This nearly one hour video program features some of the luminaries of the natural building movement and is well worth watching. In addition to the many interviews are some luscious images of the process and result of fine natural craftsmanship.
Meet Linda Smiley and Ianto Evans who pioneered cob building in the U.S. and who now run the North American School of Natural Building in Coquille, Oregon where they and their students have used natural building methods to create a little village. Coenraad and Courtney Rogmans took a piece of undeveloped land, built straw bale and cob buildings complete with solar electricity and a water catchment system, and now teach natural building workshops. Taylor Starr at White Oak Farm, an organic farm and educational center, is putting the final touches on a striking timber-framed straw bale and cob community center. Brendan Flanagan, with his family and friends, turned a remote wooded hillside into a snug community of homes and gardens. Rob Bolman, an advocate of incorporating natural building techniques into mainstream building practices, created an ecovillage in the middle of Eugene, Oregon, and speaks passionately about the link between natural building and social justice. Meka Bunch, after only a week-long workshop, built his own elegant cob cottage and now works sharing natural building with people abroad. And Kiko Denzer, a sculptor and cob builder, and his wife Hannah, an organic gardener and baker, transformed a dilapidated outbuilding in the country into a cozy cob home surrounded by beautiful gardens.
Here is a description of how a small cob shed was made with all local, natural materials. The audio is compromised by wind, but you can still get a good feeling for how the structure was built. Nicely done I would say.
About 15 years ago I built the “Carriage House” using a prefabricated steel vault as a supporting structure for earthbags filled with scoria as insulation. It is a two story affair, with the lower one being a garage/shop and the upper one an office and storage space. I located a new 34′ X 16′ steel quonset building that was sold disassembled for $1900 delivered. I realized that if I raised it up 4 extra feet, I could build a loft in it, so that is what I did, using a double row of earthbags on either side to support it. There is potentially about 900 s.f. of usable floor area on two stories.
Each arched section is composed of five pieces, and there are 17 sections, so it entailed a lot of ladder work to bolt the thing together one piece at a time. Since the steel vault is completely covered with insulating earthbags, the building is very well insulated, and comfortable year-round. This concept could be converted to residential use, with the addition of kitchen and bathroom functions.
The end walls were created with wood framing and siding materials. Most of this wood was either recycled from nearby building projects (taken from the dumpster), or bought as remnants. The cedar lap siding actually represents four different styles, so the facade has a rather patchwork quality. The door and windows were all recycled as well. The bags were initially covered with papercrete that adds to the insulation value, but then later the entire vault was plastered with durable stucco.
The first floor houses the garage, shop, and some storage functions. There is a separate entry door, as well as the garage door. If the building is oriented with the glass end wall facing south, significant solar gain can be attained (in this case it might be advantageous to provide a solar shade over the window to shade it during the summer. The staircase to the second floor is rather narrow (about 2 feet) because it must fit between the two-foot intervals of the joist/ties. The interior of the shell could be finished in a variety of ways, or even left with the steel showing, as I did with this workshop and office. Cloth material could be draped over it, sheetrock could be scored on one side to allow it to curve to the shape of the vault, or wood tongue and grooved siding could be installed, to name a few possible surfaces.
The second floor has 6′ 7″ of head room in the center, and this diminishes toward the sides. The significant counter space utilizes areas where standing room is not available. The front office area has plenty of natural light from the southern windows, which can also be opened to provide ventilation through to the northern window.
The cross section shows the hybrid nature of this design. In order to gain height, the steel shell is erected on top of an earthbag stem wall, and then the earthbags continue on up over the building. The double columns of the stem wall provides thermal mass on the inside and insulation on the outside. An insulated concrete pad is poured for the shop/garage floor. The second floor joists and tie beams are essential elements of the design, since they resist deformation of the vault from all of the weight on it.
As I recall the entire cost of the Carriage House came in around $5000, with me doing most of the labor, and a lot of scrounging for materials. You can read more details about this at greenhomebuilding.com and the basic plan is available at dreamgreenhomes.com