This fall a team of environmental and computer scientists, along with architects and natural resources specialists at the University of Michigan, will launch a research project to design, test, and build a new smart system for building envelopes. The system combines the use of sensors, novel construction materials, and utility control software in an effort to create technology capable of reducing a building’s carbon footprint.
Buildings account for about 72% of American electrical consumption—despite technology that could enable many structures to give back more power to the electrical grid than they draw through features such as solar panels, according to researchers Jerome Lynch and Geoffrey Thun.
Thun said building systems can become more dynamic and responsive to changes in light by adding temperature, light, and humidity sensors that are linked to digital control systems. BD+C
Related Stories
| Apr 10, 2013
6 funding sources for charter school construction
Competition for grants, loans, and bond financing among charter schools is heating up, so make your clients aware of these potential sources.
| Apr 10, 2013
23 things you need to know about charter schools
Charter schools are growing like Topsy. But don’t jump on board unless you know what you’re getting into.
| Apr 9, 2013
FMI predicts 8% rise in construction put in place for 2013
FMI, the largest provider of management consulting and investment banking services to the engineering and construction industry released today its Q1-2013 Construction Outlook. The forecast for total construction-put-in-place for 2013 continues to show an increase of 8% over 2012 levels.
| Apr 8, 2013
Most daylight harvesting schemes fall short of performance goals, says study
Analysis of daylighting control systems in 20 office and public spaces shows that while the automatic daylighting harvesting schemes are helping to reduce lighting energy, most are not achieving optimal performance, according to a new study by the Energy Center of Wisconsin.