minimise the ‘energy performance gap’ and could benefit the building sector at a time when there is increasing pressure on industries around the world to conserve their energy consumption.

The term ‘energy performance gap’ arises when a building consumes more energy than was initially predicted during the design phase.  This gap is attributed to a set of variables such as environmental conditions, building characteristics and occupancy.

Occupants have significant impacts on building energy use, and there is complexity in predicting how much energy a building’s occupants will consume and the way they individually interact with the building on a daily basis, known as ‘Occupants Behaviour’.

This includes actions such as their use of lighting, hot water, electricity, appliances and the way they interact with the building for example, opening windows and controlling their heating, ventilation and air conditioning systems.

Rima’s research could play an important part in helping the construction industry meet strict energy efficiency targets, recently set by the UK Government as part of a new energy strategy.  With the energy consumption of buildings accounting for 30 per cent of the entire global energy use, improving the energy efficiency of buildings is one of the key strategic objectives.  More accurate energy predications can facilitate building energy optimisation and guide decisions regarding the building energy performance.

“My research will employ a branch of Artificial Intelligence (AI) entitled Machine Learning,” said Rima.

She explains how by employing machine learning techniques are capable of handling complex and non-linear problems and can offer more accurate predictions on occupants’ behaviour

Rima’s project is already receiving national recognition.  The 27-year-old researcher was shortlisted from hundreds of applicants from across the UK to present her research in Parliament, as part of the annual STEM for BRITAIN competition, to a range of politicians and a panel of expert judges.

The prestigious poster competition, headed by the Parliamentary and Scientific Committee, was organised in collaboration with the Royal Academy of Engineering, the Royal Society of Chemistry, the Institute of Physics, the Royal Society of Biology, The Physiological Society and the Council for the Mathematical Sciences.

Rima’s entry was entitled ‘Minimizing the energy performance gap by application of an integrative machine learning methodology for occupants’ behaviour prediction’ and she said it was an honour taking part in STEM for BRITAIN and to be given the opportunity to present her work in Parliament.

“The event provided me with an opportunity to communicate my research as widely as possible, to inform and enthuse non-scientific audiences about my research in the building energy performance realm aiming to unveil the benefits it brings,” she said.

The University of Huddersfield – Inspiring Tomorrow's Professionals

Rima Alaaeddine

The University of Huddersfield – Inspiring Tomorrow’s Professionals

The University of Huddersfield has a growing reputation as an inspiring, innovative provider of higher education of international renown.  Recognised as a leader in enterprise and innovation, the University has been the recipient of the Times Higher Education’s University of the Year Award and Entrepreneurial University of the Year and was awarded a Queen’s Awards for Enterprise.  In the 2015, the University achieved 5 star status from international ratings organisation QS Stars in the areas of teaching, internationalisation, employability, and for facilities and access.   It is currently number one in England for the proportion of staff with teaching qualifications and recently became one of the few universities in the UK to be awarded the ‘Gold’ standard in the Government’s new Teaching Excellence Framework.

The University annually welcomes over 19,000 students to a range of undergraduate and postgraduate programmes across subjects covering…

…the sciences, engineering and IT

…health, education and the social sciences

…business, management, law and accountancy

…architecture, design, humanities and the arts.

The University of Huddersfield’s researchers are dedicated to solving the problems and answering the questions posed by industry, science and society as a whole.  Its research is showcased by internationally-recognised centres of excellence, strategic industry relationships and a commitment to providing state-of-the-art facilities and equipment.

The Chancellor of the University is His Royal Highness The Duke of York, KG, and the Vice-Chancellor is Professor Bob Cryan CBE.

https://www.hud.ac.uk/news/art-design-and-architecture/

The post Artificial intelligence used in major study analysing occupant behaviour to enhance building energy performance appeared first on SPECIFIER REVIEW.



Ultra Quiet Ecodan takes heat pumps to the next level

Ultra Quiet Ecodan takes heat pumps to the next level Mitsubishi Electric has launched some of the quietest air source heat pumps ever available in the UK to offer complete flexibility on where units can be installed whilst meeting Permitted Development. The Ultra Quiet Ecodan air source heat pumps are available in 8.5kW and 11.2kW sizes with sound levels that are three times quieter than […] The post Ultra Quiet Ecodan takes heat pumps to the next level appeared first on SPECIFIER...

Ultra Quiet Ecodan takes heat pumps to the next level

Mitsubishi Electric has launched some of the quietest air source heat pumps ever available in the UK to offer complete flexibility on where units can be installed whilst meeting Permitted Development.

The Ultra Quiet Ecodan air source heat pumps are available in 8.5kW and 11.2kW sizes with sound levels that are three times quieter than previous models, virtually eliminating planning restrictions.

Designed specifically for residential applications, these models offer superb, market-leading energy efficiency and sound levels and enable almost any home to benefit from high performance, renewable heating.

“The government has already recognised how important air source heat pumps will be for the future of low carbon heating in the UK and is forecasting one million sales a year by 2030,” says Max Halliwell, Product Manager for the company’s renewable heating systems.

“One of the key areas that will affect adoption of these energy-saving systems is noise which is why permitted development exists and these new units are designed specifically to overcome any issues with noise.”

In the residential environment, sound is important because low sound increases the flexibility of where a heat pump can be positioned. To ensure neighbours aren’t disturbed, Permitted Development requires sound levels to meet certain limitations, with the sound pressure level not exceeding 42 decibels, dB(A) when measured at a point one metre away from the neighbour’s nearest door or window.

Mitsubishi Electric

“Our market leading Ecodan heat pumps have always been amongst the quietest on the market and are designed to provide any home with reliable, trouble-free renewable heating and hot water,” adds Halliwell.

“New Ultra Quiet Ecodan takes this to the next level with low sound and high performance which mean homeowners can now choose the most convenient location for their heat pump, giving complete flexibility on placement and still meeting Permitted Development requirements.”

The 8.5kW Ultra Quiet Ecodan has a sound power level of only 58 dB(A) which is an 8 dB(A) drop over the model it replaces. It also has a sound pressure level of just 45 dB(A) at one metre. Ultra Quiet Ecodan

Sound power can be thought of as the cause of a noise or the total sound energy emitted by a source in all directions, whereas sound pressure is the effect or the sound we hear and this is determined by the environment and by the distance from the source of sound. We think of this as the intensity or loudness of a sound. An ambulance registers 120 dB(A) whereas a vacuum cleaner registers around 73 dB(A) and typical room conversation comes in at around 60 dB(A).

“With a sound pressure level of just 45 dB(A), the new Ecodan is whisper-quiet, with levels just above that of a library, meaning it will pass the Permitted Development requirements easily and can be installed almost anywhere to suit the homeowner,” explains Halliwell.

“This is a result of a decade of manufacturing Ecodan in Scotland and we have used this knowledge and experience to refine Ecodan and design it specifically for UK residential use.”

Mitsubishi Electric

 

Mitsubishi Electric

Innovations in fan and compressor design have enabled the units to achieve such low levels of sound whilst increasing performance and efficiency. Both models in the range (PUHZ-W85VAA and PUHZ-112VAA) are A++ ErP rated and also available with coastal protection for areas where they can be exposed to saline.

Further details on the performance of the units including a short animation on the importance of sound levels in achieving Permitted Development can be found at the dedicated website https://ultraquietecodan.co.uk.

 

The post Ultra Quiet Ecodan takes heat pumps to the next level appeared first on SPECIFIER REVIEW.



Award for urban redevelopment scheme in Porto, Portugal, featuring landscape design by Grant Associates

Award for urban redevelopment scheme in Porto, Portugal, featuring landscape design by Grant Associates A significant mixed-use urban regeneration scheme designed by Bogle Architects and Grant Associates for Portugal’s coastal city of Porto has been awarded a Commendation at the 2018 MIPIM/The Architectural Review: Future Projects Awards. Featuring a landscape and public realm design strategy by Grant Associates, the development project received the accolade for the Future Project...

Award for urban redevelopment scheme in Porto, Portugal, featuring landscape design by Grant Associates

A significant mixed-use urban regeneration scheme designed by Bogle Architects and Grant Associates for Portugal’s coastal city of Porto has been awarded a Commendation at the 2018 MIPIM/The Architectural Review: Future Projects Awards.

Featuring a landscape and public realm design strategy by Grant Associates, the development project received the accolade for the Future Project Awards’ highly competitive mixed-use category, which attracts entries from around the world.

Porto’s largest development in recent years will see the creation of a new hub for student accommodation and residential apartments along with offices, retail and leisure facilities at Rua Amial in Paranhos, which lies at the heart of Porto’s innovation district.

The 7.8 hectare site was established as a tannery in 1920 and some of the original buildings will form a focus for the site’s regeneration through its transformation into a new ‘mercado’ – a contemporary market place with restaurants/food courts and leisure use at the heart of the development.

The overall vision is to create a unique, diversified destination focused on student accommodation and residential apartments, as well as ‘incubator’ offices focused on the tech sector. Developed as a joint venture by London based Round Hill Capital and MEFIC Capital, which have made a €100 million investment, the project team aims to address the significant demand/supply imbalance for student housing in Porto.

The scheme’s first buildings are expected to be completed by 2020 – exactly 100 years after the creation of the original tannery.

Other key project team members for the scheme include Lisbon based CPU Architects International, which is working with main architect Bogle Architects, to support the delivery of the concept design plans.

Keith French, director at Grant Associates, comments: “Grant Associates’ landscape and public realm proposals will help create a unifying and coherent layout for the site’s diverse uses, and enhance connections with the surrounding area and communities, which includes universities, teaching hospitals, research facilities as well as key transport links. A vibrant series of spaces and routes to enhance the public realm include an event square, water garden and series of courtyard gardens.”

http://grant-associates.uk.com/

The post Award for urban redevelopment scheme in Porto, Portugal, featuring landscape design by Grant Associates appeared first on SPECIFIER REVIEW.



Subscribe to RSS Feed
Other Related Blogs

Link to Category: Home Repair Blogs


Or if you prefer use one of our linkware images? Click here