14. Mod Pod A Nod to Flex Biz
Designed by the British firm Tate + Hindle, the OfficePOD is a flexible office space that can be installed, well, just about anywhere, indoors or out. The self-contained modular units measure about seven feet square and are designed to serve as dedicated space for employees who work from home or other remote locations. Construction of the modular pods includes natural, recycled, and recyclable materials, as well as insulation and a high-efficiency HVAC system. The pods are plug-in powered; the fully wired units connect to an existing structure (home, garage, office building, um...Starbucks?) while IT and phone connectivity is wireless, but can also be cabled in. Delivery takes approximately 12 weeks.
15. Transform any Work Surface into A Charging Station
16. Concrete Slabs Plays up Rubber Ball Technology
17. Brown Rice for Greener Concrete
While slag from steel mills, fly ash, and silica fume are being added to concrete to reduce the material's greenhouse gas emissions and make it stronger and more resistant to corrosion, rice husks (the small cases around edible rice kernels) have so far proved an unsuitable additive because when burned, its ash is too contaminated with carbon. However, scientists were focused on finding ways to utilize rice husks because they are very rich in silicon dioxide, a core concrete ingredient. A breakthrough has come from researchers at Plano, Texas-based ChK Group, who discovered that superheating the husks to almost 1500 °F in an oxygen-free furnace produces pure, nearly carbon-free silica. ChK researchers, who are still refining their production processes, speculate a single full-size furnace could produce 15,000 tons of rice husk ash annually, which can be used to replace up to 20% of cement used in concrete production.
18. Killer Beetles Lead to Concrete Plywood
The mountain pine beetle is devastating British Columbia's conifer forests, and while some researchers focused on controlling the destruction, others focused on salvaging the billions of dead trees. The University of Northern British Columbia's professor Ron Thring and graduate student Sorin Pasca focused on salvaging efforts and discovered that dead wood from lodgepole pine trees is an excellent ingredient for cement production. While cement typically repels organic material, the beetles "enhanced" the wood in such a way that it sticks to cement and act as a substitute for typical aggregates like stones and rocks. Researchers say the concrete plywood hybrid board (above), which they call MPB (for mountain pine beetle), is water resistant and can be used in place of drywall and gypsum board or as flooring and countertop surfacing. Boards can be cut with regular woodworking tools and nailed without pre-drilling.
Related Stories
| Aug 11, 2010
Section Eight Design wins 2009 Open Architecture Challenge for classroom design
Victor, Idaho-based Section Eight Design beat out seven other finalists to win the 2009 Open Architecture Challenge: Classroom, spearheaded by the Open Architecture Network. Section Eight partnered with Teton Valley Community School (TVCS) in Victor to design the classroom of the future. Currently based out of a remodeled house, students at Teton Valley Community School are now one step closer to getting a real classroom.
| Aug 11, 2010
University of Florida aiming for nation’s first LEED Platinum parking garage
If all goes as planned, the University of Florida’s new $20 million Southwest Parking Garage Complex in Gainesville will soon become the first parking facility in the country to earn LEED Platinum status. Designed by the Boca Raton office of PGAL to meet criteria for the highest LEED certification category, the garage complex includes a six-level, 313,000-sf parking garage (927 spaces) and an attached, 10,000-sf, two-story transportation and parking services office building.
| Aug 11, 2010
Draft NIST report on Cowboys practice facility collapse released for public comment
A fabric-covered, steel frame practice facility owned by the National Football League’s Dallas Cowboys collapsed under wind loads significantly less than those required under applicable design standards, according to a report released today for public comment by the Commerce Department's National Institute of Standards and Technology (NIST).