The Energy iCAP Team met on April 27th at 9:00 A.M.
You are here
Building-Level Energy Efficiency (Ongoing)
Energy Conservation Efforts
- Changing Usage of Individuals
Building-Level Energy Efficiency
- Weatherization of Small Campus Buildings
- Plant Sciences Window Shades
- Building Envelope Pilot Project
- Convert Fume Hoods from CAV to VAV
- Energy Models for Campus Facilities
- Graduate Dance Space
- HVAC and Air Quality Assessment Pilot Project
- LEED Certification
- Reduce Active Fume Hoods
- Lighting Conservation Projects
- ECE Net-Zero Energy Building
- Facility Standards
- Improve Space Utilization
- Centralized Energy Efficiency Efforts
- Computers and Technology
The iCAP 2020 objective 2.2.2 is to "Reduce the total annual energy consumption of each college-level unit by at least 20% from an FY15 baseline by FY35." The responsible campus unit(s) for championing this objective are the individual buildings/units with F&S.
From the 2010 iCAP:
The projected carbon emissions for a business-as-usual scenario show significant increases in emissions due to additional square footage. The University will pursue strategies that slow the amount of increased square footage by judiciously examin- ing existing space. The business-as-usual projection also presumes energy efficien- cy at historic levels. The University has implemented green building requirements that should improve performance levels, including a LEED Silver certification re- quirement for major new buildings and renovations. Results by the Rocky Moun- tain Institute show that there is no correlation between the level of LEED achieved by a building project and the project cost.19 Further, federal, state and local codes, ASHRAE, and AIA are targeting widespread deployment of net-zero commercial buildings by 2030, and the Department of Energy is seeking to make net-zero buildings financially viable by 2025. A net-zero building is one that generates as much energy as it uses over the course of an average calendar year. Projects that seek to do better than meet minimum campus standards should receive campus support or credit for the improvements compared to the baseline.
The campus will implement a freeze on new buildings and building additions once current planned projects are completed. Any new space must take an existing space of equal or greater size (or of equal or greater energy usage) out of commis- sion. Furthermore, any building retrofit will be required to “do no harm”; that is, it should not increase the energy consumption of a building—if necessary by pack- aging together additional energy conservation and renewables as part of a project. New building projects will be net-zero or replace an existing building. These can be facilitated by a marketplace for space. All projects currently in planning require at least a 30 percent improvement in the proposed building performance rating compared with the baseline building performance rating, as calculated using the latest version of ANSI/ASHRAE/IESNA Standard 90.1. Finally, the campus space market will include the demolition of certain buildings with poor energy performance, high deferred maintenance burdens, and low his- torical value. Campus buildings that are seen as approaching a deferred mainte- nance deficiency value that is higher than their current replacement value will be considered for removal or renovation.20
No description has been provided yet.