Overall Rating | Silver |
---|---|
Overall Score | 63.01 |
Liaison | Holli Fajack |
Submission Date | May 9, 2024 |
California State University, Long Beach
OP-5: Building Energy Efficiency
Status | Score | Responsible Party |
---|---|---|
4.05 / 6.00 |
Shawn
Cun Energy & Utilities Manager Beach Building Services (BBS) |
Electricity use, performance year (report kilowatt-hours):
kWh | MMBtu | |
Imported electricity | 35,693,959 Kilowatt-hours | 121,787.79 MMBtu |
Electricity from on-site, non-combustion facilities/devices (e.g., renewable energy systems) | 7,926,447 Kilowatt-hours | 27,045.04 MMBtu |
Stationary fuels and thermal energy, performance year (report MMBtu):
MMBtu | |
Stationary fuels used on-site to generate electricity and/or thermal energy | 112,175 MMBtu |
Imported steam, hot water, and/or chilled water | 0 MMBtu |
Total site energy consumption, performance year:
Gross floor area of building space, performance year:
Floor area of energy intensive space, performance year:
Floor area | |
Laboratory space | 491,798 Square feet |
Healthcare space | 20,594 Square feet |
Other energy intensive space | 45,599 Square feet |
EUI-adjusted floor area, performance year:
Degree days, performance year:
Degree days | |
Heating degree days | 1,462 Degree-Days (°F) |
Cooling degree days | 1,177 Degree-Days (°F) |
Total degree days, performance year:
Start and end dates of the performance year (or 3-year period):
Start date | End date | |
Performance period | July 1, 2021 | June 30, 2022 |
Total site energy consumption per unit of EUI-adjusted floor area per degree day, performance year:
Electricity use, baseline year (report kWh):
kWh | MMBtu | |
Imported electricity | 51,731,147 Kilowatt-hours | 176,506.67 MMBtu |
Electricity from on-site, non-combustion facilities/devices (e.g., renewable energy systems) | 526,649 Kilowatt-hours | 1,796.93 MMBtu |
Stationary fuels and thermal energy, baseline year (report MMBtu):
MMBtu | |
Stationary fuels used on-site to generate electricity and/or thermal energy | 122,804 MMBtu |
Imported steam, hot water, and/or chilled water | 0 MMBtu |
Total site energy consumption, baseline year:
Gross floor area of building space, baseline year:
Start and end dates of the baseline year (or 3-year period):
Start date | End date | |
Baseline period | Jan. 1, 2016 | Dec. 31, 2016 |
A brief description of when and why the energy consumption baseline was adopted:
The baseline year was adopted to be consistent with our previous STARS reports.
Source-site ratio for imported electricity:
Total energy consumption per unit of floor area:
Site energy | Source energy | |
Performance year | 0.04 MMBtu per square foot | 0.09 MMBtu per square foot |
Baseline year | 0.05 MMBtu per square foot | 0.11 MMBtu per square foot |
Percentage reduction in total source energy consumption per unit of floor area from baseline:
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:
Energy efficiency is an integral part of CSULB's Climate Action and Adaptation Plan and is communicated to the campus community through the practice and implementation of energy efficiency and sustainability projects.
A brief description of energy use standards and controls employed by the institution:
The university's design and construction standards require all new buildings to have zero net energy and benchmark against a LEED Silver rating as a minimum. This standard is also consistent with the California Building Code requirements. The University has adopted a policy guiding building temperature standards which mandates 68 degrees for heating and 78 degrees for cooling. Occupancy/vacancy sensors are required in all new building construction and renovation projects as part of our mandatory building standards.
A brief description of Light Emitting Diode (LED) lighting and other energy-efficient lighting strategies employed by the institution:
The university is actively retrofitting lights to LED technology. Currently, 85% of all exterior lights and 45% of all interior lights have been retrofitted to LED lights.
A brief description of passive solar heating, geothermal systems, and related strategies employed by the institution:
N/A
A brief description of co-generation employed by the institution:
N/A
A brief description of the institution's initiatives to replace energy-consuming appliances, equipment, and systems with high efficiency alternatives:
For the past few years, the university has been engaged in implementing an energy program aimed at retro-commissioning at least 300,000 square feet of building floor space on an annual basis. The goals of the program are to identify and correct mechanical system deficiencies, complete low-cost energy efficiency measures, and reduce building energy consumption by at least 15 percent in buildings that complete the program. To date, the university has completed retro-commissioning testing and pre-functional test repairs for the following buildings: FCS, PSY, SSPA, ET, COB, AS, HSCI, LA2, LA3, and LA4 (689,000 GSF of floor space)
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:
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.