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Rinnai, designer and manufacturer of the A-rated energy efficient Infinity range of continuous flow gas fired water heaters, has announced its official event sponsorship of the 2015 FIFA Club World Cup tournament.

The event, which is FIFA’s largest annual event, will take place in Japan from 10-20 December and is expected to attract millions of TV viewers in 219 countries across the world.

Rinnai’s official event sponsorship provides them with rights locally within Japan and will see its logo reproduced on banners around the perimeter of the pitch at the FIFA Club World Cup 2015 matches as well as on signage around the participating stadia in Osaka and Yokohama. The Rinnai logo will also be imprinted on all official marketing material for the tournament and on the FIFA website.

The football competition is a fitting platform for the company’s sponsorship. Rinnai is a global leader in gas appliance manufacturing, specialising in the development of commercial and domestic water heaters.

The FIFA Club World Cup 2015 sets the winning clubs of the six main continental football confederations competing for the title of Club World Champion 2015 along with a team from the host country.

The FIFA Club World Cup 2015 will feature clubs including River Plate, Barcelona, TP Mazembe, Club América and Auckland City as well as the winners of the 2015 AFC Champions League and of the 2015 J1 League.

For more information on the RINNAI product range visit www.rinnaiuk.com.

weber.therm XM External Wall Insulation ( EWI) has been installed on a two-storey end of terrace, privately owned property in the Brislington area of Bristol. This is just one of several upgrades being undertaken by the homeowner which have included the addition of a large extension to the side of the property; a loft conversion; the addition of a garden room to the rear and new windows and doors throughout.

“We bought this 1960s property knowing that a substantial makeover was needed and being in the construction business I could see the potential and have managed a lot of the work myself,” says Mark Holden, property owner. “The property was unattractive, even ugly, with hard to treat solid walls, and it was cold. We wanted a more attractive home and greater comfort for our young family.”

The application of BBA accredited and Energy Saving Trust listed weber.therm XM EWI was carried out by M P Plastering Limited, Somerset, renowned for excellent render application skills and experienced with use of the weber.therm EWI systems. The couple sought Green Deal funding with the help of M P Plastering, a Green Deal certified applicator, and successfully achieved a 75% contribution toward the £9,000 cost of the EWI project.

“The Green Deal funding was surprisingly easy to achieve,” says Mark Pickthall, M P Plastering, “which is just as well considering how cold the house was and that there was a young family to keep warm. The property looks completely different now with the application of Weber’s EWI system. We like everything about Weber from start to finish. Great representation, excellent technical support, industry-leading warranties and products that are consistently reliable.”

The weber.therm XM EWI system used on this property included 90mm thick expanded polystyrene (EPS) insulation which was mechanically fixed to the outer skin of the wall substrate. The render process requires two passes of weber.rend LAC, a cementitious render into which the fibreglass reinforcement meshcloth is embedded to give a robust render coat. When dry the surface is primed with weber PR310 in preparation for a 1.5mm thin coat decorative finish of weber.plast TF, an acrylic based, pre-mixed, textured finish, in Winter White. The porch has been finished in weber.pral M one-coat, through-coloured monocouche render in Chalk. weber.therm XM EWI is capable of substantially improving the U-value of a property in a retrofit project, and produces exceptional levels of energy efficiency on new builds.

“Where I had made additions and re-modelled the internal space the external walls were in an awful state. And from an aesthetics angle, it was great to cover the whole exterior with EWI. We can no longer see the scars and joints,” continues Mark. “Work started at the coldest time of year in November 2014, but within weeks we were feeling the benefit of the EWI. During a particularly cold spell we found there was no need to switch the heating back on after the timer programme had lapsed each morning which would have been necessary previously.” By February the property was fully wrapped and rendered.

“The massive visual improvement to our home is quite amazing,” says Mark, “but the saving we have made on our monthly fuel outlay is incredible. From an average of £150 per month during the winter months we are now paying around £80 a month, that’s a very big saving for a family.”

“We have carried out many projects on this property and my wife and I agree the EWI application has been by far the most successful element of our plans.”

Weber products are manufactured from carefully selected raw materials at purpose-built facilities in Bedfordshire, Shropshire and Ireland where quality and consistency is achieved.
For more information about this project, or for technical support, please contact Saint-Gobain Weber on 08703 330 070, or visit www.netweber.co.uk. Customers in Ireland should call 028 9335 2999 or visit www.weber.ie.

A free download of the new weber.app for iPhone and iPad users is also available from iTunes and from Google Play for Android smartphones and tablet users. Follow Saint-Gobain Weber on Twitter @SGWeberUK for the latest company news and updates.

The Rinnai range of Energysaver fanned convection powered flue gas fired space heaters offers the highest efficiencies on the market.

The range has been designed specifically for use in schools, community centres, libraries, conservatories and churches and other large enclosed spaces where they offer exceptionally high efficiencies in operation and contribute to drastically reduced running costs.

The Energysaver 1004T has an input of 11.6kW and outputs 10.23kW. Its measurements are 670mm x 930mm x 315mm and it has energy efficiencies of 96% under the guidance of Part L 2014. This puts it in the top rank of space heaters in its class.

It provides safe, controllable heat with maximum energy efficiency, combined with flexibility of location.

The heater is also suitable for central timer control. This feature allows the building manager to run any number of Rinnai space heaters off a central time clock providing heat to the large of spaces. The Energysaver Multi controller is not limited to single Energysavers as the flexibility of the system guarantees units can be mixed and matched to satisfy even the most unique of buildings.

The units are encased in a low surface temperature (LST) casing to avoid any risk of burns and offer easy on/off operation and intelligent features such as self-diagnostics and a self-learning pre-heat time to maximise heat up time and energy consumption. Warm air is delivered at floor level for greater comfort and coverage of even greater spaces.

Rinnai Energysaver units are very easy to install as there is no need for expensive (and extensive) ductwork, nor do they involve to running heating circuits for radiators or pipework to boilers. This cuts down drastically on cost and time at the point of installation.

The Rinnai Energysaver 1004T delivers energy-efficient and consistent warm air powered by Natural Gas and LPG options via fully modulating burners so heat and energy input is significantly reduced as the space warms up.

“Rinnai energy saver space heaters really do deliver a cost saving on installation, low operational costs and maintenance, lower life cycle costs, lower replacement costs, high energy efficiencies. They are infinitely suitable for refurbishment projects and, due to Rinnai’s confidence in the superiority of its engineering processes, they come with a 15-year warranty on the heat exchanger,” explains Chris Goggin, Associate Director of Rinnai UK.

The Rinnai Energysaver range comprises fanned convection-powered flue models that exceed seasonal thermal heating guidance under Building Regs Part L, while also heating the usable space within buildings, ensuring comfort, efficiency and compliance.

For more information on the RINNAI product range visit www.rinnaiuk.com.

18 countries and over 60 organizations launch an unprecedented global alliance for buildings and construction to combat climate change.

Ministers from Cameroon, Finland, France, Morocco, Senegal and Sweden, international organizations, multinational CEOs and civil society leaders launch the alliance to speed up and scale up the potential of the sector for climate action.

18 countries (Austria, Brazil, Cameroon, Canada, Finland, France, Germany, Indonesia, Japan, Mexico, Morocco, Norway, Senegal, Singapore, Sweden, Tunisia, Ukraine, United Arab Emirates, United States of America), and over 60 organizations on Thursday launched an unprecedented Global Alliance for Buildings and Construction to speed up and scale up the sector¹s huge potential to reduce its emissions and literally build greater climate resilience into future cities and infrastructure.

The Alliance, which gathers organizations from countries to cities, NGOs, public and private organizations, networks of professionals, of cities, of companies as well as financing institutions, announced the initiative at the Lima to Paris Action Agenda Focus on Buildings, in Paris. Among other members, the International Union of Architects (UIA) now represents, through national architecture organizations, close to 1,3 million architects worldwide; the World Green Building Council (WGBC) represents 27000 companies involved in green buildings business worldwide; the Royal Institution of Chartered Surveyors (RICS) represents 180000 building surveyors globally; the European Construction Industry Federation (FIEC) represents the construction sector employers through 33 national federations in 29 countries.

The buildings and construction sector is responsible for 30 per cent of global CO2 emissions but it also has the potential to avoid about 3.2GtCO2 by 2050 through mainstreaming today’s available state-of-the-art policies and technologies. Reducing energy demand in the building sector is one of the most cost-effective strategies for achieving significant greenhouse gas reductions.

Real estate represents about 50% of global wealth. Creating this transformation requires investing around an additional US$220 billion by 2020 ­ an almost 50% increase on 2014 investment in energy efficient buildings ­ but less than 4% of the current total global annual investment in construction activity ($8.5 trillion/yr). Returns on this investment could be as high as 124% if investments in ambitious policy and technology actions are being made now.

As of today, 91 countries have included elements of commitments, national programs, or projects and plans relating to buildings in their Intended Nationally Determined Contributions (INDCs), the declarations by countries of what they are prepared to commit to.

With support and greater awareness, many more may realize the potential for the building sector to contribute to realizing national targets. Yet, the building sector is very local and needs to align many different actors, which is a primary objective of the new alliance.

As cities keep on growing until more than 70% of the global population will call urban areas home, it becomes crucial for the sector to reduce its emissions and literally build in greater resilience against climate change.

Action will include:

  • minimizing energy demand
  • greening the construction value chain
  • integrating renewables through district energy
  • implementing integrated building design and urban planning
  • engaging financing institutions.

Study shows typical BREEAM Excellent building saves in excess of 30% CO2.

A new briefing paper gives an overview of sustainability standard BREEAM’s contribution to global carbon reduction in buildings. Published during global climate change conference COP21, the paper also gives details of how BREEAM has evolved since the standard was created 25 years ago and how it might develop in future so it continues to challenge the industry to go beyond standard practice.

The paper includes an analysis of assessment data (from 2011 onwards) shows that BREEAM assessed buildings achieve an average 22% reduction in CO2 emissions compared to buildings designed to regulatory minimum performance requirements. BREEAM Excellent buildings save more than 30% and Outstanding rated buildings in excess of 50%. To date over 530,000 building and homes have applied the standard in over 70 countries around the world.

‘On Monday over 150 world leaders gathered in Paris to discuss how to drive down carbon emissions and manage rising temperatures due to climate change. Given that buildings and homes together account for over 40% of the UK’s total carbon emissions, it’s more important than ever that standards like BREEAM are used to drive down emissions and reduce running costs over the life time of a building.’ said Director of BREEAM Gavin Dunn.

The paper says that one of the main aims of the BREEAM energy strategy moving forward is to strengthen the links between schemes covering different life cycle stages, with a particular focus on the relationship between the New Construction and In-Use schemes, and opportunities for addressing the ‘performance gap’.

This week BRE made a pledge to reduce further reduce CO2 emissions over the next 5 years by 900,000 tonnes, by certifying a further 9000 commercial buildings to the BREEAM standard. This pledge, together with other pledges from leading organisations in the built environment, forms part of the “Collective Commitment” created by the World Green Building Council as part of COP21.

Copies of the paper and details of BRE’s BREEAM pledge are available at www.breeam.com/cop21.

Dr Chris Iddon, Design Manager with SE Controls, explores the growing issue of corridor overheating and studies into real buildings are enabling effective solutions to be applied to the problem.

In some ways it is ironic that the issue of building overheating can be partly accredited to the increased drive towards improving energy efficiency. This fact has been recognised by the Zero Carbon Hub in its recent report into overheating in homes, as well as CIBSE’s latest revision to its ‘Guide A: Environmental Design’ (8th edition 2015), which specifically identifies the potential causes and consequences of corridor overheating.

It wasn’t that long ago that, if a building’s occupants got too hot, they opened a window or turned up the air conditioning to return the internal temperature to within more comfortable parameters, although there are clearly some significant issues with this simplistic approach to temperature management. However, during the past 25 years or so, concerns over climate change, dwindling fuel resources and increasing energy costs, has resulted a much stricter legislative and regulatory environment governing building design and energy management.

Within this framework, retaining heat within a building is usually a key design goal, as it reduces energy demand for heating and the cost of maintaining a comfortable internal environment, the application of these various energy reduction techniques can have some surprising and unintended consequences.

Multi storey residential blocks, for example, are subject to the specifications for ‘leakage’, ‘infiltration’ and energy performance, yet as Building Regulations deals only with the dwellings themselves a building’s circulation spaces are excluded.

As innovative building designs seek to legitimately maximise rentable space, this often creates ‘landlocked’ spaces that have no ventilation. Given that corridors are often sealed by fire doors and the practice of routing heating pipework through ceiling voids is a common solution, it’s unsurprising that communal corridor temperatures can readily exceed 35 degrees Celsius.

Understanding the dynamics of overheating

For a number of years, SE Controls has been directly involved with various consultants; developers and contractors to not only address the issue by providing specific solutions to improve ventilation and cooling, but also to obtain a more detailed understanding of the dynamics involved in the overheating of corridors and circulation spaces.

By undertaking detailed studies of real buildings and combining them with theoretical computer thermal modelling, it has not only been possible to refine the modelling algorithms and make them even more accurate, but also design effective solutions that can address the problem using a building’s existing smoke control system.

As smoke control ventilation systems are a legal requirements in buildings over three storeys high, it makes financial and practical sense to adapt the existing system, enabling it to undertake the additional role of day to day environmental ventilation and cooling of circulation spaces.

Among the various corridor-overheating projects undertaken, one of the most interesting was a study we undertook that evaluated a London building with circulation space ventilation incorporated within the design from the outset and compared it to one in Kent where no similar ventilation solution had been installed. As overheating issues typically become more intense during summer months, the study was conducted between 19th June and 29th December 2014, which also provided data during autumn and early winter for comparative purposes.

Temperature measurement and adaptive comfort

Hourly temperatures in the first floor lobby of both buildings were monitored to obtain a clearer picture of the internal thermal profile, while corresponding hourly external weather information from RAF Northolt provided relevant ‘ambient’ temperature data for the same period. During the study, a MET Office Level 2 heatwave warning (max temperature of 30 degrees Celsius) was issued for 18th to 20th July.

Results analysis – the heat is on

Over the duration of the study, the external temperature ranged from a minimum of – 6°C during December to a maximum of 30°C in July, giving and average of 12°C throughout the period.

In comparison, the London building, which utilised its smoke ventilation system to provide supplementary environmental ventilation, the average temperature was 18.6°C with corresponding minimum and maximum figures of 10.3°C and 27.3°C respectively.

However, in stark contrast, the Kent building with unventilated corridors recorded some disturbing results with temperatures ranging from 22.3°C up to an extremely uncomfortable high of 33.8°C with an average 28.5°C.

Even more concerning is the fact that for 64% of the total monitoring period, the Kent property’s temperature exceeded 28°C, which is significantly above current CIBSE guidance on overheating thresholds where 28°C should be exceeded for less than 1% of the time.

The comparative temperature distribution analysis for both buildings also showed a significant difference with the most frequent internal temperature for Kent being 28-29°C, while in London, the figures were 8 degrees cooler at 20-21°C.

Although this study was focused specifically on temperature parameters within the two buildings, it must be remembered that where no ventilation is present in sealed or ‘landlocked’ spaces, the air will usually be stagnant and of poor quality, often containing pathogens along with other contaminants, which cannot be readily ‘flushed’ or vented from the building.

By utilising existing smoke ventilation systems and adapting their operation, without compromising their life critical primary operation characteristics, a simple and cost effective solution is already available that mitigates overheating, improves air quality and helps buildings comply with relevant adaptive comfort guidelines.

The only question that remains, is how many other buildings suffer from the same extreme overheating and air quality issues as those measured in Kent, which are likely to be caused unintentionally, purely by complying with Building Regulations? From the results of SE Controls’ own numerous research studies, the answer is …“probably more than we think.”

For more information please visit www.secontrols.com.

With rising energy costs and a growing requirement for more energy efficient homes and commercial buildings, Fabric First principles are now being widely adopted, particularly within the structural timber sectors.

For the last decade innovators in the construction sector have been developing solutions to address areas of thermal bridging which occur when there is a gap between materials and the structural surfaces. By improving the airtightness of the building fabric and the thermal performance of the structure – cold bridging can be eliminated and thermal performance enhanced – reducing heat loss, carbon emissions and ultimately, offering vast savings on energy consumption.

Numerous technologies looking to maximise offsite manufacturing, have embraced the Fabric First building principles, are now gaining traction with the end users – home owners and developers – particularly in the self-build, education, health care and social housing sectors, where sustainability and ‘whole life costs’ of the building are crucial to the specifying decision process.

The latest technologies will be on show at the Fabric First Event, being held on 18 November 2015 at the Inmarsat Conference Centre, 99 City Road, London, EC1Y 1AX. Tickets cost just £95+VAT and include entry to the conference and exhibition, plus lunch and refreshments throughout the day.

The event brings together distinguished and pioneering speakers from a broad spectrum of the industry drawing upon their considerable experience to deliver a comprehensive programme of policy and regulation presentations, technology and project case studies.

Speakers include:

  • Steve Hornblow – A2 Dominion
  • Douglas Drewniak – Bio Regional
  • Ian Loughnane – Kingspan Timber Solutions
  • Christopher Jofeh – Arup
  • Shaun Fitzgerald – Breathing Buildings
  • David Alderson – Climate Energy Homes
  • Paul Rogatzki – Hanson Group
  • Stewart Dalgarno – Stewart Milne
  • Gordon Evans – YOOP Architectural Practice
  • Ross Holleron – Zero Carbon Hub
  • Jon Bootland – Passivhaus Trust
  • Alasdair Donn – Willmott Dixon

To book your place, simply go to: www.fabricfirstevent.co.uk/book.

Planning applications for solar farms have soared since the Government announced it was consulting on plans to end subsidy schemes for solar farms that produce 5 megawatts (MW) of power or below.

The recent data, compiled by construction data experts Barbour ABI for Building magazine, shows that a record 83 applications for solar farms worth a total of £431m were put in for planning in July, 73 of which were for proposed 5MW or below solar farms.

The research goes on to show that almost two thirds of the solar projects put in for planning in July submitted their applications on or after the 22nd of the month, the day DECC launched a consultation on closing the renewables obligation (RO) for solar farms at 5MW or below in capacity.

To make a comparison, 45 applications were submitted for the entire month of June, where as 51 were submitted in just ten days between the 22nd and the 31st of July, immediately after the subsidy cut announcement.

Commenting on the figures, Michael Dall, lead economist at Barbour ABI, said “It was not surprising to see a flood of applicants trying to get projects in the planning pipeline immediately after the announcement of the Government’s solar subsidy clawbacks.”

“The Government’s stance on solar is that falling costs have made it easier for the industry to survive without subsidies, particularly with the drop in prices for wholesale electricity prices. “

“However the risk here is that diminishing subsidies could falter a growing industry, potentially putting it under major jeopardy. Up to 27,000 jobs are at risk over the coming years in solar alone, not mentioning other renewable technologies, if more subsidy cuts are on the way.”

Following a recent spate of government cuts to renewable incentives and technologies, buildingspecifier hear from an industry expert to understand the impact this has been having on the UK renewables sector as a whole.

It appears that the latter half of 2015 has already seen the death of many earnest eco-friendly practices – first it began with the scrapping of the green deal shortly after an election victory, with no apparent replacement scheme to follow. The Green Deal was far from perfect – but following the subsequent assaults on environmental, ecological and energy matters that followed, such as the U-turn on Zero Carbon Homes building standards, the ending of subsidies for onshore wind farms and a failed attempt to begin fracking in Lancashire despite widespread public opposition, people are beginning to question the seriousness of this government’s commitment to the environment that we all have to live in and the validity of a speech once made by David Cameron where he expressed that he wanted to be “the greenest government ever.”

Most recently, the Department for Energy and Climate Change revealed their intentions to cut subsidies for solar energy by almost 90% from January in a consultation paper that was published earlier this month. This follows George Osborne underlining his determination to get the government’s nuclear energy programme moving by providing a £2bn government guarantee for the delayed Hinkley Point power plant project. So how is this affecting the section of the UK construction industry who specialise in green technology and renewable energy?

Silvio Spiess, founder and CEO of Innasol, the UK’s leading biomass business, comments on the recent green cuts and the uncertainty surrounding the industry.

“Heating constitutes 78% of the average consumer’s energy consumption. It is therefore a no-brainer that heating should be the government’s principal focus over the next few years.”

“The consistent degression of biomass technologies under the government’s Renewable Heat Incentive scheme clearly demonstrates that there is significant appetite in the UK for renewable heating. The tariff for domestic biomass has dropped by 47% over the last nine months, the tariff for small commercial biomass (up to 200kW) has dropped by 53% over the last 15 months – entirely due to consumer popularity. UK home and business owners are calling for affordable, clean energy.”

“The current uncertainty which surrounds renewable heating and other green technologies is only damaging the industry: consumers are less willing to invest in renewable heating technologies and green businesses themselves are less prepared to invest in their staff and infrastructure. By cutting green subsidies, the government is jeopardising the UK’s progression towards cleaner, greener, more affordable energy.”

“Innasol calls on the government to recognise this demand, and to commit to investing in renewable heating past Q1 2016. By reallocating budget to further invest in subsidies (like the Renewable Heat Incentive) to promote renewable heating, the government will propel the UK towards carbon emissions reductions and closer to the EU 2020 targets. Now is the time to act.”

Climate change is arguably the biggest threat to stability and prosperity around the world. Experts agree that by 2035 the concentration of carbon dioxide in the atmosphere will exceed the critical level consistent with a temperature rise of less than 2˚C.

Did you know that the sun delivers 5000 times more power to the surface of Earth than we could ever need? With the cost of renewables slowly but surely falling, something must be done to improve developmental knowledge of renewable energy, which currently recieves less than 2% of the world’s publicly funded research, development and demonstration.

The Global Apollo Program’s website says that their “aim is to accelerate the decarbonisation of the world economy through more rapid technical progress, achieved through an internationally-coordinated program of research and development over a 10-year period.”

An open letter has now been signed by several high profile scientists, businessmen and public figures urging world leaders and citizens of the Earth alike to back the principles of the Global Apollo Program ahead of the UN climate change conference talks which will take place in Paris at the end of 2015.

The letter reads as follows:

We the undersigned believe that global warming can be addressed without adding significant economic costs or burdening taxpayers with more debt.

A sensible approach to tackling climate change will not only pay for itself but provide economic benefits to the nations of the world.

The aspiration of the Global Apollo Program is to make renewable energy cheaper than coal within 10 years. We urge the leading nations of the world to commit to this positive, practical initiative by the Paris climate conference in December.

The plan requires leading governments to invest a total of $15 billion a year in research, development and demonstration of clean energy.

That compares to the $100 billion currently invested in defence R&D globally each year.

Public investment now will save governments huge sums in the future.

What is more, a coordinated R&D plan can help bring energy bills down for billions of consumers.

Renewable energy gets less than 2% of publicly funded R&D. The private sector spends relatively small sums on clean energy research and development.

Just as with the Apollo space missions of the 1960s, great scientific minds must now be assembled to find a solution to one of the biggest challenges we face.

Please support the Global Apollo Program – the world’s 10 year plan for cheaper, cleaner energy.

Signed:
– Sir David Attenborough
– Professor Brian Cox
– Paul Polman, CEO, Unilever
– Arunabha Ghosh, CEO, Council on Energy Environment and Water
– Ed Davey, Former UK Energy Secretary
– Bill Hare, Founder and CEO, Climate Analytics
– Nilesh Y. Jadhav, Program Director, Energy Research Institute @NTU, Singapore
– Niall Dunne, Chief Sustainability Officer, BT
– Carlo Carraro, Director, International Centre for Climate Governance
– Professor Sir Brian Hoskins, Chair, Grantham Institute
– Mark Kenber, CEO, The Climate Group
– Ben Goldsmith, Founder, Menhaden Capital
– Sabina Ratti, Executive Director, FEEM – Fondazione Eni Enrico Mattei
– Lord Browne, Chairman L1 Energy
– Zac Goldsmith MP
– Professor Martin Siegert, Co-Director Grantham Institute
– Professor Joanna Haigh CBE, Co-Director, Grantham Institute and Vice President of Royal Meteorological Society
– Peter Bakker, President, World Business Council for Sustainable Development
– Dr Fatima Denton, African Climate Policy Centre
– Denys Shortt, CEO, DCS Group
– Lord Turner, Former Chairman, Financial Services Authority
– Lord O’Donnell, Former Cabinet Secretary
– Lord Layard, London School of Economics
– Professor John Shepherd CBE FRS
– Lord Martin Rees, Astronomer Royal

Watch the video below to find out more about the Global Apollo Program – a 10 year project that aims to coordinate international research and development and discover breakthrough clean technologies to tackle climate change.