International architecture firm, Kohn Pedersen Fox Associates (KPF) has won planning consent has been granted for its scheme for the redevelopment of King’s Reach Tower on London’s South Bank for developer CIT Group. KPF’s design for King’s Reach retains and transforms the existing 1970s tower and T‐shaped podium building, originally designed by Richard Seifert, to provide a mixed‐use development incorporating residential, retail, office accommodation, and an enhanced public realm.
Located on a prominent site on London’s riverside, the revitalisation and remodeling will contribute to the ongoing regeneration of the South Bank. The design creates a new and exciting space for the city, opening up routes though the site at ground level, animating the streetscape with integrated retail frontages, and providing high‐quality residential and office space.
By creating a new route through the heart of the scheme, doubling the retail around the perimeter of the building, and relocating plant and support spaces below grade, the ground plane of the tower is significantly altered. The existing T‐shaped podium will be reconfigured, with the cores relocated and three new floors created. At the first floor level a new landscaped garden will create a buffer between the office and the existing residential building, and a new roof garden at the ninth level, for the new residents, gives views across London. Within the tower the upper floors, levels 11 to 36, will be converted from office use to 173 residential apartments.
The vision for the development is a simple retained structure which does not erase the memory of the 1970s building but adds a new layer of renewal and adaptation. The treatment of the facades and variety in the use of materials accentuates the verticality of the building and also combines concrete, glass, light metal and warm wood defining new spaces whilst creating an intimate scale.
KPF’s design targets a BREEAM ‘Excellent’ rating. Reusing the concrete structure is anticipated to save in excess of 6,000 tonnes of CO2 while a number of energy efficiency measures are being used, including a highly effective heat recovery system, low energy lighting systems, high efficiency water cooled chillers, a heat store to reduce peak loads, and provision for linking in the future to district heating and cooling schemes. Replacing the façade will also result in a reduction of approximately 72% of the current annual heating and cooling demand.