Studio Bark designs water-powered Breach House in UK countryside
CategoriesSustainable News

Studio Bark designs water-powered Breach House in UK countryside

London-based practice Studio Bark has unveiled plans for Breach House, a water-powered family home located in Leicestershire, UK.

Designed to enable the owners to “live off the land”, the proposal by Studio Bark will be powered by photovoltaic (PV) panels and micro-hydro energy, creating a home capable of running off-grid.

Render of water-powered home by Studio BarkRender of water-powered home by Studio Bark
Breach House will be powered by photovoltaic (PV) panels and micro-hydro energy

The 430-metre-square proposal will comprise the new home, along with the restoration of an existing agricultural barn and extensive landscaping.

Making use of the site’s location among a network of small brooks, streams and ponds, run-off water from the surrounding fields will be used to provide a portion of the home’s energy needs. It will also be harvested on-site and filtered for use within the house.

View of 'water tower' within Breach House by Studio BarkView of 'water tower' within Breach House by Studio Bark
The ‘water tower’ connects the home’s two wings

“The concept is a rural home which establishes a reciprocity between ecology and human needs through water,” studio director Tom Bennett told Dezeen.

“The massing echoes the typology of a traditional farmstead, blending contextual influences to create a contemporary building which resonates subtly with its setting.”

Interior render of Breach House in Leicestershire Interior render of Breach House in Leicestershire
The design references the typology of traditional farm buildings

Drawing on the local typologies, the home will be arranged in clusters complemented by courtyards and sheltered outdoor spaces formed by deep overhanging eaves.

A ‘water tower’, which will sit centrally on the site, will house ventilation and circulation functions as well as water filtration.

It will also hold a staircase and corridor to connect the home’s two wings and was designed to be a visual reference to the use of water throughout the scheme.

Low carbon and natural materials suggested for the proposal include reclaimed brick, UK-sourced timber and reclaimed tiles, which were chosen in response to the character and heritage of the surrounding landscape.

Renders of the proposal reveal a largely timber structure, with exposed beams interspersed with skylights featuring on the home’s interior.

On the exterior, trapezoidal-shaped roofs will be clad with decorative tiles and provide shelter for a balcony adjacent to the bedroom on the upper floor.

Render of living interior at water-powered home by Studio BarkRender of living interior at water-powered home by Studio Bark
Exposed timber beams and skylights will feature on the home’s interior

According to the studio, the residual carbon impact of the building is expected to be countered by landscaping proposals – including the planting of around 200 trees – that will accelerate carbon drawdown on the site.

Calculations undertaken by the studio suggest that these landscaping proposals will sequester roughly three times the amount of carbon that will be released over the building’s lifetime.

Render of living space within Breach House in LeicestershireRender of living space within Breach House in Leicestershire
Run-off water will be harvested and filtered for use within the home

“Proposed works include a new woodland area, wet meadow, enriched wildflower meadow, reinstated historical copse, successional tree planting, new ponds and reinstated field boundaries,” Bennett said.

“These measures will sequester carbon, greatly enhance the ecological value of the currently agricultural site, in addition to assisting with natural flood management in the locality.”

Proposed bedroom interior within Breach House by Studio BarkProposed bedroom interior within Breach House by Studio Bark
Breach House is expected to result in a 65 per cent biodiversity net gain

The proposal is anticipated to result in a 65 per cent biodiversity net gain, with additional habitat measures incorporated into the home set to include a bat attic.

Other architectural projects with a heavy focus on sustainability include the UK’s “most sustainable” and largest neighbourhood made from timber and a neighbourhood in Paris made up of limestone buildings.

The renders are courtesy of Studio Bark.


Project credits:

Architect: Studio Bark
Planning consultant/agent: Studio Bark
Client: Private Domestic
Structural engineer: Structure Workshop
Landscape architect: Studio 31
Energy consultant: Max Fordham
Hydrologist: Amber Planning
Ecologist: Elton Ecology
Arboriculturalist: RJ Tree Services
Highways: Create Consulting Engineers

Reference

Bark to beauty: forest byproducts for cosmetics, food, and chemicals 
CategoriesSustainable News

Bark to beauty: forest byproducts for cosmetics, food, and chemicals 

Spotted: One part of the UN FAO’s (Food and Agricultural Organization) forestry programme is the “conservation and sustainable use of forests to enhance forest-based livelihoods.” In this spirit, Finnish materials technology company Montinutra has created a chemical-free extraction process for valorising forestry waste.

Using Pressurised Hot Water Extraction (PHWE), the company transforms forest industry side streams into valuable new ingredients for the cosmetics, food and beverage, and chemical industries. Sawdust and bark are two of the most common waste products in the forestry, and with Montinutra’s inexpensive, efficient extraction process, businesses can turn a byproduct with little value into a new income stream. 

The bioactive compounds that come from wood waste are highly valuable ingredients. When they are used in place of petrochemical-based materials, manufacturers reduce production emissions while improving the health of their products. In cosmetics, for instance, wood sugars provide emulsifying, SPF-boosting, and antioxidant qualities, and the ingredients can be used in industrial applications as binders, coatings, and fillers.  

The extraction process works with many different types of feedstock, and the machinery and hardware are modular, transportable, and use closed-loop water circulation and energy recovery. That makes it easy for lumberyards and other forestry businesses to integrate a new system into existing infrastructure while improving the overall sustainability of their operations. The minimal amount of material left over after extraction can then be used for biofuel. 

Montinutra’s pilot plant in Turku, Finland, proved the viability of the technology, and the company is now in the planning stages for its expansion to industrial-scale manufacturing capabilities by 2026. Following recent funding, the company hopes to quicken its international expansion and is also looking to soon rebrand as ‘Boreal Bioproducts’.

In Springwise’s database, other innovations centred on upcycling sawdust include using the material for 3D printing and building new beehives that help the insects survive winters.

Written By: Keely Khoury

Reference