| Overall Rating | Silver |
|---|---|
| Overall Score | 63.01 |
| Liaison | Holli Fajack |
| Submission Date | May 9, 2024 |
California State University, Long Beach
OP-2: Greenhouse Gas Emissions
| Status | Score | Responsible Party |
|---|---|---|
|
5.26 / 8.00 |
Holli
Fajack Sustainability Manager Office of Sustainability, Beach Building Services |
Scope 1 and Scope 2 GHG emissions
Gross GHG emissions
| Performance year | Baseline year | |
| Gross Scope 1 GHG emissions from stationary combustion | 6,971 Metric tons of CO2 equivalent | 6,007 Metric tons of CO2 equivalent |
| Gross Scope 1 GHG emissions from other sources | 1,518 Metric tons of CO2 equivalent | 2,692 Metric tons of CO2 equivalent |
| Gross Scope 2 GHG emissions from imported electricity | 7,189 Metric tons of CO2 equivalent | 16,805 Metric tons of CO2 equivalent |
| Gross Scope 2 GHG emissions from imported thermal energy | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
| Total | 15,678 Metric tons of CO2 equivalent | 25,504 Metric tons of CO2 equivalent |
Carbon sinks
| Performance year | Baseline year | |
| Third-party verified carbon offsets purchased | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
| Institution-catalyzed carbon offsets generated | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
| Carbon storage from on-site composting | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
| Carbon storage from non-additional sequestration | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
| Carbon sold or transferred | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
| Net carbon sinks | 0 Metric tons of CO2 equivalent | 0 Metric tons of CO2 equivalent |
If total performance year carbon sinks are greater than zero, provide:
N/A
Adjusted net GHG emissions
| Performance year | Baseline year | |
| Adjusted net GHG emissions | 15,678 Metric tons of CO2 equivalent | 25,504 Metric tons of CO2 equivalent |
Performance and baseline periods
| Performance year | Baseline year | |
| Start date | July 1, 2022 | July 1, 2009 |
| End date | June 30, 2023 | June 30, 2010 |
A brief description of when and why the GHG emissions baseline was adopted:
The baseline year was selected because it was the year in which the first greenhouse gas emissions inventory was completed. The year 2009-10 was selected because it was the most recent year for which data was available when the university signed the Second Nature Carbon Commitment in 2011. This is also the baseline year used in our previous (and first) STARS submission in 2017 and we believe that maintaining our original baseline will allow us to best track our progress over time.
Part 1. Reduction in GHG emissions per person
Weighted campus users
| Performance year | Baseline year | |
| Number of students resident on-site | 2,927 | 1,940 |
| Number of employees resident on-site | 13 | 2 |
| Number of other individuals resident on-site | 2 | 2 |
| Total full-time equivalent student enrollment | 33,506 | 28,882 |
| Full-time equivalent of employees | 3,703.90 | 3,070 |
| Full-time equivalent of students enrolled exclusively in distance education | 3,138 | 0 |
| Weighted Campus Users | 26,290.93 | 24,451.50 |
Metrics used in scoring for Part 1
| Performance year | Baseline year | |
| Adjusted net Scope 1 and 2 GHG emissions per weighted campus user | 0.60 Metric tons of CO2 equivalent | 1.04 Metric tons of CO2 equivalent |
Percentage reduction in adjusted net Scope 1 and Scope 2 GHG emissions per weighted campus user from baseline:
Part 2. GHG emissions per unit of floor area
Performance year floor area
Floor area of energy intensive building 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:
Metric used in scoring for Part 2
A brief description of the institution’s GHG emissions reduction initiatives:
The university currently has 5.4 megawatts of operational solar photovoltaic energy and 15 MWh of installed battery energy storage. We have also completed retro-commissioning pre-functional testing and repairs in 689,000 GSF of floor space. CSULB has taken the initial steps to transition building mechanical systems to a monitoring-based commissioning system to further reduce energy waste. The university has also continued to encourage our campus community to shift toward more sustainable commuting modes. Programs include subsidized public transportation passes, improvements to bicycle infrastructure and wayfinding on and around campus, improved communication and marketing efforts to raise awareness about sustainable transportation programs, and the integration of the City of Long Beach's bike-share program on campus grounds.
Website URL where information about the institution's GHG emissions is available:
Additional documentation to support the submission:
Data source(s) and notes about the submission:
Reporting Period: 2022-23 Data providers: Shawn Cun, Energy and Utilities Manager Inventory compiled by Nanci Torres Poblano, Sustainability Specialist
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.