An Ode to Recycling and the Environment
Built of recycled and eco-sensitive materials, the Debris House by Wallmakers displays a certain whimsy while advocating for alternate building technologies
Debris House, Kerala Wallmakers, Kerala
Afew years ago, this was a site littered with the remnants of several demolished buildings. Today, it features a striking rammed earth residence for a family of six. Nestled in a quaint township in Kerala and built on a slope, the Debris House maximises the given area the building is set in by sporting multiple levels to accommodate the family and to meet the client’s dreams in the most feasible way.
There is a lot of potential in arriving at the design sensibilities of small urban and suburban homes for clients who approach architects with limited budgets and elaborate plans. Houses are aspirational investments for many in the developing suburban landscape of India, sometimes demanding a lifetime worth of savings from the clients. Very different from weekend homes, these houses have become prototypes in themselves and act as pivots for the lives of the inhabitants.
The Debris House employs recycled and ecosensitive materials in its making, while ensuring that the limitations of the materials are overcome and an expressive architecture is allowed to emerge from the constraints. The debris wall is built over a discovered foundation and with materials that are recycled from the site. The coconut shell filler slab enables the architect to reduce the use of concrete in the same. The small courtyard ensures ventilation and the windows are made from scrap but with a certain careful detailing. While the house uses numerous alternate technologies,
there is a certain whimsy and playfulness in its design. The levels of the site are explored for connections within, and the house maintains a scale with sensitivity towards the neighbourhood.
As urban influence spreads in smaller towns, many aspire for homes that often mimic the city, with the use of glass, concrete, steel and other urban materials dominating the imagery. By resisting this omnipresent phenomenon and generating an architecture that is modern yet responsive to the specific conditions of its context will perhaps enable these towns to find their unique language.
PROJECT TECHNOLOGY
Considering the local nuances and the economic constraints, the materials for this project were responsibly chosen. The walls rose up from the earth that was dug out within the site, while the debris from the earlier building was turned into a curvilinear wall that forms the central courtyard and becomes the central focus of the house. Called the Debris Wall, it ushers in the advent of a new technology. Recycled wood is used to create the furniture that derives its form from boxes and store lots of books for the client, who is a school teacher.
DEBRIS WALL
The wall uses meshed (22 gauge chicken mesh) casing reinforced with 6mm bars at 2 feet intervals vertically and horizontally. Lump-sized debris mixed with 10% gravel, 5% cement and 5% manufactured sand with water, was slightly tamped in 2cm layers to form the set of walls defining the entrance.
The debris wall consumes five times less energy than a fired brick wall. The embodied energy of a debris wall is 850 MJ/m3; on the other hand, the
same for a country-fired brick wall is 4,501.25 MJ/m3.
RAMMED EARTH WALLS
The other walls of the building are made of rammed earth directly from raw earth with 5% cement stabilisation. Not only is the technique highly effective, but it also yields very strong structures with dry crushing compressive strength ranging from 6mpa-8mpa.
Rammed earth walls consume four times less energy than a fired brick wall; embodied energy of rammed earth wall is 1,112.36 MJ/m3, while that of a country-fired brick wall is 4,501.25 MJ/m3. Rammed earth walls are also four times less polluting than fired brick walls; their carbon footprint is about
110.11 kg of CO2/m3, while for country-fired brick walls it’s about 444.12 kg of CO2/m3.
FERROCEMENT SHELLS
The roof of the house is made of precast ferrocement shells lifted and placed in position manually. These wafer-like structures are steel reinforced arched shells with effective thickness of 1.5cm, and they can take the equal load of respective RCC slabs. Such a roof effectively reduces the overall cement consumption by 40% and steel consumption by 30%. These replace the RCC slabs in roofing as they are as strong as 1200 kg/m2.
SPECIAL FEATURES
Other green initiatives include a rainwater harvesting and recycling system, and a responsive passive air circulation achieved through a careful planning of the courtyard and the facades. The windows protected with meter boxes from a local scrapyard create a mural on the rammed earth walls as the day goes by. Coconut shells used as fillers in the concrete roof give a contemporary touch to the structure. The latter half of the house incorporates ferrocement shell roofs. Within the local context, the project manages to stand out even while humbly maintaining its commitment to the society and the environment.