Honeywell and Merced College kicked off an energy conservation initiative that aims to reduce the school’s annual operating costs by $180,000 through energy-efficient building upgrades.
The program also includes the launch of an enhanced college curriculum focused on teaching conservation strategies that utilize the energy-efficient building upgrades as a real-world case study for classroom learning.
As part of the project, Honeywell will make building infrastructure improvements to 16 campus buildings, including the installation of energy-efficient lighting and upgraded heating, ventilation and air conditioning (HVAC) systems. Overall, these campus building improvements are expected to trim the college’s electricity use by more than 1.5 million kilowatt-hours annually - enough energy to power nearly 180,000 homes.
Merced College and Honeywell will use the school’s energy usage statistics to develop a course curriculum on sustainability, and raise awareness among students of the positive impact conservation practices contribute to the community. As part of this program, using Honeywell’s Energy Management System (EMS), Sustainability Interns will track resource usage in 16 campus buildings. The interns will develop a newsletter to update students, faculty and staff on the program’s progress and help lead additional campus-wide conservation efforts, such as recycling competitions and car-sharing programs.
Honeywell will complete the building system enhancements and future maintenance under a 15-year, $3.1 million performance contract. This will allow school officials to pay for the upgrades using the cost savings generated, which Honeywell guarantees. As a result, the program won’t increase school budgets or require additional funding.
Honeywell will implement a variety of conservation measures across campus buildings, including:
· Sub-meters in 16 campus buildings to provide facility personnel with a more granular view of energy usage throughout campus from a centralized energy management system
· Updated HVAC systems for the gymnasium, student union, theater and computer services building to improve energy efficiency
· High-efficiency lighting for building exteriors and interiors, including light-emitting diode (LED) lights. BD+C
Related Stories
| Feb 7, 2012
Thornton Tomasetti opens new office in Denver
The firm, which now has 25 offices internationally, opened the new office to better serve current and potential clients in the western Central region and Mountain States.
| Feb 6, 2012
Slight increase in nonres construction spending expected in 2012, growth projected for 2013
Commercial sector expected to lead real estate recovery.
| Feb 6, 2012
FMI releases 2012 Construction Productivity Report
Downsizing has resulted in retaining the most experienced and best-trained personnel who are the most capable of working more efficiently and harder.
| Feb 6, 2012
Kirchhoff-Consigli begins Phase 2 renovations at FDR Presidential Library and Museum
EYP Architecture & Engineering is architect for the $35 million National Archives Administration project.
| Feb 6, 2012
Batson-Cook announces the appointment of Hall as president
Hall will manage and direct all aspects of the firm’s day-to-day operations. He will be based in Batson-Cook’s Atlanta office.
| Feb 6, 2012
Siemens gifts Worcester Polytechnic Institute $100,000 for fire protection lab renovation
Siemens support is earmarked for the school’s Fire Protection Engineering Lab, a facility that has been forwarding engineering and other advanced degrees, graduating fire protection engineers since 1979.
| Feb 2, 2012
Call for Entries: 2012 Building Team Awards. Deadline March 2, 2012
Winning projects will be featured in the May issue of BD+C.
| Feb 2, 2012
VLK Architects selected for new Cypress, Texas elementary school
The Bridgeland Elementary School will be a new prototype school for the District. Designed to meet the requirements of The Collaborative for High Performance Schools.
| Feb 2, 2012
Mortenson Construction to build 2.4 MW solar project in North Carolina
Located on a 12 acre site in the Sandhills region, the 2.4 megawatt (MW) system is expected to generate approximately 3.5 million kilowatt hours (kWhs) of clean electricity on an annual basis.