| Overall Rating | Silver - expired |
|---|---|
| Overall Score | 51.50 |
| Liaison | Elaine Durr |
| Submission Date | Feb. 27, 2018 |
| Executive Letter | Download |
Elon University
OP-5: Building Energy Consumption
| Status | Score | Responsible Party |
|---|---|---|
|
3.83 / 6.00 |
David
Webb Facility Engineer Physical Plant |
Figures needed to determine total building energy consumption:
| Performance Year | Baseline Year | |
| Grid-purchased electricity | 137,120.69 MMBtu | 84,903.43 MMBtu |
| Electricity from on-site renewables | 20.33 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) | 85,624.90 MMBtu | 72,505.60 MMBtu |
| Total | 222,765.92 MMBtu | 157,409.03 MMBtu |
Start and end dates of the performance year and baseline year (or 3-year periods):
| Start Date | End Date | |
| Performance Year | June 1, 2016 | May 31, 2017 |
| Baseline Year | June 1, 2004 | May 31, 2005 |
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):
Gross floor area of building space:
| Performance Year | Baseline Year | |
| Gross floor area of building space | 2,831,126 Gross square feet | 1,445,653 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 | 0.08 MMBtu per square foot | 0.11 MMBtu per square foot |
| Source energy | 0.18 MMBtu per square foot | 0.23 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 | 2,710 Degree-Days (°F) |
| Cooling degree days | 1,993 Degree-Days (°F) |
Floor area of energy intensive space, performance year:
| Floor Area | |
| Laboratory space | 28,140 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):
Phoenix Cup is a series of competitions aimed at reducing our collective ecological footprint. The competition happens twice a year and lasts for three weeks. In the fall the competition focuses on energy reduction, and in the spring it focuses on waste education. Participants complete weekly checklists to earn points and win prizes. Students and faculty/staff can compete.
A brief description of energy use standards and controls employed by the institution (e.g. building temperature standards, occupancy and vacancy sensors):
Other than residential spaces, all administrative, academic, athletic and dining facilities are scheduled for time of use or occupancy through building automation with set points based on the campus Energy Conservation Policy. During the heating season, space temperatures are targeted at 68°F and between 74° - 76°F during the cooling season during occupied hours. Hot Water (HW) & Chilled Water (CHW) system components (valves, pumps and fans) are proportionally controlled based on building occupancy schedules where Energy Management Sensors read:
1. Room return air temperature, humidity, mixed air temperature, supply air temperature;
2. Fan start/stop, fan status, cfm;
3. VSD status (inlet vane damper position);
4. Static pressure;
5. HW & CHW valve position;
6. Damper positions.
Additionally, boilers and chillers reset operating temperatures based on outside air temperatures (outside air resets).
A brief description of Light Emitting Diode (LED) lighting and other energy-efficient lighting strategies employed by the institution:
LED lighting is now the design standard for all interior, exterior, and pole lighting for all new, renovation and retrofit construction. Projects are under review for feasibility for whole building and partial building re-lamping programs.
A brief description of passive solar heating, geothermal systems, and related strategies employed by the institution:
Four residential buildings, a dining hall and one academic building have solar thermal panels for water heating.
There is a geothermal heat pump system for heating and cooling in the Colonnades Neighborhood.
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):
Efficiency evaluations are done for repairs and replacements, such as the boilers, heat pumps and water heaters.
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:
Elon University does not have a medical school or hospital. At this time other energy intensive spaces have not been identified.
Elon University does not have a medical school or hospital. At this time other energy intensive spaces have not been identified.
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.