Thammasat Urban Rooftop Farm (TURF)

Thammasat Urban Rooftop Farm (TURF)

Arquitecto
LANDPROCESS

Arsom Silp Institute of the Arts
Ubicación
Asia
Categoría
Espacios Verdes Urbanos

Granjas
Historias De
LANDPROCESS

Firestone Building Products EMEA
Panoramic Studio / LANDPROCESS

Thammasat Urban Rooftop Farm (TURF)

LANDPROCESS como Arquitectos

Amidst the climate crisis, food and water scarcity pose tremendous threats to human civilization. Once abundant agrarian societies rich with food sources, Bangkok and cities across Southeast Asia have become victims of unregulated urbanization on rice-producing regions, pushing food sources further away from cities and their consumers. By 2050, 80 percent of the world’s population will live in cities. To ensure global food security, and prioritize human and environmental health, cities must utilize wasted urban spaces to produce food efficiently and sustainably.

Repurposing 236,806 sq. ft. of wasted rooftop space, the landscape architect helped Thammasat University envision and implement a climate solution with Asia’s largest organic rooftop farm—Thammasat Urban Rooftop Farm (TURF). Integrating modern landscape architecture with the agricultural ingenuity of traditional rice terraces, TURF creates an inclusive circular economy for the campus, incorporating sustainable food production, renewable energy, organic waste, water management and public space for all.

Inspired by the ingenuity of traditional agricultural practices on mountainous terrains across Southeast Asia, TURF’s landscape architect integrated the earthwork of rice terraces with modern green roof technology. The 236,806 sq. ft. cascading rooftop can slow down runoff up to 20 times more efficiently than a conventional concrete rooftop.

As rainwater zigzags down the slopes, each level of TURF harvests runoff from the previous cell, forming unique clusters of micro-watersheds along the terrace to helping absorb, filter and purify rainwater while growing food for the campus. By the end of its journey, four retention ponds await on each wing, capable of holding up to 3,095,570 gallons of water once combined. These ponds significantly reduce the volume of stormwater leaving the site while mitigating unexpected flood and drought disasters. They present a solution to storing excessive runoff during intense storms for future use during dry spells.

Reusing restoring water at four retention ponds, the TURF manages on-site water management to minimize water footprint on food production. A solar-powered pump pushes stored water upward for roof irrigation. Furthermore, the cascading layers of rice and vegetable plantations enrich the soil’s nutrition, reducing the amount of soil mass lost during heavy rainfall. This prevents polluted runoff as well as particulate airborne toxins from entering drainage systems and natural water bodies.

By carving into the mountainous architecture and maximizing the use of the inclined surface, TURF utilizes every level of the terrain to create multi-functional public spaces. Twelve individually designed areas on the slopes serve as oval-shaped outdoor classrooms, while small pockets dispersed along the staircases provide intimate social spaces and access to the crops. TURF rewards those who climb to the top with a 360-degree panoramic view of the Bangkok centered in an urban farm and under the open sky. A large amphitheater provides an accessible and flexible recreational and educational space for all visitors. 

As lush green turns to dry brown, TURF is a realistic, but hopeful solution that puts modern urban dwellers back in tune with ancestral agricultural practices. The landscape architect implemented a holistic approach inspired by local ingenuity. Carried on through several generations of farmers who learned from the land and water they lived with—TURF holds with it the history of Thai culture, landscape and native soil, embedded as lessons to communities and city builders on how to adapt to and embrace climate challenges  in building the sustainable cities of the future.

Largest urban rooftop farm in Asia waterproofed by Firestone

Firestone Building Products EMEA como Roofing

In 2019, the new campus of the Thammasat University, one of oldest academic institutions in Thailand, became Asia’s largest urban rooftop farm, with about 7,000 m² destined to organic farming.

Green roofs play an important role in helping curb some of the impacts of climate change, such as frequent flooding, which is a real issue in Bangkok. According to climate experts, the city will sink by more than 1 cm per year and nearly 40% of the Thai capital may become flooded by 2030 due to the increased rainfall. The creation of green spaces is therefore key to achieve better stormwater management, especially in a city where green spaces are very limited.

Kotchakorn Voraakhom, chief executive and founder of Landprocess, the landscape architecture firm behind the Thammasat University Rooftop Farm (TURF) project  explains their choices: "Rooftops are usually under-utilized, but they can become green spaces that reduce the urban heat-island effect, reduce the environmental impacts of buildings and land use and can even feed people".

The H-shaped building of the Thammasat University Rangsit campus gives the green roof a “mountain” look. This looks evokes the traditional rice terraces in northern Thailand: the cascading levels of the TURF slow down run-off rainwater and allow it to be harvested and stored in four retention ponds. This water is re-used to irrigate the crops of the rooftop farm. The green roof also filters rainwater naturally thanks to several layers of plants and soil before it leaves the site and reaches residential water sources and marine ecosystems.

 

Why UltraPly TPO ?

Firestone’s UltraPly TPO thermoplastic membrane was chosen to waterproof the roof of this iconic and impressive building. Its excellent weathering performance and ability to withstand very high and very low temperatures make it a very durable waterproofing solution. The membrane also provided an excellent base for the green roof. UltraPly TPO has successfully passed stringent root penetration resistance tests, such as the EN 13948 standard and the FLL test from the German Landscape Research, Development and Construction Society.

Discover all about Firestone's UltraPly TPO now !

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