"uninterruptible power supplies"

Innovative use of Corten steel rainscreen cladding panels and architectural fins from Proteus Facades has helped to create a powerful aesthetic on Sheffield Hallam University’s new state-of-the-art energy facility.Innovative use of Corten steel rainscreen cladding panels and architectural fins from Proteus Facades has helped to create a powerful aesthetic on the University of Sheffield’s new state-of-the-art energy facility.The new Energy Centre Transformer Building, created by HLM Architects and built by main contractor Vital Energi, forms a key part of the University’s long-term masterplan.It works as an onsite energy centre that provides a resilient and uninterrupted supply of both heat and power to all buildings within the University of Sheffield’s Western Bank Campus.

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.

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.

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

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.

JCW Acoustic Supplies supplied & installed an acoustic enclosure to counteract the increase noise generated by the installation of a new more powerful generator required due to expansion.

THE PROJECTLocated on the south bank of the River Thames, this iconic building is being renovated and built into a thriving neighbourhood full of culture, art and history. Within the area, you can live, eat, shop and explore a range of places and living options.There is a range of apartments within the iconic landmark as well as the building surrounding the power station. Not only do the apartments offer a prime location in London, but they also come with a wide range of amenities included, including unforgettable London views, rooftop gardens, affordable homes, sustainable living plus much more.THE PRODUCTBattersea was built in stages and so were the mailboxes supplied.Phase 1 included full stainless steel RENZ Mailboxes that look absolutely stunning. They are recessed into the wall and include a soft close function for design purposes. These mailboxes look like they could be a brown colour, but that’s the reflection off the floor!The stainless steel has been engraved for easy identification. The boxes are also double-height for more storage capacity. Phases 2 & 3 are completely bespoke solutions to ensure the industrial cultural look of the building is kept throughout the additional finishes. These mailboxes were designed specifically for Battersea Power Station, they are suspended above the ground and in between concrete and steel pillars. These incredible Tileboxes are fitted with bespoke cladding, engraved numbering for easy identification and powder coated in anodic brown with a dark bronze lock.

A vibrant new community is being created at Battersea Power Station offering the best retail, office, leisure and green space plus unique homes. Working with Maylim, the Outdoor Deck Company were specified for a multitude of areas across this 39-acre site, including the supply and installation of Cedar privacy screening for all apartments on the podium level plus a large Iroko deck area alongside the retail outlets. The Outdoor Deck Company were also responsible for the supply and install of timber seating in the specially designed communal areas and Cumaru seating, planters and a bespoke pergola on Level 8.

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.

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

Wapping Hydraulic Power Station has been renovated as part of the Wapping Project Arts Programme.Architects, Grimshaw and Partners specified stainless steel sanitaryware by GEC Anderson in the lavatory areas. Fittings include wall mounted stainless steel wash troughs and stainless steel trough urinals.

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.

Lorient supplied LAS8001 si drop seals with bespoke 'Battersea bronze' end caps, Batwing® perimeter seals, Finesse™ acoustic, smoke and fire seals, and lock and latch protection kits to the residential project.

Over 10,000 square metres of the Thermo Ash 'hidden-fix' system were supplied for various external areas on the Turbine Halls of the iconic Battersea Power Station including the private roof terraces and balconies of the sky villas on the roof of the building, and roof terraces of the commercial office spaces.The use of the Grad system not only created stunning areas, but contributed to significant savings on the labour cost of installation.The installation of Thermo Ash used Grad aluminium rails with factory-placed clips for perfect alignment, placed on Buzon UK's PB range of pedestals where required.  

Battersea Power Station, a former 42-acre brownfield site, has recently undergone a major refurbishment project (£9b) to provide a mixed-use development of high-end apartments, leisure and business facilities.The Power Station itself has recently opened to the public and comprises of an event venue, food hall and plenty of shops located within the historic turbine halls.Forming parts of the redevelopment project included the restoration and installation of a new bar within the Power Station’s former control room. The bar has been built around the façade of the original control room B, featuring control desks, switch gears and synchroscopes dating back to the 1950s.Restored to its former glory and sitting on a mezzanine floor overlooking the two large turbine halls, the Control Room B bar has been made accessible to all patrons with the installation of a Cibes A5000 lift.The Cibes A5000 is designed to have a small footprint yet maximum internal space – providing an ideal discrete accessibility solution to the Control Room B bar. Featuring a premium RAL matte black colour and adonized aluminium safety bar and control panel, the lift blends seamlessly with its environment and low-lit aesthetics of the bar. Whilst the fully glass shaft allows for 360 degrees views of the surrounding power station and, screw and nut drive technology of Cibes’ products – complimenting Battersea’s industrial backdrop.Following the successful installation of the A5000, Cibes Lift UK’s technical engineering team provided stand-by services for the official launch of Phase 2 of the overall Battersea Power Station regeneration project. Throughout installation, the launch event and following, Cibes Lift UK’s engineering and service team have remained in regular communication with the client. In particular, the Project Director for Phase 2, John Leverett.

Following a successful first phase in 2018, London Power Tunnels 2 (LPT2) is a project to ‘rewire’ south London. The six-year, £1bn scheme will comprise the construction of 32.5km of 3m-diameter tunnels built deep below the road network between Wimbledon and Crayford to carry high voltage electricity cables.A Hochtief-Murphy Joint Venture (HMJV) was awarded the contract in December 2019 to design and construct the tunnels & shafts and install the EHV (extra-high volume) cable brackets. The New Cross site is one of several in the overall scheme.

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.

The newly built West Burton Gas Turbine Power Station was experiencing maintenance issues with its existing doors. Doors we’re not meeting lifespan expectations and failing at a high frequency. The site is very exposed and a typical failure was of doors on stairwells being caught by winds and going out of service. Teckentrup's solution based approach delivered much improved overall life costs...

Building an outdoor garden and entertaining space with a fab kitchen area that’s the envy of all your friends and neighbours is something many of us only dream about. The new series of Love Your GardenIn the new series of Love Your Garden with Alan Titchmarsh, landscaping experts Cotswold Garden Renovation Services LTD built a beautiful stone columned kitchen with a porcelain slab countertop using Power Grab ‘n’ Bond to secure everything in position for a long-lasting finish, guaranteed to last for a lifetime. Harry & Jamie only use the best materialsHarry Barnes & Jamie Johnstone of Cotswold Garden Renovation are leading the great garden revolution. They’ve shown that with passion and skills anything is possible and provide landscaping expertise for ITV’s Love Your Garden alongside garden designers Alan Titchmarch, Francis Tophill, David Domoney, Katie Rushworth and Danny Clarke.They believe in always using the best quality tools, materials and trusted brands. Power Grab ‘n’ Bond is developed by leading British manufacturers CT1, the No1 sealant and adhesive in the UK. CT1 is always leading and providing the industry with the very latest technology. Now thanks to its unique ‘Tribrid®’ technology Power Grab ‘n’ Bond is a revolutionary product in the field of heavy-duty versatile bonding. Building a outdoor kitchen using Power Grab ‘n’ BondIn their latest project Harry and Jamie hand built a series of vertical stone columns that were then braced together with wide metal strips. Usually these would have to be fitted using mechanical fixings, requiring holes to be drilled through the stone and heavy bolts fitted with their thick heads protruding above the metal braces. As 20mm porcelain slabs were being fitted on top, these protruding bolts were going to be a major issue. Power Grab ‘n’ Bond provided the perfect solution as it’s the ultimate grab adhesive, eliminating the use of mechanical fixings completely and coupled with the rapid curing will, in most projects, save 50% labour time and cost.Using a heavy-duty caulking gun, Harry and Jamie applied Power Grab ‘n’ Bond straight from the cartridge, onto the metal braces and after 4-5minutes fixed directly them into place. Why use Power Grab ‘n’ Bond?With phenomenal initial grab, this fast curing, non-shrinking and almost odourless adhesive secured the braces firmly with immediate effect.Three times stronger than regular hybrid polymers, the ‘Tribrid®’ technology in Power Grab n Bond ensures longer colour retention, incredible durability and flexibility, even when applied outdoors.Yet Power Grab ‘n’ Bond will remain flexible and resist vibrations caused by cooking equipment, barbecuing and constant use. It won’t dry out, nor become brittle and works perfectly in temperatures ranging from 90°C right down to the mind numbing cold -40°C. Power Grab ‘n’ Bond will successfully stick to any material in most applications Not only does it successfully stick all metals (including alloys), but Power Grab also ‘n’ Bond has a capacity to adhere to a wide range of materials such as stone, granite, ytong, marble, concrete, wood, MDF, fiberglass, glass, polystyrene, mirrors and most plastics (except PP, PE and PTFE). Furthermore, its ability to bond combined materials such as wood to concrete or stainless steel to stone is incredible. Power Grab ‘n’ Bond removes the need for mechanical fixings!Originally created for facades and heavy stonework such as the installation of quoins, the versatility, strength and reliability of Power Grab ‘n’ Bond means it now used more widely by professional shop and kitchen fitters as well as specialist trades, landscapers and bathroom installers. It is tested by a UKAS Accredited lab to BS EN 12003 (Determination of shear adhesion strength of reaction resin adhesives) and BS EN1308 (Determination of slip resistance).After fitting the braces Harry and Jamie applied Power Grab ‘n’ Bond to the top side of the metal strips and laid 900x900x20mm thick heavy duty porcelain slabs in place to form the countertop of the external kitchen. How strong is Power Grab ‘n’ Bond?Power Grab ‘n’ Bond is a single part solvent free solution, with a far greater density, allowing phenomenal initial grab, even on vertical installations, and offers a final tensile strength of 22kg per cm2 when fully cured. These metal braces and porcelain slabs aren’t going anywhere soon and will provide a lifetime of outdoor dining for the homeowners. Where can I get Power Grab ‘n’ Bond?Grab also ‘n’ Bond is made in Britain with British technology and British design. Its available now in all good builders merchants nationwide and online from www.ct1.com

Electricity interconnectors play a crucial role in the EU’s strategy to achieve a competitive and integrated European energy market to increase energy security and apply downward pressure to wholesale electricity prices.The 500MW EirGrid East–West Interconnector links the British and Irish markets and brings Britain’s interconnector capacity to 4GW with the 2GW IFA to France, 1GW BritNed cable to Holland and 500MW Moyle interconnector to Northern Ireland.The SolutionThe East-West Interconnector project was financed by a €300 million loan from the European Investment Bank, capital investments from commercial banks, EirGrid equity and a €110 million grant from the European Commission.With such huge sums and massive power in play, security is vital on the 47 miles of subsoil and 116 of submarine cable that connects the Woodland HVDC static inverter plant at Rush North Beach, County Meath, and the Shotton plant on Barkby Beach in North Wales.Zaun secured the two inverter plants for Irish national grid operator EirGrid with around 600 metres of ArmaWeave fencing to 3 metres in height, buried in a concrete cill and combined with a 4.6 metre high Harper Chalice electric fence, which systems integrator Crime & Fire Defence Systems installed.The fence line had to be connected to an intricate underground earthing grid and to incorporate vehicular sliding gates, pedestrian turnstiles and manual gates.ArmaWeave achieves the highest rated standards for fencing defending against forcible attacks. Its unique properties and tight mesh pattern provide no climbing aids and resist cutting attacks with hand, powered and non-contact tools.

V511F Vista Glass Infill F ProfileOS211 Orbis Glass InfillOS201 Orbis Vertical Bar InfillOver 300 metres of balustrades installed on the £18m Spen Valley Leisure Centre in Liversedge. Part of the YORbuild2 framework the leisure centre comprises of a two-storey, two-pool complex, with double-height foyer leading to wet changing areas and mezzanine leading to spectator seating and exercise studios.Delta supplied and installed Orbis balustrades with glass infill for the poolside, foyer void and external ramp walkway, Orbis balustrades with vertical bars for the stairs and Vista balustrades for the spectator seating area.

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.

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

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.

Dawnus Civil Engineering were commissioned by Cardiff CC to construct a hydro electric power station at Radyr Weir. The £2.6m scheme comprised of damming the section of works from the River Taff and constructing the structure to house the Archimedes turbine screws. They required a concrete that could take the weight of the screws 3 days after pouring and asked for a 3 day strength of 50N.Tarmac suggested TOPROC ED which is a high performance readymixed concrete suitable for use in industrial, commercial and infrastructure construction where high early strength is required.

A client with a strong reputation for sustainable construction needed a flood defence system to protect a large substation in Croydon.UK Power Networks and ClancyUK Power Networks is responsible for electricity distribution and maintenance across London, the southeast and east of England. Clancy contracts for UK Power Networks refurbishing substations. Clancy was founded in 1958 and is now one of the largest privately owned construction firms in the UK. Its vision is to be “trusted to deliver smarter, greener infrastructure brilliantly.”The challengeClancy managed construction and implementation of the Andel flood defence system for UK Power Networks.Location: the substation is located within a flood risk area and is critical for maintaining electricity supply to thousands of homes and businesses.Sustainable: they wanted an environmentallyfriendly approach in line with their commitment to sustainability.Disruption: the aim was to protect transformers from flooding to maintain reliable electricity supplies to homes and businesses.Protection: they needed to protect the transformers from flooding to maintain network resilience.Inconvenience: they wanted a solution that would cause minimum disruption to the site allowing for continuity of service.Cost: they needed a cost-effective solution compared to the costs normally associated with traditional flood defences.The solution Andel FloodWall and Andel FloodBlox® Andel FloodWall is a cost-effective, environmentally friendly alternative for perimeter flood defence and is suited to commercial, residential, new build and retrofit installations. Panels and posts are constructed from robust, 100% recycled, nonporous, post-industrial plastic waste.This means the substation now has:A sustainable, cost-effective and environmentallyfriendly system compared to traditional flood defence systems.A flood defence system with a lower carbon footprint compared to an all-concrete construction.A modular solution that was easy to transport and speedy to assemble on site with minimum disruption.A robust perimeter flood defence designed and tested to meet the requirements of British Standard BS 851188-1:2019 for Flood resistance products.Andel FloodBlox® is an easy-to-use, lightweight, demountable flood barrier for all types of openings such as gates, house doors, patio doors, garage doors, warehouse and factory doors as well as creating easy access within a perimeter flood defence wall.This means the substation now has:A lightweight, easy-to-use demountable flood barrier allowing easy access to the bund.Proven technology that uses the natural pressure and weight of floodwater to create a watertight seal.The result Sustainable: Panels and posts are constructed from 100% recycled, post-industrial plastic waste, reducing the carbon footprint compared to traditional allconcrete flood defences.Convenient: A modular, easy-to-assemble system causing minimal disruption to on-site operations as no heavy machinery was required.Effective: FloodWall and FloodBlox® provide a robust, tried and tested flood defence solution allowing easy access to protected areas.Cost: The modular and flexible system reduced installation time and delivered a cost-effective solution.Excellent communication: The on-site Andel team worked closely with the client, ensuring open and constructive dialogue with regular updates on progress and timescales.Added value: The project also included installation of Andel’s market-leading BundGuard® units, a bund dewatering solution previously supplied to the client and contractor on other sites.What the customer said;We made the right choice working with Andel on the UK Power Networks Croydon project. Andel has worked with Clancy before providing pollution prevention products and maintenance services for the electrical distribution sector.As a safeguard against the increasing risk of flooding, Andel were able to provide a sustainable and cost-effective solution for the Croydon substation, protecting UK Power Networks transformers from the risk of future flooding.Craig Aust, Project Manager, ClancyIt was great to work with Clancy on the UK Power Networks Flood Defence project at Croydon Substation. We were tasked with delivering a robust, reliable and environmentally sustainable solution to protect the transformers on site from the risk of flooding. Working closely with Clancy Project Manager, Craig Aust, we were able to navigate the project to deliver a solution that sat in line with their values of delivering quality and sustainable practices. We are delighted to have successfully delivered a flood defence system that ensures the transformers are protected from the ever-increasing risk of flooding. 

Case Study – Power Grab ‘n’ Bond Customer: Signal Signs – OmaghProject: Pat Kirk Car Showroom, Strabane Power Grab ‘n’ Bond Eliminates the Need for Mechanical Fixings!Mechanical fixings on bright, new external facades can be ugly and distracting, especially when being installed at the entrance of Pat Kirk Motors stunning new car showroom in Strabane, Northern Ireland.With clean lines and seamless transitions throughout the building, mechanical fixings where exactly what the architect DID NOT want. This was the challenge presented to Michael from specialist installers McLaughlin Joinery who were tasked with fabricating the entrance and installing the façade design created by Signal Signs on extra-large 1500x3000mm sheets of Dibond® aluminium composite metal panels. A Stickler for Quality!Being a real stickler for quality and perfection Michael McLaughlin believes in always using the best materials, tools and brands to ensure the best, most durable and superior finish on his projects. He immediately sourced Power Grab ‘n’ Bond as he knew it is the best construction adhesive in the market, with excellent initial grab and exceptional tensile and sheer strength. Guaranteed to adhere to metal, wood and concrete substrates it totally eliminates the need for additional mechanical fixings. Power Grab ‘n’ Bond is developed by leading British manufacturers CT1, the No1 sealant and adhesive in the UK. CT1 is always leading and providing the industry with the very latest technology. Now thanks to its unique ‘Tribrid®’ technology Power Grab ‘n’ Bond is a revolutionary product in the field of heavy-duty versatile bonding. Why Choose Power Grab ‘n’ Bond?Working with large Dibond® metal 1500x3000mm panels being installed at height in an external environment Michael and his team needed a solution that would grab, hold and act instantly without needing to be braced and supported. With incredible initial grab, Power Grab ‘n’ Bond is a fast curing, non-shrinking and almost odourless adhesive that held the metal sheets with immediate effect.Three times stronger than regular hybrid polymers, the ‘Tribrid®’ technology in Power Grab n Bond ensures a phenomenal final tensile strength of 22kg/cm2, yet remains flexible, won’t dry out nor become brittle and will work effectively in temperatures ranging from 90°C right down to the Baltic cold -40°C.In fact, not only does Power Grab ‘n’ Bond successfully stick Dibond® to wood and concrete it will adhere to all metals (including lead), stone, granite, ytong, marble, MDF, fiberglass, glass, polystyrene, mirrors and most plastics (except PP, PE and PTFE).Creating a Superior Mechanical Fixing Free FinishUsing a heavy-duty caulking gun, Michael applied Power Grab ‘n’ Bond straight from the cartridge, onto the back of the Dibond® Sheets, allowing it to rest for 4-5minutes to begin activating, before fixing them directly into place.Originally created for facades and heavy stonework such as the installation of quoins, the versatility, strength and reliability of Power Grab ‘n’ Bond means it now used more widely by professional shop fit out companies as well as specialist trades, landscapers, kitchen fitters and bathroom installers. It is tested by a UKAS Accredited lab to BS EN 12003 (Determination of shear adhesion strength of reaction resin adhesives) and BS EN1308 (Determination of slip resistance).Power Grab ‘n’ Bond provided the perfect solution as it’s the ultimate grab adhesive, eliminating the use of mechanical fixings completely and coupled with the rapid curing characteristics saved a lot of additional labour time and cost.Michael said;“The result is exactly what the architect and client wanted, a stunning external façade, with no unattractive mechanical fixings, that not only makes a statement entrance but creates a stunning backdrop for promo photos of new cars too.”Grab also ‘n’ Bond is made in Britain with British technology and British design. Its available now in all good builders’ merchants nationwide and online from www.ct1.comCT1 often copied never equalled!We Innovate – Not Imitate!

The striking interior was designed by LaVita Style and features Perlata providing a rich, yet elegant finish to the walls in the reception area and corridors. The design uses light and shade to reveal subtle textures and tones resonating a calm and reassuring atmosphere. Working to a soft colour palette the use of additional custom ArmourFX Granite polished plaster panels to the front desk creates a stunning first impression.Lucy Walker, interior designer at Lavita Style Ltd comments “We chose Armourcoat for this project for their specialist expertise and creativity and were absolutely delighted with the end results. We wanted to create a striking yet welcoming reception and waiting area and this was achieved through Perlata’s beautiful finish in a range of tones and colours. Armourcoat realised our vision throughout the whole design process and delivered seamlessly. I would certainly choose Armourcoat for any future projects”The new dental practice, White & Co is part of the innovative redevelopment work to convert the Grade II* listed legendary landmark into a unique blend of residential, commercial, and cultural spaces. Armourcoat has also been specified in various other projects within this exciting development including the Boiler House and Switch House West where Armourcoat Tactite was applied within various bathrooms, ensuites and powder rooms and Embassy Gardens which included Armourcoat Koncrete finishes to entrance areas and columnsClient: White & Co, Battersea Power Station, London Designer: La Vita Style @lavitastyleltd Contractor: Apollo Interiors Photography: Mark Bolton @markboltonphoto

The «Plus-Energie-Haus» constructed by the Technische Universität Darmstadt is a Solar Decathlon winner. The competition has been held each year since 2002 by the US Ministry for Energy. The task is to design and build a residential house to suit life that is self-sufficient with regard to energy. The houses must cover their entire energy requirements through self-produced solar power. Between two layers is a protected external area with sliding windows and folding slat shutters that can be opened and closed as needed. The folding sliding shutters are equipped with HAWA Variofold 80 H.

Work has begun on the workers’ accommodation campus at Hinkley Point C and BioClad is supplying and installing its antimicrobial internal wall lining for the units to provide a fully hygienic environment for those working on the project. The campuses will have a total of approximately 1,500 en-suite rooms, all featuring BioClad antimicrobial internal wall linings. BioClad wall lining is a cost-effective alternative to tiling and offers superior hygiene through it’s silver-ion technology which kills microbes by 99%.

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.”

Born in the historic headquarters of a nineteenth-century factory, Lanolin Fabrik is an ensemble of offices, lofts with kitchen spaces, terraces, loggias and green oases that make it a modern, functional and human-sized workplace.Our customer has implemented a new system consisting of domestic water supply and irrigation pumps for this historic complex: Esybox Max was chosen as the mains water booster set, whilst for the irrigation of the green areas the DAB Esytwin compact variable speed booster was identified as the solution.3 Esybox Max is a market leading technologically innovative water booster set, demonstrated to be highly efficient. The use of permanent magnet motors has contributed to a 20% efficiency improvement over industry standard pumps. The solution was designed and perfectly sized to obtain constant pressure for all users but with the minimum possible energy use.All the pumps in the water booster system were connected to a single control panel, which regulates the power supply to the multipump units.The complex consists of 2 buildings, one with 5 and one with 7 floors, and the entire water boosting system that powers it is monitored and managed remotely using the DAB D.Connect cloud based service.

Western Power Distribution (WPD) provides service for Midlands, South West and South Wales, United Kingdom, with a network that spans the country’s width. WPD delivers electricity to more than 21,000 square miles (55,500 square kilometers) via 136,000 miles (220,000 km) of overhead lines and underground cables and 185,000 substations. WPD has committed to provide safer access to their 15,000 towers across the network. The company had used a double lanyard for working at heights, but wanted an alternative system that was faster, safer and reduced physical demands of climbing for their line operators.

20000m2 Acoustic Cradles Supplied at Maiden Lane Camden

Coopers Fire proudly installed multiple fire and smoke curtains in this iconic building in London.Coopers Fire was approached in 2013 to support multiple Architects and Fire Engineers to work through the difficult interface designs on the historic Battersea building that posed multiple challenges in incorporating smoke and fire strategies whilst maintaining the legacy build design.This was a great opportunity to once again put forward the innovative solutions that have attracted Architects to Coopers Fire on many occasions previously.These challenges followed with the introduction of bespoke curtain systems stretching the designs beyond the norm. There was also a need to carry out support testing to validate their capability and to offer comfort to the stakeholders.Coopers Fire offered continual support to the key stakeholders including the Architect and Fire Engineer community, giving them confidence in ongoing collaboration with Coopers Fire for future projects.The Coopers Fire product design and interfacing, complete with valid specifications, went a long way to assist a Contractors partnership decision in supplying and installing the finished product whilst enabling live design changes with the aligned Architect engaged on the project.The project required FireMaster® Concertina curtains 25m width and 12m in height of straight sections, with an integrity rating of 30 minutes.The Coopers Fire Concertina product portfolio allowed for 12m width and 8m height of straight length sections so the product needed re-designing and bespoke engineering to suit the requirements of the project.A specimen of the engineered solution was tested at an accredited fire testing lab. The specimen achieved 66 minutes integrity rating, without failure.The combined engineering design, testing and fire test data allowed Coopers Fire to meet the requirements of supplying a 25m wide and 12m high FireMaster® Open Concertina fire curtain.One major challenge of the large Concertina products was installation. The 12m drop Concertina fire curtains were installed successfully on site using a combination of scaffolding and mobile platforms and at some points with minimal headspace to work within.The Concertinas were so long that onsite redesign and engineering were required to ensure the bottom tray engaged perfectly with the headbox.The Concertina retaining guides were also so long they required onsite welding. A further four levels below the curtain drop, meant that total installation height was higher than 12 metres from the ground spanning over the voids either side of the bridge below.The Coopers Fire production and installation teams collaborated to manufacture the individual parts of the Concertina fabric off site to ensure the programme of installation was kept on time.Coopers Fire installed:47 x Vertical fire curtains7 x Concertina curtains32 x Vertical smoke curtainsThe team used for the Concertina installation specialise in this product and were able to overcome onsite challenges to ensure the huge Concertina fire curtains operated as expected and deployed effectively.