RSHP: Homeshell

As part of Richard Rogers's Inside Out exhibition at the Royal Academy in London, his practice Rogers Stirk Harbour + Partners has designed an environmentally efficient, three-storey house to promote debate about cheaper mass housing.

Homeshell has been constructed in the Royal Academy’s Annenberg Courtyard, to coincide with the exhibition Richard Rogers RA: Inside Out, but also to provoke debate about how architectural and construction innovation together might help us meet the UK’s housing needs. This three-and-half-storey building will arrive as flat-pack panels on one truck and will take only 24 hours to assemble on site. Homeshell is constructed using a building system called Insulshell, (developed by Sheffield Insulations Group (SIG) and Coxbench). This system is so flexible that it can be used for many building types from homes, apartments and schools to factories and health centres. Examples of this approach can be seen in Rogers Stirk Harbour + Partners’s housing project at Oxley Woods in Milton Keynes, but the design has now been developed further by RSHP, while SIG have improved the properties of the system, to make it even more energy efficient, sustainable and flexible. The Olympic Velodrome at London 2012 was also constructed using this method.
   

Homeshell installation by Rogers Stirk Harbour + Partners at the Royal Academy Annenberg Courtyard

Homeshell can be adapted to suit any location and is particularly good for difficult, highly urban or small sites, including those where weight might be an issue (such as above underground tunnels or bridges). By enabling more urban brownfield sites to be developed, more homes can be created that can utilise existing transport and infrastructure links, instead of encroaching on the green belt.

Homeshell installation by Rogers Stirk Harbour + Partners at the Royal Academy Annenberg Courtyard

The speed of construction means that Homeshell causes limited disruption, mess and noise on site, making it a very neighbourly approach for retrofitting and extension projects in urban areas. Fast and efficient extensions to schools can be built, or new homes on small infill sites, which might have many existing neighbours. Six storey (24-apartment) buildings can be erected in under a month. There is an urgent need for more housing in the UK and this system allows us to meet this need far faster than by traditional methods. Its lower cost (compared to traditional building techniques) means that this system could help kick start social housing building programmes where cost efficiencies are particularly important, offering the potential to create homes for families currently in hostels and B&Bs or stuck on long waiting lists.

Detail of the Homeshell installation at the Royal Academy Annenberg Courtyard. Photo Anna Au / RSHP

By combining speed of construction with the fact that it is demountable, Homeshell offers great potential for temporary sites. There are currently 32,400 hectares of vacant brownfield land in England, some of which may have plans for future development (say in the next ten years) but in the meantime could provide homes in urban areas that are already well connected to both transport links and job opportunities.

Construction sequence: securing the structural panels

Following its run at the Royal Academy, the house will be dismantled and re-used as part of social housing project with the YMCA London South West: Y:Cube Housing Project.

Date: 13 August – 8 September 2013
Location: The Royal Academy of Arts, London, UK
Architect: Rogers Stirk Harbour + Partners
Team: Philip Dennis, Robert Fiehn, Sarah Gaventa, Ivan Harbour, Kinga Koren, Vicki MacGregor, Lucie Olivier, Andrew Partridge, Richard Rogers, Jenny Stephens
Manufacturer: Insulshell

Homeshell East and West Elevation © 2013 Rogers Stirk Harbor + Partners LLP
Homeshell South and North Elevation © 2013 Rogers Stirk Harbor + Partners LLP
Site plan for the Homeshell at the Royal Academy Annenberg Courtyard.© 2013 Rogers Stirk Harbor + Partners LLP