Transportation, Railway, Trains, Museum, Exhibits, Exhibition Hall, Products, Materials, Timber, Prefabrication, Solar Energy, Thermal Comfort, Copper Cladding, Sustainable Design, Carbon Footprint, Competition Winner, York, United Kingdom
London-based architecture practice Feilden Fowles has won an international design competition to create the new Central Hall for the National Railway Museum in York, England. Slated for completion in time for the museumâ€™s 50th anniversary in 2025, the new centerpiece building will vastly improve the visitor experience while introducing an ambitious energy strategy to dramatically cut the site-wide operational carbon footprint by 80%. Following the firmâ€™s low-tech philosophy, the design will minimize reliance on concrete and steel in favor of prefabricated timber materials while emphasizing passive design strategies.
In winning the two-phase design competition organized by Malcolm Reading Consultants, Feilden Fowles beat 75 other design firms with their Central Hall proposal that pays homage to the siteâ€™s former uses. The buildingâ€™s central two-story rotunda is directly inspired by the history of locomotive roundhouses and railway turntables. Recycled patinated copper will clad the structure, the interior of which will feel warm and inviting thanks to a predominately timber palette and the abundance of natural light that flows through high clerestory glazing and a skylight fitted in the center of its beautifully engineered roof structure.
The new welcome and orientation space will host a wide variety of programming, including gallery spaces for the museumâ€™s world-class collection, recreational areas, retail and public-facing community spaces. The Central Hall also connects to the five museum portals: the main entrance, Great Hall, Wonderlab, Exhibition Hall, the shop and a new cafe.
Sustainability is a major driving factor behind the Central Hall, a timber-framed building that will be built with traditional, locally sourced materials wherever possible. In addition to the creation of a new energy center with air-source or ground-source heat pumps powered by solar energy, the building follows passive solar principles to enhance thermal comfort and reduce reliance on mechanical systems. Larger spanning and prefabrication of timber elements will also be used to ensure higher quality control and to reduce construction waste.