Boulder Home Pushes for Zero
The Solar Harvest home, built by Boulder-based Ecofutures Building, Incorporated, has been gaining a lot of recognition lately--and for good reason. By achieving 97.7 out of 100 points in an Energy Star audit, it stands as the most energy-efficient house in Colorado. Its the first house in Boulder to pass construction and heating codes without being required to have an electric or gas backup heating system. And it recently won the Colorado Renewable Energy Societys Renewable Energy in Buildings award in the General Housing category.
Built in late fall 2005, the Solar Harvest produces as much energy as it consumes, using only solar energy. Eric Doub, the designer and builder of Solar Harvest as well as the president of EcoFutures, says that by meeting this net zero-energy goal, we are striving to build a house that will be affordable and viable 100 years from now, when who knows how much natural gas—and electricity—will cost.
The spacious two-story home (with 4,585 ft2 of conditioned space) has five bedrooms and two guest suites, as well 400 ft2 unfinished garage and a 600 ft2 unfinished carport. The wood-framed home relies on a mix of energy efficiency, renewable technologies, and conservation measures to secure zero-energy status. Solar Harvest is tied to the grid and uses a 6.84 kW PV array by Sharp technologies in two mounts connected to two Fronius IG inverters. The panels provide enough electricity to more than meet the homes energy needs (see Figure 1).
The building envelope is made up of FSC-certified 2 x 6 studs with 1-inch resilient channel at 24 inches OC. Double 5/8-inch Sheetrock for distributed thermal mass is also utilized. Seven inches of the spray foam insulation is used for the walls, and 12 inches of Icynene sprayfoam insulation is used for the ceilings. Above-ground walls rate R-34 and the ceiling rates R-45. One-inch rigid extruded polystyrene foam (XPS) is encased with 1/8-inch GrailCoat waterproofing exterior, and walls are slightly thicker than the standard 2 x 6 wall.
A 6,000-gallon superinsulated tank designed by Doub stores hot water at 170°F-190°F. The hot water comes courtesy of 12 salvaged Novan solar-thermal flat-plate collectors set up in a drainback system, which acts as a thermal battery. The tank is constructed with Greenblock insulated concrete form (ICF) walls, Icynene insulation, and recycled polyiso foam. Coils of copper tubing act as heat exchangers, transferring heat to domestic hot water, the staple-up radiant floor space-heating system, and the 360-gallon outdoor hot tub, which is kept at 103°F. The water tank can heat the house to 68°F for eight consecutive days.
The house utilizes geothermal preheating and precooling for incoming fresh air. The geothermal system consists of 260 feet of 6-inch PVC pipe buried 6-8 feet below ground. With this system, the energy recovery ventilator (ERV) is able to run continuously even if exterior temperatures are below 28ºF, and can achieve a maximum heat recovery of 95%. In the winter of 2005-2006, when the exterior temperature was 4ºF, incoming fresh air to the ERV was measured at 38ºF. And in summer, 95ºF is easily converted into 60ºF at 200 CFM. An UltimateAir RecoupAerator ERV functioning at 96% heat recovery efficiency ensures continuous fresh-air exchange into the airtight building with 0.1 natural ACH or lower.
The Solar Harvest has average Xcel Energy bills of $12 per month for 2 therms of natural gas used for the range and dryer, and $6 per month connectivity fee for less than zero electricity usage (reconciled annually, the Doub family receives a small check from Xcel, about enough to go out to dinner). The extra electricity generated by the home more than offsets the energy in 2 therms of gas, so that in all, the home has a net negative energy bill for the year.
The house was part of the Boulder Tour of Solar and Green-Built Homes in fall 2005. Doub says that he is living in the most comfortable home I have ever experienced. In this climate and with this high-performing envelope, when the sun is shining on a winter day, it almost feels like cheating. It just seems almost too easy now, to be better than net zero-energy.
Doub says that the next challenge is trying to green their car, pointing out that an average Boulder households greenhouse gas impact is 42% house and 58% transportation. Currently, Doub wants to use the outlets in the carport to plug in the familys Prius. He says that the PV system's extra 10-15 kWh per day should help transport them locally. We've built a home that gets an infinite number of miles per gallon, so to speak, and we want to be driving cars we can feel good about, too. Over 1,200 people have toured Solar Harvest since October 2005, and I think I am as energized by sharing our success as visitors are inspired. Its the right time in history to have designed and built a home that has a net negative energy bill for the year; people are captivated, fascinated--and even though I live here, so am I!
Elka Karl is an associate editor with Home Energy magazine.
- FIRST PAGE
- PREVIOUS PAGE
Enter your comments in the box below:
(Please note that all comments are subject to review prior to posting.)
While we will do our best to monitor all comments and blog posts for accuracy and relevancy, Home Energy is not responsible for content posted by our readers or third parties. Home Energy reserves the right to edit or remove comments or blog posts that do not meet our community guidelines.