Niwa House

Tags: private homes, stone, timber, concrete, new build

  • Client: Private
  • Architect: Takero Shimazaki Architects
  • Photography: Felix Koch
  • Completion: 2023
  • Value: £1.2m
  • Size: 370m²
  • Expertise: Structures, Building Services, Civils
Niwa House  - Webb Yates Engineers
Niwa House  - Webb Yates Engineers
Niwa House  - Webb Yates Engineers
Niwa House  - Webb Yates Engineers
Niwa House  - Webb Yates Engineers

The development of a challenging site in South London to create a new luxury family home. Set on a contaminated and constrained brown-field site behind a row of terraced houses, the property is designed to maximise floor area, whilst maintaining a low profile to respect height constraints. The primary structure, designed with Takero Shimazaki Architects, is influenced by Japanese architecture, evidenced by a primary oak glulam frame inspired by traditional Torii.

The main house comprises a single storey with basement, and a secluded single storey annex is created to the rear. The design also creates a serene planted garden out of a formerly weed strewn and barren site. Extensive remediation was required to resolve historic ground contamination.

The superstructure of the building is entirely timber and stone, with concrete only used for elements in contact with the ground. Composite timber and glulam have been employed for the roof to limit structural depths and avoid additional finishes, while the stone provides thermal mass. This is the first time that this approach has been used on a full-scale project. A green roof over the full-building footprint provides attenuation to support the drainage strategy. 

Dynamic thermal modelling was adopted from an early stage to inform the architectural design development and materials selection to achieve the highest comfort levels and building performance. Passive design principles are adopted throughout to minimise heat losses in winter and heat gains in summer, reducing energy demand. These principles include the optimisation of the architectural shape, strategically placed openings to improve crossflow ventilation, external shades and blinds, exposed thermal mass, a high performing thermal envelope, and highly efficient glazing. 

An efficient single air source heat pump system and a hybrid ventilation system meet the residual heating, hot water and ventilation demands. Mechanical ventilation with heat recovery is adopted at basement level, and a continuous extract system with trickle natural ventilation serves the ground floor.

Working on the aspirational design for this complex site has required a holistic engineering approach, with all elements highly coordinated and providing as many functions as possible. The stripped back finishes and highly efficient glazing have demanded a unified services, structural and civil engineering design.

Awards

  1. Wood Awards 2024, shortlisted, 9 2024
  2. Structural Awards 2024, shortlisted, 8 2024
  3. Structural Timber Awards 2024, Private Housing Project of the Year, shortlisted, 7 2024