Oak Ridge National Laboratory

 

News Release

Media Contact: Ron Walli (wallira@ornl.gov)
Communications and External Relations
865.576.0226

 

DOE, TVA partners in groundbreaking energy efficiency project

OAK RIDGE, Tenn., Nov. 21, 2008 — Three houses under construction in East Tennessee carry the story of "The Three Little Pigs" to an entirely new level and will become a model for the nation when it comes to determining energy efficiency.

While the first house isn't made of straw, it is a typical Energy Star "builder house" with an energy efficiency score of 85 Home Energy Rating System, or HERS. The second unit, called a retrofit house, includes energy-efficient upgrades to the building envelope and mechanical equipment. This house has a HERS rating of 64 (the lower the better).

"The retrofit unit will provide a 20 percent energy savings from the builder house yet offers a package of technologies that are considered a reasonable upgrade for many homes in most of the United States," said Jeff Christian, a senior researcher in the Department of Energy's Oak Ridge National Laboratory.

The third unit is a high-performance house with a package of technologies, including windows with efficiency approaching common residential walls, that help push the predicted HERS rating to 30. This house, which includes solar panels mounted on the roof, will provide about 55 percent energy savings compared to the builder unit.

"With these three houses in a typical residential setting we will have research capabilities that are world-unique," Christian said. "And the really exciting thing is that these houses will be available for research for seven years, so we will be able to replace, test and accelerate the development of even more efficient component technologies."

The houses are all typical two-story models built on insulated slabs. The builder and house plans were selected after an extensive study of the residential market in the Tennessee Valley Authority generation territory to be very close to the average house sold in 2007. The houses have similar solar orientation, lot slope, wall areas and wind exposure and range in size from 2,400 to 2,512 square feet.

Occupancy for all three will be simulated to accurately represent conditions of a typical family of four. The same occupancy behavior -- right down to opening and closing the refrigerator door, running the clothes dryer and taking a shower -- will be used for all three homes.

"Eventually, these houses will have simulated occupancy of three levels of users, typical of an energy-saving family and a high-energy-using family," Christian said. "We envision at least once a month these three simulated families will be living in each of these houses for at least a week."

For monitoring purposes, each house will have between 100 and 200 channels of continuous energy performance and thermal comfort data collection.

One of the features of the high-performance house is a window manufactured and donated by California's Serious Materials with R-value ratings of about 6. These triple-layer windows are reported by the manufacturer to have more than double the energy efficiency of typical low-E gas-filled double-pane windows commercially available today.

"Enhancing windows efficiency is a major step forward in achieving net-zero homes," said DOE's Marc LaFrance, manager for Building Envelope and Windows R&D programs. "Windows in the United States are costing consumers approximately $35 billion per year in energy. The next generation of windows could reduce this by more than half."

The Serious Materials windows use a number of advanced technologies, including proprietary spacer and framing materials. ORNL researchers will evaluate the energy and thermal comfort impacts of these prototypes in side-by-side whole house comparisons. Serious Materials hopes to be able to offer the window at less than $5 per square foot above the cost of low-E gas-filled double pane windows -- a cost level viewed as a major market barrier.

Windows, however, are just part of the house and the overall initiative, which is sponsored by TVA and DOE. When the project is complete, measured energy performance of the three houses in Knoxville and four more being built nearby in Oak Ridge will result in a rating system that will allow homeowners to compare their home to these high-performance houses. That information will guide homeowners toward cost-effective energy reduction.

"This will be similar to the energy ratings widely accepted and used for household appliances," Christian said. "When you are considering the purchase of a house, you will know up front what kind of energy efficiency to expect."

Beyond the savings to individual homeowners, the energy performance data will help TVA enact various incentive programs to stimulate a significant portion of its five-year plan of reducing peak and annual energy demand. This will allow TVA to align its residential incentive programs with DOE's Builders Challenge and customize the plan to reflect the unique environment, rate structure and its five-year strategic planning goals.

Construction of the three houses is scheduled for completion by mid-December for the first two and mid-January for the high-performance residence.

The project at Campbell Creek in Knoxville involves many partners, but key players include builder John Kerr, developer Michael Rhodes, General Electric, Dow Chemical, Louisiana Pacific, BioBased Foam, Johns Manville, Serious Materials, Sustainable Future and Big Frog Mountain. ORNL's research and consumer education activities are sponsored by TVA and DOE's Building Technologies Program.

UT-Battelle manages Oak Ridge National Laboratory for the Department of Energy.