Overall Rating | Gold - expired |
---|---|
Overall Score | 65.53 |
Liaison | Dedee DeLongpre Johnston |
Submission Date | July 27, 2018 |
Executive Letter | Download |
Wake Forest University
OP-5: Building Energy Consumption
Status | Score | Responsible Party |
---|---|---|
3.38 / 6.00 |
Mike
Draughn Director, Maintenance and Utilities Services Facilities & Campus Services |
Figures needed to determine total building energy consumption:
Performance Year | Baseline Year | |
Grid-purchased electricity | 289,263.10 MMBtu | 285,668 MMBtu |
Electricity from on-site renewables | 517 MMBtu | 0 MMBtu |
District steam/hot water (sourced from offsite) | 0 MMBtu | 0 MMBtu |
Energy from all other sources (e.g., natural gas, fuel oil, propane/LPG, district chilled water, coal/coke, biomass) | 257,981.60 MMBtu | 228,026 MMBtu |
Total | 547,761.70 MMBtu | 513,694 MMBtu |
Start and end dates of the performance year and baseline year (or 3-year periods):
Start Date | End Date | |
Performance Year | July 1, 2016 | June 30, 2017 |
Baseline Year | July 1, 2006 | June 30, 2007 |
A brief description of when and why the building energy consumption baseline was adopted (e.g. in sustainability plans and policies or in the context of other reporting obligations):
A baseline year of FY 07 was established with the original STARS submission based on availability of reliable historical data.
Gross floor area of building space:
Performance Year | Baseline Year | |
Gross floor area of building space | 4,993,280 Gross square feet | 3,854,426 Gross square feet |
Source-site ratio for grid-purchased electricity:
Total building energy consumption per unit of floor area:
Performance Year | Baseline Year | |
Site energy | 0.11 MMBtu per square foot | 0.13 MMBtu per square foot |
Source energy | 0.23 MMBtu per square foot | 0.29 MMBtu per square foot |
Percentage reduction in total building energy consumption (source energy) per unit of floor area from baseline:
Degree days, performance year (base 65 °F / 18 °C):
Degree days (see help icon above) | |
Heating degree days | 2,929 Degree-Days (°F) |
Cooling degree days | 1,781 Degree-Days (°F) |
Floor area of energy intensive space, performance year:
Floor Area | |
Laboratory space | 54,492.14 Square feet |
Healthcare space | 0 Square feet |
Other energy intensive space |
EUI-adjusted floor area, performance year:
Building energy consumption (site energy) per unit of EUI-adjusted floor area per degree day, performance year:
Documentation (e.g. spreadsheet or utility records) to support the performance year energy consumption figures reported above:
A brief description of the institution's initiatives to shift individual attitudes and practices in regard to energy efficiency (e.g. outreach and education efforts):
A brief description of energy use standards and controls employed by the institution (e.g. building temperature standards, occupancy and vacancy sensors):
Most academic and administration buildings have time-of-day schedules in the building automation systems. The schedules allow the air handlers to run only as necessary to maintain the building temperature between 60 and 80 degrees during unoccupied periods. During the holiday setback, most buildings are allowed to float between 55 degF and 85 degF.
In addition, for rooms without timers in residence halls that close over winter break, we manually set back each area for the extended break -- usually 3-4 weeks.
A brief description of Light Emitting Diode (LED) lighting and other energy-efficient lighting strategies employed by the institution:
Approximately 75% of outdoor street lights and pedestrian lights have been converted to LED. Programs are in place to convert the remaining areas to LED in the near future. Additionally, LEDs have been installed in hard to access or specialty applications in the four new buildings brought online since 2013. They have been installed in our library atrium and several small test areas around campus. LEDs are our design standard for new construction and are being used as the primary lighting source in the five renovation and new construction projects underway.
A brief description of passive solar heating, geothermal systems, and related strategies employed by the institution:
The South Residence Hall domestic water heating is provided with steam to water heat exchangers with 500 gallons of storage capacity. Forty flat plate solar thermal panels provide domestic hot water to reduce the steam load; the system employs four 650-gallon storage tanks. Domestic hot water is heated to 140F and a thermostatic mixing valve blends city water to reduce the building hot water temperature to 120F. The system supplies approximately 60% of the domestic hot water to the building.
A brief description of co-generation employed by the institution, e.g. combined heat and power (CHP):
A brief description of the institution's initiatives to replace energy-consuming appliances, equipment and systems with high efficiency alternatives (e.g. building re-commissioning or retrofit programs):
Retro-commissioning and repairs/corrections have been made on Alumni Hall, Benson Hall, Tribble Hall, Reynolda Hall, Reynolds Library, Worrell and the Scales Fine Art Building.
The website URL where information about the programs or initiatives is available:
Additional documentation to support the submission:
Data source(s) and notes about the submission:
The baseline year is FY 2007. Calculations above do not take into account visitors, guests, or tenants in per capita consumption figures.
The baseline year is FY 2007. Calculations above do not take into account visitors, guests, or tenants in per capita consumption figures.
The information presented here is self-reported. While AASHE staff review portions of all STARS reports and institutions are welcome to seek additional forms of review, the data in STARS reports are not verified by AASHE. If you believe any of this information is erroneous or inconsistent with credit criteria, please review the process for inquiring about the information reported by an institution or simply email your inquiry to stars@aashe.org.