The U.S. Green Building Council has just awarded DC's new Dunbar Senior High School—designed by a joint venture between Perkins Eastman Architects, Setty & SK&A. —an unprecedented 91 LEED credits, breaking the previous LEED for Schools record by 5 credits. The largest portion of these earned credits came from the LEED category EAC1 (Optimization of Energy Performance), in which the new building's design earned an impressive 18 of 19 possible points, indicating that the School, opened in 2013, is projected to save from 46% to 48% in energy costs with respect to an ASHRAE-established baseline building performance rating. These savings are being accomplished through an array of energy conservation measures, including a geothermal well field (DC's largest), PPA-acquired solar panels, radiant flooring, an advanced lighting system with dimmable ballasts, and a rainwater harvesting system.
Thursday, 19 February 2015
Saturday, 14 February 2015
SETTY, a leader in the field of high performing buildings, was recently chosen by the General Services Administration(GSA) to provide MEP design, controls integration, and commissioning services for an innovative 12-month comparison study of competing chiller technologies. This effort is part of the GSA's Green Proving Ground (GPG) program, which is evaluating emerging building technologies in real-world settings and providing recommendations for their deployment across GSA's nationwide real estate portfolio. The study site is the 5 story, 133-year-old Sidney Yates Building, located near the National Mall in Washington, D.C.
A joint effort between SETTY, Maryn Construction, and Oak Ridge National Laboratory, this ongoing study is evaluating the technical performance and cost effectiveness of a variable-speed screw chiller compressor, one of only nine emerging technologies selected in 2014 for GPG evaluation. The baseline for comparison is being provided by a magneticlevitation (Maglev) chiller compressor, a proven technology that was the subject of a 2013 GPG study. Two chiller units—one variable-speed screw and one Maglev, both having identical capacity—are being installed side by side in the Yates building, and performance metrics for both units will be carefully monitored for the duration of the study.
Setty's engineers and commissioning experts are leveraging their expertise in high performing building design to ensure that the two competing chillers are installed in a manner that allows for a fair performance comparison and that efficiently serves the cooling needs of the approximately 200,000 sf Yates building. From field survey to design of new water pumps, variable frequency drives, a new advanced energy metering system, and a new central plant BAS, our engineers are customizing the installations to allow each chiller to operate at optimal efficiency.
Tuesday, 3 February 2015
Under our NIST IDIQ, SETTY is developing a full blown design to fix the problems of the Toxic Gas Monitoring System in the Advance Measurement Laboratory at NIST. Pictured in the required lab protection gear, the SETTY survey team has been working on solutions to fix the monitoring system that has been riddled with problems.