Panyaden International School in Thailand was in need of a bigger assembly space and an indoor sports facility that would keep students from getting wet in the rainy season and keep them cool on hot summer days.
The project, designed by Chiangmai Life Construction, provides space for futsal, volleyball, basketball, and badminton as well as a stage. In addition to the standard size courts there are also game lines for three smaller mini-volleyball and badminton practice courts for younger students.
But it isn’t the space that makes the building unique, or the fact that its overall design resembles a rebel trooper’s helmet from Star Wars (the architect says the design concept originated from the lotus flower, which is a nod to the school’s Buddhist values). What makes the building unique are the materials used to create it. Or, more specifically, the material used to create it.
Photo courtesy of Chiangmai Life Construction.
The entire 8,417-sf structure was created from bamboo. Spans of 15 meters were created with bamboo trusses that were pre-built on the floor and lifted into place by crane. These 15-meter spans, with equal height, were created without any steel reinforcements. Two engineers calculated the loads, tensions, and sheer forces in order to design and build the structure according to 21st century engineering practices. The building can withstand high-speed winds and earthquakes.
The space is naturally ventilated and lit through openings between the three-layered roof. Adding to the project’s core mission of creating a green building, a zero-carbon footprint was achieved due to the bamboo absorbing more carbon than what was emitted during treatment, transport, and construction.
For more images, click here.
Related Stories
Green | Jun 18, 2015
‘Solar water’ poised as global solution
Strapped with both water and energy crises, several island nations are investing in solar-powered water plants to attain more resilient water and power sources.
Lighting | Jun 17, 2015
LED lighting: Replaceable or disposable?
While first generation LED lighting fixtures were basically your standard incandescent or fluorescent housing retrofitted with LED light boards, manufacturers have now begun designing fixtures around the LEDs, writes SmithGroupJJR's Michael Nowicki.
High-rise Construction | Jun 15, 2015
Cornell Tech breaks ground on world's first Passive House residential high-rise
To achieve Passive House standards, Cornell Tech Residential will incorporate a number of sustainability-focused design elements. The façade, constructed of a prefabricated metal panel system, acts as a thermally insulated blanket wrapping the building structure.
Green | Jun 10, 2015
GBCI launches rating system for sustainable landscapes
The new SITES rating system can be applied to development projects located on sites with or without buildings, ranging from national parks to corporate campuses, streetscapes and homes, and much more.
Green | Jun 9, 2015
Fuel cell technology makes its way into energy generation
Demand for fuel cells, while modest, is growing, and cost savings are getting noticed.
Green | Jun 8, 2015
Maryland tech firm is developing spray-on solar panels for windows
Made primarily out of hydrogen and carbon, the coating can turn see-through surfaces into solar panels.
Green | Jun 8, 2015
Diamond Schmitt Architects creates tool to compare energy use data across building types
The firm's new ecoMetrics tool allows for a comprehensive analysis of data from energy simulation models across a wide range of the company’s building types.
Multifamily Housing | May 30, 2015
Energy Department releases resources to assess building energy benchmarking policies, programs
The new handbook demonstrates methodologies using real data from New York City.
Cultural Facilities | May 13, 2015
MVRDV selected to design High Line-inspired park in Seoul
The garden will be organized as a library of plants, which will make the park easier to navigate.
