Overall Rating Gold
Overall Score 77.43
Liaison Elida Erickson
Submission Date Feb. 28, 2022

STARS v2.2

University of California, Santa Cruz
OP-5: Building Energy Efficiency

Status Score Responsible Party
Complete 4.04 / 6.00 Ellen Vaughan
Water & Climate Action Manager
Sustainability Office
"---" indicates that no data was submitted for this field

Part 1. Site energy use per unit of floor area

Performance year energy consumption

Electricity use, performance year (report kilowatt-hours):
kWh MMBtu
Imported electricity 21,552,000 Kilowatt-hours 73,535.42 MMBtu
Electricity from on-site, non-combustion facilities/devices (e.g., renewable energy systems) 252,647 Kilowatt-hours 862.03 MMBtu

Stationary fuels and thermal energy, performance year (report MMBtu):
MMBtu
Stationary fuels used on-site to generate electricity and/or thermal energy 531,318 MMBtu
Imported steam, hot water, and/or chilled water 0 MMBtu

Total site energy consumption, performance year:
605,715.46 MMBtu

Performance year building space

Gross floor area of building space, performance year:
553,637.96 Gross square meters

Floor area of energy intensive space, performance year:
Floor area
Laboratory space 114,948.60 Square meters
Healthcare space 3,516.75 Square meters
Other energy intensive space 0 Square meters

EUI-adjusted floor area, performance year:
790,568.67 Gross square meters

Performance year heating and cooling degree days 

Degree days, performance year:
Degree days
Heating degree days 1,670.56 Degree-Days (°C)
Cooling degree days 68.33 Degree-Days (°C)

Total degree days, performance year:
1,738.89 Degree-Days (°C)

Performance period

Start and end dates of the performance year (or 3-year period):
Start date End date
Performance period Jan. 1, 2019 Dec. 31, 2019

Metric used in scoring for Part 1

Total site energy consumption per unit of EUI-adjusted floor area per degree day, performance year:
136 Btu / GSM / Degree-Day (°C)

Part 2. Reduction in source energy use per unit of floor area

Baseline year energy consumption

STARS 2.2 requires electricity data in kilowatt-hours (kWh). If a baseline has already been established in a previous version of STARS and the institution wishes to continue using it, the electricity data must be re-entered in kWh. To convert existing electricity figures from MMBtu to kWh, simply multiply by 293.07107 MMBtu/kWh.

Electricity use, baseline year (report kWh):
kWh MMBtu
Imported electricity 41,941,792 Kilowatt-hours 143,105.39 MMBtu
Electricity from on-site, non-combustion facilities/devices (e.g., renewable energy systems) 0 Kilowatt-hours 0 MMBtu

Stationary fuels and thermal energy, baseline year (report MMBtu):
MMBtu
Stationary fuels used on-site to generate electricity and/or thermal energy 423,126 MMBtu
Imported steam, hot water, and/or chilled water 0 MMBtu

Total site energy consumption, baseline year:
566,231.39 MMBtu

Baseline year building space

Gross floor area of building space, baseline year:
430,960.67 Gross square meters

Baseline period

Start and end dates of the baseline year (or 3-year period):
Start date End date
Baseline period Jan. 1, 2006 Dec. 31, 2006

A brief description of when and why the energy consumption baseline was adopted:
2006 is the first year we have complete energy data.

Source energy

Source-site ratio for imported electricity:
3

Total energy consumption per unit of floor area:
Site energy Source energy
Performance year 1.09 MMBtu per square meter 1.36 MMBtu per square meter
Baseline year 1.31 MMBtu per square meter 1.98 MMBtu per square meter

Metric used in scoring for Part 2

Percentage reduction in total source energy consumption per unit of floor area from baseline:
31.26

Optional Fields 

Documentation 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:
The campus has several student and staff related initiatives to keep campus occupants aware of energy efficiency and sustainability practices. The Sustainability Office manages several student programs providing outreach to students to save energy at their dorms, apartments, and work and study spaces. The student-run Green Labs programs focuses on making individuals implement best energy efficiency practices in labs while the Green Office Certification program focuses on offices.

A brief description of energy use standards and controls employed by the institution:
UCSC runs most major building systems on a demand-based scheduling system, that allows large spaces to idle at lower airflow and temperature setting when unoccupied. Our campus standard for occupied spaces is a temperature range of 68-74 degrees F, and when unoccupied, these spaces relax to setpoints of 60-80 F. This allows the campus to have many spaces use less energy during the regular operating hours of the buildings when unoccupied. Vacancy sensors are also used in lighting applications, and are beneficial in reducing lighting loads in hallways, book stacks, and offices.

A brief description of Light Emitting Diode (LED) lighting and other energy-efficient lighting strategies employed by the institution:
UCSC is currently replacing all major lighting systems with LED-based fixtures. We have completed the upgrade of all major street and path lighting to LED. We are now moving across the campus, converting buildings to interior LED lighting systems that meet the latest California Title 24 code. This includes dimming systems and vacancy control systems to minimize W/sq. ft. further in our interior spaces. All new construction is being designed with LED-based lighting systems where applicable, which results in LED-based interior and exterior-based lighting, with few exceptions.

A brief description of passive solar heating, geothermal systems, and related strategies employed by the institution:
---

A brief description of co-generation employed by the institution:
UCSC upgraded their 4.4 MW gas turbine cogen unit in August 2015. It is fully operational and it replaces an old 2.6 MW, dual-fueled (natural gas and diesel), internal combustion engine. It was retired in December 2013. This new engine supplies electricity and heating for hot water to the campus core facilities, primarily research facilities, and has improved power reliability/security.

A brief description of the institution's initiatives to replace energy-consuming appliances, equipment, and systems with high efficiency alternatives:
UCSC has a system-wide energy partnership program between the major state utilities and the higher education campuses in California. The program results in a consistent series of energy efficiency retrofits to replace legacy equipment and systems with energy-efficient alternatives. We also leverage our deferred maintenance and major renovation programs with this partnership to renovate space with more energy-efficient lighting, HVAC, and control systems.
UCSC has implemented the latest technology in building control and building analytics. We are currently implementing control and analytics upgrades to have automated building diagnostics.

Website URL where information about the institution’s energy conservation and efficiency program is available:
Additional documentation to support the submission:
---

Data source(s) and notes about the submission:
Scope in Pre-3

HDD and CDD: data from Energy Star Protocol: https://portfoliomanager.energystar.gov/pm/degreeDaysCalculator

Baseline year data was taken from California Climate Action Registry Report - (TCR before they changed their name)

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.