"combined heat and power systems"

As the centrepiece to British Land’s regeneration of Regents Place, 10 Brock Street is a distinctive 16 storey, 320,000 sq ft landmark office development in the heart of London. Completed in 2013, the building achieved the coveted BREEAM ‘Excellent’ rating thanks to a number of features, including rainwater harvesting system and combined heat and power systems. British Land’s property management company, Broadgate Estates, approached INTRAsystems to remove and replace the three entrance mats at the front and rear entranceways. Find out more

South Lanarkshire College (SLC) in Scotland has opened a new, ‘zero-energy’ teaching block on its East Kilbride campus. Specifically designed with first-rate environmental credentials in mind, it boasts a whole host of efficiency-enhancing measures – including highly insulated floors, walls and roofs, triple-glazed windows, low-energy lighting and electrics, rainwater harvesting and solar PV panels on the roof. The college approached NIBE Pro Installer Anderson Floor Warming and Renewables in search of a system that would meet the heating requirements of the eight-classroom block in the most sustainable, cost-effective and reliable way possible.The SolutionSLC already has a range of NIBE products in its on-site renewables training centre, which students use for practical sessions, so a heat pump from NIBE was the natural choice to heat the new block. Mike Anderson, director at Anderson Floor Warming and Renewables, specified, designed and fitted a NIBE F1345 40kW ground source heat pump (GSHP) system to complement the building’s water-based underfloor heating, which operates at similarly low flow temperatures.ResultsNow up and running, the NIBE system is so efficient that it has been awarded a rating of A+++ in line with energy labelling criteria under the ErP Directive. SLC’s new teaching block has become the first building in the UK to achieve a BREEAM sustainability rating of ‘Outstanding’, with the facility excelling in all 10 assessment categories – from energy, waste and water to health and wellbeing.Customer Testimonials“We pride ourselves on our forward-thinking approach to sustainability at SLC, and we couldn’t be happier that our new teaching block has been deemed ‘Outstanding’ by BREEAM assessors. The NIBE heat pump system and the solar PV panels combined generate enough renewable energy to meet the block’s entire heating and power needs, making it a ‘zero-energy’ building. It really is a huge asset to the whole college – not only from a resource point of view, but also as a real-life example of sustainability in action. As well as being a valuable learning space for our construction and energy students, it’s a place for us to bring local businesses and community groups, and showcase the benefits of low-carbon, low-resource buildings first-hand.”Stewart McKillop, principal at South Lanarkshire College

Setting the benchmark for UK Waste Authorities, North London Heat and Power are creating one of the most advanced Energy Recovery Facilities (ERF’s) in the world. The new EcoPark will turn non-recyclable rubbish into heat and electricity. Operating under strict regulations, the new site will become one of the cleanest and safest ERF’s in the world.Setting the benchmark for UK Waste Authorities, North London Heat and Power are creating one of the most advanced Energy Recovery Facilities (ERF’s) in the world. The new EcoPark will turn non-recyclable rubbish into heat and electricity. Operating under strict regulations, the new site will become one of the cleanest and safest ERF’s in the world.

Hexham and Northern Mart is an auction house in Hexham (25 miles west of Newcastle), specialising in the sale of livestock and cattle to farmers across the North East of England. The business decided it was time to replace its old gas-fired heating system with a more sustainable alternative – one that would not only reduce energy consumption and running costs, but also earn additional income through the Renewable Heat Incentive (RHI). Minimising impact on day-to-day operations during the transition was another key consideration. Managing director Robert Addison tasked renewable energy specialist and NIBE Pro Installer Calibrate Energy Engineering with finding the right solution to meet the heating and hot water demands of the 112,050sq ft building.The SolutionThe team at Calibrate specified, designed and installed a 300 kW renewable heating system made up of five 60 kW NIBE F1345 ground source heat pump (GSHP) units. They paired this with a 50 kW solar PV array, fitted to the roof of the main pen area, which partially powers the NIBE GSHP system. The in-ground heat collectors required for the GSHP were laid in the fields around the buildings, with the controls units sited in a prefabricated plant room to the rear of the premises. The installation took just three months from start to finish, and during this time it was business as usual for Hexham and Northern Marts.ResultsDocked together in a cascade for greater output capacity, the five NIBE F1345 GSHP units now meet 95% of Hexham and Northern Marts’ 394,000 kW/h annual heating and hot water demand. Meanwhile, the 50 kW solar PV array generates enough free electricity to offset a significant 50% of the power needed to run the GSHP system. Hexham & Northern Marts is set to make a 236% return on investment – reaping an estimated £862,000 in energy savings and commercial RHI payments over the next two decades.Customer Testimonial“We couldn’t be happier with our new renewable heat and power sources. As well as delivering instant reductions in energy usage and subsequent savings on heating bills, the NIBE GSHP solution is providing us with a steady stream of income for the next two decades, thanks to the RHI. The power produced by the solar PV panels is an added bonus, and makes running the heat pump system even more cost-effective.“As a result, we’re expecting to see returns of more than double our original investment over the next 20 years – which is absolutely invaluable from a business point of view. Not only this, but we’ve got an efficient, reliable renewables setup that’s fit for the future, and will continue to deliver ongoing savings for years to come.”Robert Addison, managing director, Hexham & Northern Marts

Hull homeowner Ben Andrew is watching his home energy bills carefully to measure the benefits of switching from an all-gas heating and hot water system to a combination of gas boiler and air source heat pump.

A Wiltshire farmhouse has updated its heating system, replacing its original heat pump with a Grant Aerona³ air source heat pump which has been installed alongside a QR hot water cylinder. The new heat pump and cylinder were integrated alongside an existing solar thermal system, giving the property’s renewable heating system an upgrade.

An iconic feature of the South Bank skyline, Battersea Power Station has been transformed into London's most exciting shopping and Leisure destination. The legendary landmark now boasts shops, restaurants, cinemas, corporate offices and even residential apartments. For one of the most talked about projects in the UK in recent years, there was only one Entrance Matting manufacturer that would fit the bill in this prestigious London location. INTRAflex XT and INTRAflow were both specified across the various entrance ways within the Battersea Power Station complex.The complex has high footfall areas for the shopping centre and leisure areas, residential apartments and corporate offices. This meant the Entrance Matting had to be highly functional and durable without compromising on the stunning designs and finishes planned for this historic renovation.A historic renovationFor a £9bn project, the 8 million sq ft site is now home to a vibrant, mixed-use development for leisure, business and residential visitors and occupants to enjoy. For such an eagerly awaited project, INTRAflex XT was the obvious choice to provide the perfect first impression. Battersea Power Station has the capability to hold thousands of visitors at any one time. The Entrance Matting had to be able to withstand the heavy London foot traffic consistently.The main entrance way consists of large, open doorways exposing them to the elements during bad weather. So, durability was a real priority for this project. As a Grade II listed building, protecting the interior from dirt and moisture with our highly absorbent INTRAlux fibre inserts was another reason why our INTRA products were specified.More than meets the eyeThe aesthetic qualities of INTRAflex XT and INTRAflow were driving factors in the decision to specify our products. Refined and sophisticated, the bronze anodized finish brings a blend of industrial aesthetics with modern appeal that pairs perfectly with the Battersea Power Station interior and the project’s vision to create “a place that embraces our heritage, engages with our present and protects our future”.This meant that, of course, sustainability was of paramount importance. Specifying the sustainable and EPD-certified INTRAflex XT and INTRAflow products helped developers to continue their commitment to the environment. The long disused Battersea Power Station has been given new life to bring it into the modern age. INTRAsystems provides the perfect welcome back to the site with our Entrance Matting solutions that combine chic and subtle design qualities with market-leading performance.

Nearly forty years after the lights were switched off at Battersea Power Station, a decommissioned Grade II listed coal-fired power station, located on the south bank of the River Thames, this much loved London landmark recently re-opened to the public following a transformational eight-year restorationApple Inc. will be leasing approximately 500,000 sq ft. across 6 floors of the central Boiler House and plans to move all of its 1,400 London employees to the new venue. This will make Apple by far the largest tenant at Battersea Power Station.221m² of Stravifloor Channel, a resilient high-performance floating floor based on floor channels containing steel springs as resilient supports was installed to decouple the acoustically critical listening, screening and control room spaces at Battersea Power Station.The added insulation material between the channels contributes to the acoustic optimization of the spaces by preventing the so-called standing wave effect to take place within the air void.During the installation of the acoustic floating floor, careful attention was paid to the many service penetrations as improper installation would most certainly lead to rigid connection which in turn affect the system’s performance.

Humberside homeowner James Clark scrapped the gas combi boiler at his three-year-old house in Welton, for indoor warmth and hot water are now provided by a Daikin air source heat pump that is partly powered by batteries and rooftop solar panels

The fact that power stations produce high levels of noise won’t come as much of a surprise to anyone who has spent more than a few minutes inside one. Quite how dangerous these levels of noise can be, however, might.How Loud is ‘Too Loud’?To give you an idea of the sensitivity of the human ear, the average person can hear sounds down to about 0 decibels (dB), the equivalent of a whisper or rustling leaves, and people with exceptional hearing can detect sounds as low as -15dB.It is at the other end of the scale, however, that serious problems can occur. At around 85dB, you are likely to experience discomfort. As little as eight hours of continuous exposure to this level of noise can result in permanent damage to the inner ear, which is why 85dB is the maximum allowed under the Noise at Work Regulations. At 100dB, just fifteen minutes of exposure can cause permanent damage. And at 110dB the exposure time drops to around a minute before harm is inflicted. Pain is experienced at 125dB and hearing loss can be permanent. At 140dB or above not only is the damage permanent, it is also immediate.The Noise at Work Regulations stipulate that an ‘employer shall ensure that risk from the exposure to noise is either eliminated at source or, where this is not reasonably practicable, reduced to as low a level as is reasonably practicable.” And that “if any employee is likely to be exposed to noise at or above an upper exposure action value, the employer shall reduce exposure to as low a level as is reasonably practicable by establishing and implementing a programme of organisational and technical measures, excluding the provision of personal hearing protectors, which is appropriate to the activity.” In other words, an employer is expected to do everything they can, within reason, to protect their employees from the harmful effects of noise. And, no, it isn’t enough to simply supply a pair of ear-defenders.Noise-Induced Hearing LossThe damage caused by these dangerous levels of noise is referred to as Noise-Induced Hearing Loss or NIHL. NIHL can be caused by a single exposure to a very loud sound or by repeated exposure to even relatively low levels of noise over a long time span. In fact, according to research carried out by Xiaoming Zhou from the East China Normal University in Shanghai, even seemingly innocuous sounds, such as the whirr of a desk fan, can cause damage if exposure is consistent and long-term.To understand how NIHL occurs, it’s necessary to understand how hearing works.The generally accepted view is that sound waves strike the eardrum and these vibrations are translated into coherent information by the brain. It is slightly more complex than that. Sound waves do, indeed, strike the eardrum, causing the eardrum to vibrate. These vibrations are then transmitted through the ossicles (the small bones of the middle ear) to the cochlea, a spiral-shaped chamber filled with fluid and lined with tiny hair cells called stereocilia. The vibrations cause the fluid to move which, in turn, causes the stereocilia to move. The stereocilia’s movements generate neural signals with are picked up by the auditory nerve which ‘forwards’ these signals onto the brain where they are interpreted as intelligible sounds human speech, music, the beep of car horn etc.Exposure to the harmful levels of noise mentioned above can damage the stereocilia, breaking them or flattening them so they no longer vibrate as effectively or so they no longer vibrate at all. The result: impaired hearing or, in extreme cases, total hearing loss.The noise recorded coming from the dry cooling system at the Severn Power CCGT Power Station at Uskmouth B was between 130dB(A) and 135dB(A), a full 50dB above Noise at Work Regulations’ acceptable levels. Regarding dB(A), the human ear does not hear all frequencies with the same intensity. It is most sensitive to sounds in the 500Hz-8kHz range. Above and below this range the ear becomes progressively less sensitive. To compensate for this, sound level meters incorporate electronic filtering to correspond to the varying sensitivities of the ear. This filtering is called A-weighting and readings obtained with this weighting are referred to as A-weighted and signified as dB(A).The Wrong Kind of NoiseAlthough it was identified that the dry cooling system from SPX Cooling Technologies was generating these dangerous and unacceptable levels of noise, it wasn’t the cooling system that was creating the noise. In fact, it was the turbines that were the source of the noise. The steam roaring from the turbines at incredibly high speeds enters the main 5.5m steam ducts, passes up five risers and is channeled into the steam distribution manifolds. Not only does the steam enter the dry cooling system, the accompanying noise does, too. You might think that the 8mm thick steel from which the ducts are constructed would go some way to containing the din. Unfortunately, steel is extremely adept at transmitting noise and is, in many respects, the acoustician’s worst enemy.To make matters worse, when acoustics and soundproofing specialists, CMS Danskin Acoustics, were brought in by SPX and Uskmouth’s main contractors, Siemens, they discovered not only high levels of noise but also that the noise generated had a very low-frequency bias. Low-frequency noise is the most difficult to treat from a soundproofing perspective due to the excessive length of the wave cycle. This is one of the reasons people in apartments, terraced houses and semi-detached homes will often complain of the problems of bass noises intruding from neighbouring properties, as the walls and floors filter out the higher frequencies whilst the lower frequencies manage to penetrate. This can seem a little counterintuitive, as we imagine higher frequency noise to be more piercing. Their short wave-cycle, however, means they can be blocked out with relatively thin soundproofing materials.The low-frequency nature of the noise also meant that this wasn’t just a Noise at Work Regulations problem. Low-frequency noise can be particularly problematic to the population in the vicinity of the source of that noise. Low frequency noise is often not even ‘heard’ in the traditional sense. Complainants often won’t even realise that noise is the problem at all; instead they will describe ‘pressure sensations’ and ‘physical discomfort’, experiencing the incursion as vibrations. Areas of the human body can resonate when exposed to low frequencies. The chest, for example, can resonate at frequencies between 50Hz and 100Hz, and the head at frequencies between 20Hz and 30Hz. It isn’t unusual, therefore, for sufferers of low frequency noise to complain of anxiety, nausea and headaches. Often, they won’t even be aware of the root cause of their symptoms, instead attributing them to a virus or some mystery illness.A New Approach and a Sound SolutionSolutions for low-frequency noise issues typically involve wrapping the problem in significant quantities of acoustic insulation, with many standard solutions being as deep as 500mm to 700mm. The sheer volume of lagging required for an insulation-based approach to a project like Uskmouth, with a daunting 8,000m2 of ducting to be covered, would be expensive, time-consuming to install and prohibitively disruptive. What’s more, there were areas around the ducting at Uskmouth which simply wouldn’t have been able to accommodate such an excessive construction height of soundproofing material.Paul Absolon, CMS Danskin Acoustics’ Technical Director, responded to the challenge of creating a ‘thinner’ soundproofing system that would meet the necessary Noise at Work Regulations requirements but would be cost-effective and efficient to install. In order to minimise disruption to Uskmouth, an off-site simulation was created near Burton on Trent, using a large section of identical ducting with a ‘door’ sealing up either end. Within the duct were several very powerful speakers. For testing, highly sensitive microphones were placed in strategic positions along the outside of the duct to measure any ‘leakage’. Acoustic insulation solutions were conceived, implemented and assessed in this controlled environment with the assistance of Acoustic Consultants Muller-BBM and the installation company Western Thermal Insulations.Exploring a wide range of acoustic materials from CMS Danskin Acoustics’ industrial acoustics range, it was clear that a single product was not going to be able to solve the problem on its own, so Paul opted for a combination of products working in concert, layer upon layer.The first layer consisted of CMS HT1B elastomeric isolation pads, constructed from a polyurethane-bound rubber granulate specifically formulated to dampen and/or isolate noise and vibrations at source and independently tested by the Institute of Structural Dynamics at the Technical University of Dresden. The 50mm thick pads were bonded to the surface of the duct at a rate of nine per square meter, creating 300mm spacings; so, as well as the dampening effects of the material itself, the construction benefited from large, evenly distributed airspaces in its foundations. Sound waves move less effectively through dead air.The second layer consisted of 50mm-thick QuietSlab SVX3, a high-performance, mineral-fibre acoustic lagging. MIMA (the Mineral Wool Insulation Manufacturers Association) describe the acoustic insulation properties of mineral wool (and mineral fibres more generally): “Porous materials such as mineral wool work to control and reduce noise by allowing air movement into the fabric of the material. The fluctuations of air molecules – which form sound waves – move into the body of the mineral wool, where friction between the air particles and the material’s narrow airways cause sound energy to be dissipated as heat.”

A Grant Aerona³ air source heat pump has been installed at a home in Wiltshire, replacing the biomass boiler that was previously heating the property. Working together with an underfloor heating system, the Aerona³ heat pump is operating efficiently to deliver warmth and comfort throughout the home.

The San Siro playing field was designed to be heated using an under-soil system featuring single-head, in-line electronic pumps. In the wider facility areas, a heating substation was installed, incorporating wet-rotor circulators and in-line electronic pumps for the climate conditioning systems. Additionally, co-generation systems with both single-head and twin-head in-line electronic pumps were implemented for auxiliary plants dedicated to heating energy production.Despite the initial investment in inverter technology for the pumps, the operational optimization results in a lower running cost, showcasing a great example of an energy efficient installation.

Salthaven Apartments, Tower Road, Poole, DorsetThe Salthaven apartments in Dorset aimed to deliver luxury living for occupants. Bayview Developments not only constructed beautiful homes for them, but also opted for highly energy efficient heating within the new development.Each of the 12 two or three bed apartments have been fitted with their own individual exhaust air heat pump (EAHP). This technology has been installed in buildings across continental Europe for many years but is now being used more commonly within the UK. Bayview Developments were looking to exceed their planning requirements by reducing carbon emissions and providing cost savings for occupants. NIBE’s innovative EAHPs were therefore the ideal solution.The solution to the projectA NIBE F730 EAHP system removed the need for gas boilers, something Bayview were keen to do given the UK’s net zero targets and commitment to phase out the technology. As heat pump technology is powered by electricity, no gas has been installed at the site.The NIBE F730 unit can be found in the utility room cupboard of each apartment and is comprised of a ventilation system, a hot water cylinder and a heat pump – a complete ‘all-in-one’ product. It works by drawing warm air from the kitchen and bathroom to feed the heat pump, which extracts the heat energy. The recovered energy from the ventilation system is used to drive the heat pump process, which heats the underfloor heating and provides water for the integrated 180litre hot water cylinder. The stale air from the ventilation system is then released outside, whilst fresh air from outdoors is introduced via wall inlets with cleanable filters. The efficient system minimises energy consumption by combing ventilation heat recovery with heat pump technology, that is perfect for well insulated new build properties such as these.The ResultsThe EAHP systems meet the average annual heat demand of 6019 kWh for each individual flat whilst also providing instant hot water. Occupants are able to schedule their heating to suit their timetable and energy tariffs, and therefore benefit from lower energy bills. The system performance factor (SPF) measures 3.33 – this means the system is very efficient as every kW of electricity used to run the unit produces approximately 3 kW of heat energy.NIBE utilised connected electricity meters in 3 apartments to remotely monitor the systems performance across a 12-month period. NIBE was thus able to see how the systems met energy demand consistently for residents, keeping them comfortable and warm throughout the year.Energy consumption data shown in Figure 1 visualises electricity consumption data from the monitored apartments throughout the year. This data also covers the provision of all heat pump controls and continuous mechanical ventilation.Figure 1: 2022 Energy Consumption data for monitored apartments.The all-in-one system has shown a noticeable reduction in energy bills for each apartment too, with all 3 monitored apartments experiencing both monthly and cumulative cost reductions in their energy bills as shown in Figures 2 and 3. This comes with the additional peace of mind that consumers will be kept cool in the summer months with ventilation with no increase in costs.Figure 2 and 3: Monthly and Cumulative Heating Bills for Apartment 11 with the NIBE F730 heat pump compared to a natural gas boiler.The occupants of Apartment 11 are saving on average £130 on their annual heating bills with the heat pump system in comparison to a natural gas boiler, even with the additional provision of mechanical ventilation. We expect that these savings will continue to increase as the Government seeks to rebalance green levies to decrease electricity prices.Sunstone Energy Ltd, the installer for this project, told us how easy the control system is to use for this heat pump, allowing for heating and hot water to be available at any time during the day. The building also benefits from insulation, underfloor heating, smart controls, double glazing, hot water cylinders and mechanical ventilation with heat recovery (MVHR).TestimonialVictoria and John are both residents of the Tower Road apartment complex and have been comfortably living with the exhaust air source heat pump system for a year. They added “We are delighted so far with the new heating system, and love that it has been providing us with heating and hot water throughout the year, keeping us warm in the cold winter months. The heat pump works just as well as our older systems and it is great to know that we’re also doing our bit for the environment in the process.”About the installerSunstone Energy Ltd takes responsibility for delivering complete renewable solutions appropriate to their client’s properties. Their expertise includes the installation of ground source and air source heat pumps, underfloor heating, solar panels, biomass boilers and MVHR.  

Holland Park Villas has set a new benchmark for quality in the super-prime central London residential development market. Unparalleled interior finishes combined with exceptional landscapes to show what a truly world-class team can deliver.On arrival, an impressive 30 year old Acer Palmatum tree takes centre stage. Granite paving, hornbeam trees, ornamental planting and a water wall further add to this sense of elegance and quality.This level of quality and attention to detail continues to areas not easily seen by the new tenants. Around 13,200 m2 of Soundis High density dry screed panels able to span between joists were installed by our installation partner UK Acoustic Systems as a raised access floor system. Chosen primarily for the ease of maintenance and future extensions of the underfloor network, the system is also an integral part of the underfloor heating system.Not only does this system demonstrate its practical heating properties, but the new apartments will also benefit from the pleasant acoustic characteristics provided from the floor system.

The revolutionary, award-winning underfloor heating system Schlüter-BEKOTEC-THERM was the natural choice for one of the UK’s greenest self-build projects.

With outdated electric storage heating in all 72 flats, Places for People knew that heating system upgrades would reduce bills and improve comfort for residents. TMS Electrical Contractors Ltd, based in Rudgwick, Horsham, was instructed to specify the most suitable replacement – and Dimplex Quantum was the obvious choice.

OverviewPowrmatic was selected to supply a frost protection warehouse heating solution for a massive 81,000m² building at Plot 2 at the Midland Logistic Park installed by Phase Mechanical Projects. a combination of 7 TE61 heating units and TE61 Destratifcation units were installed.Project BackgroundThe 81,000m² industrial logistic warehouse required frost protection with design parameters of -5°c external and +5°c internal.SolutionOne of our largest installations to date, 4 x TEG61 air rotation heaters were installed by our trusted partners Phase Mechanical Projects. Each TEG61 heaters boasts an impressive 525kW of heat output and were installed alongside 3 x TE61 destratification units to assist with the air turnover due to the size of the building. The 4 TEG61 heater units selected were designed to move 39m3/s of air around the building per unit, and when combined with 3 TE61 destratification units also at 39m3/s this gave a total air volume of 270m3/s which achieved the required 0.8 air movements per hour from the end client.ResultThe newly styled Powrmatic Air rotation units in our new RAL 7015 colour were installed expertly by Phase Mechanical Projects. The racked logistic warehouse will now benefit from a frost protection system which will protect the internal sprinkler system from freezing in the colder months. Each T.E manufactured at Powrmatic is custom built to specific project requirements.

Standing derelict on the south bank of the River Thames, Battersea Power Station renowned for its four chimneys and art deco design is undergoing a massive phased transformation in a multi-billion redevelopment programme.A ComFlor® composite floor system throughout was chosen for a number of reasons including its ability to provide a solution that is strong and robust and one that was capable of achieving the load and long span requirements. It has a low floor self-weight, obtains good load optimisation and offers fast build times.Prodeck Fixing installed over 135,000m2 of our ComFlor® floor decks on this project which will support the flooring system for the whole project using a mix of ComFlor® profiles

OverviewA successful installation of 40 x Powrmatic SRP U Tubes at a hangar facility in Boscombe. With the system design by Powrmatic, ABS, a leading HVAC and installation company, was entrusted with this significant installation project. The installation aimed to provide efficient heating performance, reduce energy costs, and improve the overall comfort and functionality of the hangar.Project BackgroundThe Weighbridge Hangar Building 499 at MOD Boscombe Down operated by QinetiQ required a new heating system due to the life-expired existing system. The hangar required a powerful heating system that would operate efficiently during the cold winter months while reducing energy costs. A new Powrmatic SRP U-tube herringbone radiant heating system was produced in line with the design intent of WYG on their tender documents. J & B Hopkins secured the M & E contract and employed the services of ABS Ltd to undertake the installation of the radiant heating system. ABS Ltd, formed in 1978, offers a full range of professional services including the installation and maintenance of both radiant and warm air heating systems to both commercial and industrial properties throughout the UK.SolutionThe MOD hangar facility, situated on an exposed location, at Boscombe Down required a robust heating solution to withstand the cold winter months. 40 Powrmatic SRP radiant U Tube PVU50 Hi/Low heaters each rated at 50kW on a herringbone system layout with ducted fresh air onto each burner to comply with fire safety standards were installed by ABS Ltd. To maximize efficiency, the heaters mounted at an impressive height of 23 meters in line with Powrmatic’s design drawings were arranged in 8 lines of 5, with 3 heaters connected to one fan and 2 heaters connected to another fan. The heating system incorporated Powrmatic MC200 controllers and black bulb sensors for precise temperature control across the hangar.ResultThe final stage of the installation was completed by J & B Hopkins, arranging for the necessary gas and electrical distribution services to the radiant heaters and discharge fans. The 40 Powrmatic SRP radiant U Tubes installed by ABS Ltd effectively heated the facility, providing a comfortable and conducive environment for the workforce during the winter season. Additionally, the new heating system reduced energy costs and eliminated the need for multiple exhausts on the rooftop hence retaining the aesthetic design principles of the hangar. The commissioning was successfully carried out when all services were completed, providing a satisfied client with a capable heating installation within the hangar, for the exposed site location.

Royal Winchester HouseComer Homes is renowned for the high quality of its residential and commercial developments, which span London, Hertfordshire, Dorset and throughout the South East. Its latest project is Royal Winchester House, a landmark building of one and two bedroom apartments at the heart of Bracknell's new town centre. As a planning requirement of Bracknell Forest Council, Comer Homes was required to provide a sustainable, low energy form of heating that would offer a reduced carbon footprint, as well as being affordable to run.The SolutionComer Homes specified F730 Exhaust Air Heat Pump systems from NIBE for all 337 apartments on the development to ensure they could meet their renewable targets. The new homes builder employed MKP Consultants Limited to undertake the building services design as they had previous experience of NIBE systems on other apartment developments in the area.The NIBE F730 Exhaust Air Heat Pump system was an ideal solution, as it offers mechanical extract ventilation, alongside heating and hot water in a compact design. The heat pump units were installed in a service cupboard in each apartment, as they have a small footprint of only 0.6m2.NIBE F730 operates by recovering energy from the ventilation air and, if desired, extracted from outdoor air, the heat energy is absorbed by the heat pump using a vapour compression process and subsequently transferred to the water-borne heating system, in this case an underfloor heating system. The integrated 180L domestic hot water cylinder also ensures a plentiful supply for the one- and two-bedroom properties.A sustainable solution, NIBE F730 keeps energy consumption to a minimum. The efficient control system automatically adjusts the indoor climate for maximum comfort for the occupant, using a combination of weather compensated control and the low energy inverter driven compressor.Each apartment is also fitted with a NIBE RMU 40 room controller, to allow greater flexibility of control for users and if required can be easily connected to NIBE’s internet remotely monitoring and control platform UPLINK™.Thanks to this innovative heat pump system, residents at Royal Winchester House are set to benefit from lower energy bills and a reduced carbon footprint.The ResultsThe NIBE F730 system complies with Parts L, F and G of the building regulations, and helps to meet planning requirements designed to reduce energy consumption and carbon footprints within residential housing developments. External noise is kept to a minimum and building aesthetics are unaffected by the need for external plant.TestimonialHead of Projects at Comer Homes, Jack O’Brien explains: “We were looking for a heating and ventilation system that would be both sustainable and affordable to run. We have been impressed with the performance of NIBE’s heat pumps, with their high efficiency, low noise and low running costs further enhancing the sustainability of the whole development.”About Royal Winchester HouseRoyal Winchester House is a landmark building of high specification 1 and 2 bedroom apartments available to rent. The unique design and architecture of Royal Winchester House creates a striking and impressive presence from the ground floor retail spaces up to the luxury penthouse levels.Royal Winchester House has been built for the private rental market and the development is being managed by Chancellors estate agency. The apartments benefit from high standards of insulation and air tightness. In addition to the NIBE heat pumps, the whole development has been fitted with a biodigester for the repurposing of food waste, as part of reducing waste sent to landfill and to add to its sustainability.

OverviewIn partnership with Tidyco, Powrmatic was selected to supply an energy-efficient air rotation heating system for a 5,100m2 warehouse storage facility in Derbyshire using a Powrmatic TEx41 Air Rotation Heater measuring over 20ft tall.Project BackgroundTidyco was approached by a customer who is involved with manufacturing, transport and additional services in the aerospace industry amongst others. After recent success, their customer needed to expand their footprint and managed this by moving into a newly built warehouse situated in Derbyshire.SolutionAs this was a brand-new commercial building, there was no heating provision and just the original lighting installed by the builder, which was not fit for purpose. Tidyco was tasked with installing an efficient and effective means of heating solution for the 5,100m2 (55,000 sq ft) vast space along with a modern lighting system. In order to heat and illuminate this space, which occupied a space of more than seven and a half football pitches, some heavy-duty kit was required.ResultFor the heating aspect, Tidyco engineers installed an internal Powrmatic TEx 41 air rotation heater, manufactured in the UK. With an output of 350 kW, the unit measured in at over six metres (20 ft) tall. This particular TEx model was gas-powered and has the superior capacity to provide complete climate control for a 55,000 sq ft with a single TEx Air Rotation Heater.

Battersea Power Station, Circus Rd W, Nine Elms, London SW11 8DDThe iconic Grade II* listed Battersea Power Station is NOW OPEN as London’s most exciting new shopping and leisure destination! This legendary London landmark and surrounding area has been brought back to life as one of the most exciting and innovative mixed use neighbourhoods in the world – a place for locals, tourists and residents to enjoy a unique blend of shops, bars, restaurants, leisure and entertainment venues, parks and historical spaces. A place to shop, eat, drink, live, work and play; here life doesn’t feel ordinary, it feels extraordinary.The Battersea Power Station regeneration project stands as an iconic symbol of urban revitalization in London. Preserving the historic architectural character while modernizing utility access was a formidable challenge. This case study showcases the successful collaboration between the Battersea Power Station regeneration project and Rapid Access Ltd, a leading supplier of Plaster-In Access Panels and Dual Access Panels designed to seamlessly integrate with the development.Challenges:1. Historic Preservation: The project required utility access solutions that respected the historical significance of the Battersea Power Station while modernizing its functionality.2. Architectural Integrity: The development needed to uphold architectural integrity and ensure minimal disruption to the building's aesthetics during the installation of access panels.3. *Functional Versatility: The vast and diverse spaces within the regeneration project demanded access solutions that could cater to different utility access needs.Solution:Rapid Access Ltd, recognized for their expertise in access solutions, was chosen to address the specific needs of the Battersea Power Station regeneration project. The solution included the installation of Plaster-In Access Panels and Dual Access Panels, designed to meet the following key criteria:1. Plaster-In Access Panels: Rapid Access Ltd provided access panels that seamlessly integrated with the historic architecture, preserving the building's aesthetics.2. Dual Access Panels: Dual Access Panels were deployed to provide versatility, ensuring seamless access to utility systems across various spaces within the development.3. Architectural Harmony: The access panels were meticulously customized to blend with the architectural design of the Battersea Power Station, ensuring that they harmoniously integrated with the historic structure.Implementation:The installation of Plaster-In Access Panels and Dual Access Panels by Rapid Access Ltd was executed with precision and expertise. The unique design of the panels allowed for seamless integration, while the dual access panels offered versatile solutions for various utility access points.Conclusion:The collaboration between the Battersea Power Station regeneration project and Rapid Access Ltd exemplified the successful integration of utility access solutions into a historically significant and iconic development. The installation of Plaster-In Access Panels and Dual Access Panels not only met functional needs but also contributed to the overall success of the Battersea Power Station regeneration, ensuring architectural preservation and operational efficiency. This case study underscores the importance of selecting the right access solutions provider for historically significant architectural projects.

Background to the projectSouthway Housing Trust is a South Manchester based housing association managing 6,000 local homes.Southway has pledged to be zero-carbon by 2038 and has identified switching its homes from gas to electric heating as crucial to achieving this target.In 2022, a survey of Southway’s residents found that 88% were keen to reduce their impact on climate change, and Southway’s commitment to reducing carbon is in line with Manchester City Council’s net-zero ambitions.The Arrowfield Low Carbon Living Project represents an early and ambitious retrofit of a south Manchester neighbourhood that will reduce the estate’s carbon footprint by as much as 50%.Southway is replacing 396 of Arrowfield’s inefficient gas boilers in-line with long term government plans to electrify heat and will also improve the fabric of homes to make them more energy efficient.The scale of the project, part funded by the European Regional Development Fund (ERDF), has made it one of the UK’s biggest home retrofit schemes.NIBE products used:NIBE F2040 Air Source Heat PumpKey stats:112 NIBE F2040 Air Source Heat Pumps installedContributes to project to remove 370 tonnes per annum of CO2 in ArrowfieldInstalled by Rothwell Plumbing GroupPart of a project to retrofit 199 homes with air source heat pumpsThe solution to the projectArrowfield Low Carbon Living is a flagship scheme in Manchester, retrofitting 199 homes and 197 apartments with air source heat pumps. NIBE was chosen as one of two heat pump providers to bring low carbon, sustainable heating to residents living in the Arrowfield estate. NIBE’s high quality, reliable heat pump systems provide optimum savings and automatically adapt to each home’s output requirements.Rothwell Plumbing Group (RPS) was chosen as the installation partner for the project, with a proven track record for delivering high quality heat pump systems, in both the public and private sectors. RPS are also MCS & Trustmark accredited, with the experience and technical ability to install NIBE systems to the highest of standards.Southway’s aim is for the project to act as a learning process and blueprint for how it can scale up the retrofitting of its entire housing stock over the next 15 years.Ahead of this ambitious project, a community engagement programme enabled greater awareness of heat pumps as a low carbon heating solution, whilst providing the opportunity to listen and respond to resident feedback.The Arrowfield Hub, located in in a repurposed empty house on the estate, became a venue for regular engagement between the residents and the project team, creating an open forum for questions and comments on the proposed scheme.The Hub was also heated by an air source heat pump, allowing residents to witness a live heat pump in operation and experience the warmth of the building.Residents were also able to express their concerns surrounding the project, and these could be addressed accordingly. This regular and open engagement was key to keeping residents informed and more familiar with their soon-to-be new heating systems.The Hub also allowed for the project team to dispel common myths and misconceptions about air source heat pumps and reassure residents that their homes would remain warm throughout the yearThe Results112 NIBE’s F2040 Air Source Heat Pumps have been providing heat and hot water to residents across the estate, adapting to the requirements of each and every home in the estate, whilst providing powerful output even down to outdoor temperatures as low as -20°C.The systems will provide homes across the estate with optimised energy and cost savings, whilst supplying a supply line temperature of up to 58°C regardless of outdoor temperatures.TestimonialMatt Roberts, Strategic Director of Property and Development at Southway Housing, said:"Community engagement for the Arrowfield Low Carbon Living Project was central to the project's aims. Foregrounding the needs of Arrowfield's residents as central to the project’s implementation, helped us to better convey the benefits of low carbon heating and address concerns and suggestions brought forward by homes set to benefit from the retrofit scheme.Air source heat pumps are essential to Southway Housing Trust decarbonising our housing stock and achieving our net-zero goals. Working in partnership with NIBE is part of that process and has contributed to achieving carbon savings of 370 tonnes CO2 per annum on Arrowfield.”About the installerRothwell Plumbing Services Group Ltd, formed in 1997, are a family run business specialising in delivering renewable solutions across the North of England. The company helped to ensure residents in Arrowfield Estate could access maximum energy savings and reduced energy bills.

A Uflex underfloor heating system consisting of fifteen zones has been installed as part of a barn conversion project in Thirsk, North Yorkshire. Here, we talk to Oliver Carter Plumbing and Heating, the G1 installer who completed the installation, to discover how they found working with the new Uflex underfloor heating range from Grant.

A family home in Wiltshire has made the move from a gas central heating system to a renewable solution featuring an Aerona³ air source heat pump, a solar thermal system and QR hot water cylinder all supplied by Grant UK, helping the household to reduce their dependency on fossil fuel and lower their energy bills.

Project DescriptionThe capital of Austria, Vienna, is home to one of the country's most powerful structures: The parliament building from the 19th century comprises the seat of the two chambers of parliament, the National Council as well as the Federal Council of the Republic of Austria.As part of the general renovation of the historic building complex on Vienna's Ringstrasse, Lindner GmbH was involved in the construction project with numerous products and services. In addition to the repair of damage to the building fabric, the main objective was the general  modernization of the property within the framework of the preservation of historical monuments. The combination of Lindner's modern hollow floor system FLOOR and more® and the historic overlay therefore met all the requirements. In order to continue to preserve the classic look of the wall and ceiling surfaces, the entire building services were installed in the access floor - completely in line with the maxim of sustainability.Completed Works:Floors: Calcium sulphate panels                   9300 sqm         - FLOOR and more® comfort         11000 sqm         - FLOOR and more®Cement fibre panels:                        410 sqm           - HYDRO comfort Ceilings:Heated and Chilled Plasterboard Ceilings -Plafotherm® GK HEKDA®Insulation Engineering

As a part of the development of the company, BT are planning to reduce their number of working locations from over 300 to just 30. BT Bristol features flexible workspaces, the latest IT and smart building technology, restaurants and cafes and a rooftop wildflower meadow terrace with panoramic views of Bristol.An important aspect of the development of this new building was its eco credentials. With the whole company seeking to reduce its carbon emissions, choices were made throughout the design and build process to support this aim. As well as the rooftop meadow, the building features a heating system from the low-carbon district heating network and aspects that encourage employees to make greener choices about their travel to and from work. In order to support this, the BT Bristol office building features parking for around 270 bicycles, as well as changing rooms, showers and lockers.Helmsman were excited to be contacted by Honeyfield Property Services to supply and install the lockers at BT Bristol. The client requested Heated Z Lockers, with hasp locks for the user to attach their own padlock.Heated Lockers are a great addition to a cycle storage area, providing a storage solution that can dry damp clothes as well as keep your items safe during the working day.The Z shape is a particularly good choice for heated lockers, as the user can hang their clothing in the taller area of the locker and let the heated locker do the hard work.Air flows through the locker through a perforated base, and perforations at the top of the locker allow the damp air to escape. The tube heaters are positioned within the stands of the locker and can be either plugged into a 3-pin power socket or wired into a fused switch.In keeping with BT Bristol’s aim for carbon efficiency, the laminate used for the project was Graphite by BioCarbon Laminates. This is one of Helmsman’s standard laminate options, and is a carbon neutral material.In addition to the lockers, we also supplied and installed seat stands, with adjustable feet, and ash hardwood seat slats. The stands, back and sides of the lockers were all cladded with matching Graphite laminate, and the lockers were finished with black circle discs with white numbering.It was great to work with Honeyfield Property Services on this project, and wish the BT Bristol office much success in the future.If you have a similar project, or want to find out more about our Heated Lockers, give us a call on 01284 530427 or fill in our contact form here.

Product UsedCemfloor C30F6The iconic Grade II listed Battersea Power Station is at the heart of one of central London’s largest new developments. The £9 billion project will see the creation of a vibrant new destination for London, housing a community of homes, shops, cafes, offices, leisure and cultural venues, withover 19 acres of public space. As part of the redevelopment of the power station, a lightweight floor build-up was required.Cemfloor C30F6 was chosen for this project as part ofan ultra-lightweight flooring solution and was supplied by Capital Concrete and installed by B&K Systems.The new proposal for Battersea was for energystore TLA to be installed at various thicknesses to level out the existing un-even substrate with 30mm depth of Cemfloor CT C30 F6 screed then bonded directly onto the insulating screed. This system had the following benefits of the original specification:• Significant weight reduction: the original specification had a weight of 300kg/m2 whereas the new proposal had a weight of 120kg/m2.• Greatly reduced installation time: the original specification was a semi-dry system, which would have been manually placed and compacted. The proposed products are both flowable systems that are pumped into place and tamped to provide a smooth level surface.• Vast reduction in deliveries of materials to site and minimal storage on-site. • Reduced cement content leading to a lower CO2 footprint.• Faster turnaround time allowing follow-on trades to progress with works without any delays.• Lower curing time of the new system allowed the floor to be loaded with MEWPs faster.• Significant cost savings were also achieved.Following the installation of the system in-situ crushing resistance testing (ISCR) was carried out throughout the floor area; with each test easily meeting the CAT Arequirements. The system was delivered ahead of schedule and a significant time saving was achieved compared with the original specified floor build up. The slab was covered with various types of flooring all of which were compatible with the screed topping.

The flat roof area at above the vast Guernsey Power Station had been suffering from water ingress as a result of failings in the existing EPDM membrane. Due to the expensive machinery housed within and the potential for widespread and costly disruption should the leaking continue.Guernsey Electricity turned to Sarnian Roofing Limited, a Polyroof approved contractor, to provide a rapid and effective waterproofing solution. The Protec System was specified, and work began quickly.The SolutionRemoval of the failed roof coverings to expose the concrete deck below began, and the BBA-approved Protec 20-year system was installed directly to the concrete. Due to its RapidCure technology, the system cures within 30-60 minutes, meaning less disruption for the client.The Protec System provides an flexible and seamless membrane that eliminates the risk of water ingress around penetration points common in industrial unit roofs. As the system is cold applied, there are none of the safety risks associated with the open flames and hot torches used with traditional roll-applied systems.Polyroof’s reputation has been built on the high level of technical support provided to clients before, during and after every contract.We like to work closely with our clients from the very beginning of a flat roofing project right through to completion and throughout the lifespan of the roof. From our experience, this is the best way to guarantee that all aspects of the roof are finished to the superior standards that our clients expect.

Contracted by the 'National Grid', Lionweld Kennedy supplied and installed protection for the Eggborough Power Station. We created 46.6m high protective blast screens and kentlidge support blocks to the transformer station. All of the steel provided was manufactured in-house and fabricated to meet the needs of the client.

Essex Pedal Power is a community project focused on cycling access and inclusivity. The scheme provides free bikes to eligible applicants along with associated services including training and group activities. Piloting in coastal towns Clacton-on-Sea and Jaywick Sands, the project aims to connect residents with key local services while harnessing the health, wellbeing and social benefits of regular cycling.Parallel to the free bike element of the scheme, supporting infrastructure is vital to make cycling a viable and practical transport solution for participants and regular cyclists alike. Essex Pedal Power identified seven key public locations including the train station, library, community centres and schools as prime destinations for cycling journeys. The challenge was to provide high quality, cost effective cycle parking, and to publicise each site as cycle friendly. The answer came in the form of our Bike Ports; robust parking racks with eye-catching bike icon facias.Cyclehoop were commissioned to supply and install six Bike Ports and two Bikehangars. Custom orange powder coating and vinyl wrapping match the colour of the Essex Pedal Power branding and their distinctive orange bikes. All six Bike Ports were installed in just two days, owing to the innovative self-supporting design and the vast experience of our fitters. The Bike Port’s unmistakable appearance instantly identifies each site as a bike storage space, while the striking orange hue fosters affinity with participants. As a component of the Pedal Power scheme, the Bike Ports help residents access important local facilities, quickly and conveniently in a healthy and sustainable way.As a result of the success of the pilot scheme in Jaywick Sands and Clacton-On-Sea, which launched in June 2021 and has distributed over 90 bikes to the local community, the scheme will be rolled out in Colchester, launching Summer 2022. This is only the beginning, with further locations planned across Essex as a direct result of the overwhelming support and benefits delivered to the local community.The feedback has been extremely positive; stakeholders have been impressed with the impact the orange bike ports are having in the area.Kris RadleyEssex Cycling Strartegy Leader

England’s first hydro-electric power station has fitted Eternit’s fibre cement Profile 6 sheeting as part of major refurbishment work.Built in 1932 and based in Tavistock, Devon, Mary Tavy Hydro-electric Power Station generates enough electricity for 2,500 homes, and was once the largest hydro-electric scheme in England.It is owned and operated by South West Water, who took the decision to specify Profile 6 sheeting after realising that the original fibre cement sheets used for the roof of the turbine hall had lasted for over seventy years.

Battersea Power Station is one of London’s most iconic buildings and remains one of the city’s best known landmarks. A vibrant new community is being created offering the best retail, office, leisure and green space plus unique homes designed by internationally renowned architects, Foster + Partners and Gehry Partners. Working with Maylim, the Buzon pedestal systems have been specified for a multitude of areas across this 39-acre site, for use with timber decking, planter units, seating units, paving and grating. This project is still ongoing and Buzon UK are excited to be involved in such a large redevelopment.

Based in Somerset, Taunton School was founded all the way back in 1847. While the building’s stunning exterior has been immaculately preserved in the years since, the interior has of course been routinely upgraded during that time in order to support the ever-evolving demands of educational environments – including the recent installation of our Type G100 movable wall system.Type G100 is a glazed partition system that provides effective protection again sound transfer when fully closed, achieving up to Rw 54dB. This particular system is comprised of 10 panels, with half being glass and the other half sporting a solid matte black finish – all housed within a sleek black painted aluminium frame.Thanks to the Type G100, the school’s cafeteria layout can changed within minutes, offering the choice between a large open plan space, or a pair of smaller rooms. A fully solid system would not allow for the transfer of natural light to the smaller of the two spaces created when the system is in use, however the glazed panels mean this is not an issue. A pass door also allows for access between the smaller spaces when the panels are being used.

OverviewPowrmatic was selected to supply a manufacturing facility heating system in a new 60,000sq.ft building in Manchester which was expertly installed by our trusted and long-standing engineers at Swiftheat Gas Services Limited. Four LX60 heaters, one LX90, and eight CECx4500 destratification fans were installed into the facility.Project BackgroundSystem 3 Limited, a leading manufacturer of high-specification insulating glazing sealed units and toughened-laminated glass, was expanding production into new premises. They needed a reliable and efficient heating solution for their newly refurbished premises. Swiftheat was recommended by Powrmatic, a family-run business with a reputation for providing commercial heating solutions and industrial heating installation.SolutionSwiftheat Gas Services Ltd provided a complete installation of the heating system for System 3’s new premises. The installation consisted of 5 ErP-compliant suspended LX60 and LX90 warm air gas heaters and eight CECx destratification fans to assist with air circulation. The building size was 60,000sq.ft, and the entire project required an 88.9mm stainless steel gas line.ResultSwiftheat Gas Services Ltd provided a complete installation of the heating system for System 3’s new premises. The installation consisted of 5 ErP-compliant suspended LX60 and LX90 warm air gas heaters and eight CECx destratification fans to assist with air circulation. The building size was 60,000sq.ft, and the entire project required an 88.9mm stainless steel gas line.

Efficient Approach Dramatically Reduces Turbine Noise at CCGT Power StationsTen years after it was first used at Uskmouth, this innovative approach to soundproofing that reduces insulation depth by up to 76%, is once again commissioned in France.Dangerous Levels of NoiseModern dry cooling systems offer many benefits over traditional systems in CCGT power stations, but they have the disadvantage of being a complex source of noise transmission. The turbine noise recorded coming from the dry cooling system at the Severn Power CCGT Power Station at Uskmouth was between 130dB(A) and 135dB(A). Exposure to these levels of noise, a full 50dB above The Control of Noise at Work Regulations 2005 “upper action level”, will cause both immediate and permanent damage.When acoustics and soundproofing specialist, CMS Danskin Acoustics, were brought in by SPX Cooling Technologies, designers of Uskmouth’s dry cooling system, they discovered not only high levels of noise but also that the noise generated had a very low-frequency bias, the most difficult noise spectrum to treat.Solutions for low-frequency noise issues typically involve wrapping the problem in significant quantities of acoustic insulation, with many standard solutions being as deep as 500mm to 700mm. The sheer volume of lagging required for an insulation-based approach to a project like Uskmouth, with 8,000m2 of ducting to be covered, would be expensive, time-consuming to install and prohibitively disruptive.The New Approach proven at UskmouthThe challenge of producing a soundproofing system that would be cost effective and efficient to install was taken up by CMS Danskin Acoustic’s Technical Direct Paul Absolon. CMS Danskin has a reputation for effective, high quality acoustic solutions tailored to the specific challenge, and this solution was no different.Exploring the wide range of acoustic materials from the company’s industrial acoustics range, Paul opted for a combination of materials working in concert: the unique CMS HTIB elastomeric isolation pads, constructed from a polyurethane-bound rubber granulate with excellent dampening and isolation characteristics; QuietSlab SVX3, a high-performance, mineral- fibre acoustic lagging; and WBKT Acoustic Barriers, a high-density, barium-sulphate-loaded thermoplastic polymer, which is thin, flexible and easy to work with.By using a bespoke combination of materials which each tackled specific aspects of the problem, CMS Danskin Acoustics were able to create a soundproofing solution with a construction depth of just 170mm, between 66% and 76% thinner than the 500-700mm standard solution. Disruption was minimised and material costs reduced.Once complete, the system was rigorously tested by SPX Cooling Technologies and Uskmouth’s main contractor, Siemen’s Energy. CMS Danskin Acoustics’ solution had reduced the noise generated by 39%, to just 82-83dB(A), under the 85dB “upper action level” listed in The Control of Noise at Work Regulations 2005.Peter Ullrich, project director, Siemens Energy, commented at the time:“Effectively controlling noise and reducing sound emissions was a top priority for us in the Uskmouth project. Not only was it essential that the dry cooling system satisfied all the legal acoustic obligations and regulations but just as important was that neighbouring properties were not disturbed by additional noise levels.”Repeat Success at LandivisiauTen years on, the same successful approach has been applied to the dry cooling system at the new CCGT Power Station at Landivisiau in Brittany, north-western France. Also built by Siemens, the dry cooling system was supplied by SPG Dry Cooling. In the case of Landivisiau, even greater sound reduction was required, from approximately 140dB(A) to below The Control of Noise at Work Regulations limit of 85dB(A).To meet this challenge, SPG and CMS Danskin collaborated on extensive testing at the acoustic testing laboratory of SRL Technical Services. The reductions achieved during testing as part of the specification process were some of the largest reductions in sound ever measured at SRL.Once the specification was confirmed, CMS Danskin worked with SPG to ensure that materials for the multi-layer acoustic solution were prepared and delivered efficiently so that SPG’s installers always had the correct materials on site. The installation of the acoustic soundproofing was completed in October 2021 and the power station entered commission as planned in April 2022.“CMS Danskin Acoustics Limited successfully supplied the acoustic material package for the project which was tested at SRL to give an overall lab test reduction of 68dB Rw.”Robert Hill, Project Manager, SPG Dry Cooling