Brett Martin’s Marvault rooflights have been installed as part of a multi-award-winning refurbishment at Center Parcs’ Whinfell Forest holiday village in Penrith, Cumbria. The customer required a solution that would increase the thermal efficiency of the large, subtropical space to reduce heating costs and the site’s carbon emissions. Brett Martin’s vaulted multiwall polycarbonate rooflight system, which covers an area of approximately 2,785m2 , provided a solution that enabled the existing roof to be kept while reducing heating usage by 11.14%.
Part of a 400-acre site, Whinfell Forest in Cumbria has accommodation for nearly 5,000 guests. At its centre is the Subtropical Swimming Paradise, with pools and tropical plants all enclosed under a widespan roof. However, Center Parcs found that there were increasing heat loss problems with the old roof. This meant that maintaining the level of heating required to create a comfortable environment for both guests and plants was generating significant costs, as well as effecting the park’s overall environmental impact.
To address the issue of heat loss through the roof, the team from Center Parcs reached out to Brett Martin in the hope of finding a solution that would continue to allow the maximum amount of natural light into the space, while improving environmental and cost efficiency.
The Marvault rooflight system uses aluminium and polycarbonate to create a barrel-vaulted shape. This shape increases light penetration and enables spans of up to seven metres to be bridged with no restriction on length. This suited the requirements of Center Parcs as the existing roof used long unbroken rooflights that spanned four metres and ran from 30m to 61m in length.
Unlike the old, single layered polycarbonate rooflights installed at Center Parks, Marvault is glazed with two layers of Brett Martin’s 16mm Marlon ST Longlife polycarbonate. This lightweight, multiwall insulated panel provides increased efficiency by reducing heat loss through its seven layers, as well as providing UV protection. These attributes combine to make a strong, lightweight rooflight that maximises light penetration while minimising harmful UV and costly heat loss. As a result, Marvault has a U-value of 1.09W/m2 K, balancing light penetration with improved thermal performance.
Brett Martin worked closely with the roofing contractor Central Roofing to ensure that the Marvault rooflights could be incorporated into the complex curved roof that defines the striking project. www.brettmartin.com