Overall Rating | Platinum |
---|---|
Overall Score | 85.88 |
Liaison | Sam Lubow |
Submission Date | March 3, 2022 |
Stanford University
OP-21: Water Use
Status | Score | Responsible Party |
---|---|---|
4.00 / 4.00 |
Melissa
Maigler Sustainability Analytics Manager Office of Sustainability |
"---"
indicates that no data was submitted for this field
Level of ”Physical Risk Quantity” for the institution’s main campus as indicated by the World Resources Institute Aqueduct Water Risk Atlas:
Low to Medium
Part 1. Reduction in potable water use per person
Performance Year | Baseline Year | |
Total water withdrawal | 909,518,410 Gallons | 1,325,797,000 Gallons |
Potable water use:
Performance Year | Baseline Year | |
Potable water use | 535,021,455 Gallons | 954,678,000 Gallons |
Start and end dates of the performance year and baseline year (or three-year periods):
Start Date | End Date | |
Performance Period | Jan. 1, 2019 | Dec. 31, 2019 |
Baseline Period | July 1, 1999 | June 30, 2000 |
If end date of the baseline year/period is 2004 or earlier, provide:
The formal water conservation program at Stanford was founded in 2001; the Water Year prior (WY2000) was selected as the baseline to represent pre-conservation water use levels. This baseline is used internally and externally to show the campus’ progress in water conservation over the lifetime of the program.
Figures needed to determine "Weighted Campus Users":
Performance Year | Baseline Year | |
Number of students resident on-site | 11,246 | 9,363 |
Number of employees resident on-site | 2,273 | 1,768 |
Number of other individuals resident on-site | 1,420 | 0 |
Total full-time equivalent student enrollment | 18,876 | 12,151 |
Full-time equivalent of employees | 16,187 | 8,012 |
Full-time equivalent of students enrolled exclusively in distance education | 0 | 0 |
Weighted campus users | 31,097 | 17,905 |
Potable water use per weighted campus user:
Performance Year | Baseline Year | |
Potable water use per weighted campus user | 17,204.92 Gallons | 53,319.07 Gallons |
Percentage reduction in potable water use per weighted campus user from baseline:
67.73
Part 2. Reduction in potable water use per unit of floor area
Performance Year | Baseline Year | |
Gross floor area | 16,638,239 Gross square feet | 12,386,396 Gross square feet |
Potable water use per unit of floor area:
Performance Year | Baseline Year | |
Potable water use per unit of floor area | 32.16 Gallons per square foot | 77.07 Gallons per square foot |
Percentage reduction in potable water use per unit of floor area from baseline:
58.28
Part 3. Reduction in total water withdrawal per unit of vegetated grounds
Performance Year | Baseline Year | |
Vegetated grounds | 7,016 Acres | 6,998 Acres |
Total water withdrawal per unit of vegetated grounds:
Performance Year | Baseline Year | |
Total water withdrawal per unit of vegetated grounds | 129,634.89 Gallons per acre | 189,453.70 Gallons per acre |
Percentage reduction in total water withdrawal per unit of vegetated grounds from baseline:
31.57
Optional Fields
MY CARDINAL GREEN
Offered by the Office of Sustainability, My Cardinal Green provides personalized recommendations of actions that individuals can perform to help them act more environmentally sustainable. Because each person has a unique lifestyle and role on campus, the program begins with an initial survey to generate suggested actions that are most relevant for them. Each suggested action includes details to help users complete the action and connect them to the plethora of programs and resources available to the Stanford community. Users receive points for each action that they successfully complete and, after earning a certain amount of points, can receive a reward for their efforts. Real-time metrics showcase the impact their involvement has, both at the individual and collective level. Users can view the calculated resource and subsequent cost savings of each suggested action in their list, and track the cumulative impact of My Cardinal Green participants on a personal dashboard where participants record their progress. The platform features flexible content and messaging, as well as actions and results metrics, that can be promoted to specific groups on campus. A Stanford Report article describing the My Cardinal Green Program is available here: http://news.stanford.edu/2017/05/05/stanford-launches-cardinal-green-rewards-program-students-faculty-staff/
Water-related actions are promoted particularly among students and faculty living within Faculty/Staff Housing. “Take a First Step” actions encourage those who are just embarking on their sustainability journey to get involved in small ways, like “turn off the faucet when brushing your teeth," with the idea that small steps to get started might lead to greater results in the long run. From there, users are prompted to take a next step with actions such as "shorten your shower to five minutes," or "get an irrigation audit." In creating a personal experience that connects users to the broader community, the program helps to establish social norms that drive a shift in not only attitudes, but behaviors as well.
REPORT CARDS & TRAININGS
Stanford Water Resources & Civil Infrastructure group has also offered classes to residents on Alternatives to Lawn, Landscape Installation and Maintenance, Converting Spray Irrigation to Drip, and How to Design Native Gardens (in partnership with the Bay Area Water Supply & Conservation Agency (BAWSCA)), as well as supporting BAWSCA’s landscape classes throughout the spring and summer. Stanford Utilities sent out monthly bill inserts to single-family residents with messaging and information on programs geared towards water conservation and efficiency. Monthly “Report Cards” were sent to facility managers with information on their groups’ water use compared to a baseline of 2013 water use – with details on high usage areas.
ANNUAL CAMPAIGN
An annual campus-wide campaign also highlights individual water conservation opportunities each year. In 2018, the campus-wide campaign highlighted ‘Conservation as a Way of Life,” and produced a video to educate the campus community about water supply and quality, encouraging responsible water use no matter if the state is in drought or not. Throughout the campaign, water efficiency information is included in various monthly newsletters, as well as advertisements in the daily campus-wide newspaper. The university also regularly participates in the National “Fix a Leak Week” effort, and kicks off its annual campaign with an Earth Day service opportunity, where volunteers support native planting activities across campus.
STORMWATER FACILITY TOUR
In 2018, Stanford Utilities celebrated the Water Professional Appreciation Week. This was an opportunity to educate the community about the water systems on campus and to publish the stormwater facility tour. The stormwater facility tour uses the online platform “showmediscovery.com” to guide viewers through nine sites across campus to learn how Stanford is managing its stormwater to improve flood protection, protect runoff water quality, replenish groundwater, and beautify the urban landscape. The tour uses photos, graphs, and maps to demonstrate the technology and materials that are around campus so viewers can understand the stormwater infrastructure on campus. Starting in 2018, the Sand Hill Fields site began capturing stormwater and pumping it into the non-potable water system to be used for campus irrigation. In calendar year 2019, this system recovered a total of 8,962,899 gallons of water! Starting in 2020, Stanford began capturing stormwater at a second facility, expecting to capture more water in the future.
AMI CUSTOMER DASHBOARDS
In 2020, the Water Planning & Stewardship team rolled out web-based customer portals known as WaterSmart for campus groups and individual homeowners to access their monthly, daily, and hourly water use. The platform also automatically sends leak notifications, allowing customers to have a quicker response to leaks, and therefore water savings. Customers who were notified of a leak early were able to quickly have it repaired, saving at least 92,000 gallons with their quick action, rather than responding after receiving a high water bill. This dashboard is facilitated by Automated Metering Infrastructure (AMI).
Offered by the Office of Sustainability, My Cardinal Green provides personalized recommendations of actions that individuals can perform to help them act more environmentally sustainable. Because each person has a unique lifestyle and role on campus, the program begins with an initial survey to generate suggested actions that are most relevant for them. Each suggested action includes details to help users complete the action and connect them to the plethora of programs and resources available to the Stanford community. Users receive points for each action that they successfully complete and, after earning a certain amount of points, can receive a reward for their efforts. Real-time metrics showcase the impact their involvement has, both at the individual and collective level. Users can view the calculated resource and subsequent cost savings of each suggested action in their list, and track the cumulative impact of My Cardinal Green participants on a personal dashboard where participants record their progress. The platform features flexible content and messaging, as well as actions and results metrics, that can be promoted to specific groups on campus. A Stanford Report article describing the My Cardinal Green Program is available here: http://news.stanford.edu/2017/05/05/stanford-launches-cardinal-green-rewards-program-students-faculty-staff/
Water-related actions are promoted particularly among students and faculty living within Faculty/Staff Housing. “Take a First Step” actions encourage those who are just embarking on their sustainability journey to get involved in small ways, like “turn off the faucet when brushing your teeth," with the idea that small steps to get started might lead to greater results in the long run. From there, users are prompted to take a next step with actions such as "shorten your shower to five minutes," or "get an irrigation audit." In creating a personal experience that connects users to the broader community, the program helps to establish social norms that drive a shift in not only attitudes, but behaviors as well.
REPORT CARDS & TRAININGS
Stanford Water Resources & Civil Infrastructure group has also offered classes to residents on Alternatives to Lawn, Landscape Installation and Maintenance, Converting Spray Irrigation to Drip, and How to Design Native Gardens (in partnership with the Bay Area Water Supply & Conservation Agency (BAWSCA)), as well as supporting BAWSCA’s landscape classes throughout the spring and summer. Stanford Utilities sent out monthly bill inserts to single-family residents with messaging and information on programs geared towards water conservation and efficiency. Monthly “Report Cards” were sent to facility managers with information on their groups’ water use compared to a baseline of 2013 water use – with details on high usage areas.
ANNUAL CAMPAIGN
An annual campus-wide campaign also highlights individual water conservation opportunities each year. In 2018, the campus-wide campaign highlighted ‘Conservation as a Way of Life,” and produced a video to educate the campus community about water supply and quality, encouraging responsible water use no matter if the state is in drought or not. Throughout the campaign, water efficiency information is included in various monthly newsletters, as well as advertisements in the daily campus-wide newspaper. The university also regularly participates in the National “Fix a Leak Week” effort, and kicks off its annual campaign with an Earth Day service opportunity, where volunteers support native planting activities across campus.
STORMWATER FACILITY TOUR
In 2018, Stanford Utilities celebrated the Water Professional Appreciation Week. This was an opportunity to educate the community about the water systems on campus and to publish the stormwater facility tour. The stormwater facility tour uses the online platform “showmediscovery.com” to guide viewers through nine sites across campus to learn how Stanford is managing its stormwater to improve flood protection, protect runoff water quality, replenish groundwater, and beautify the urban landscape. The tour uses photos, graphs, and maps to demonstrate the technology and materials that are around campus so viewers can understand the stormwater infrastructure on campus. Starting in 2018, the Sand Hill Fields site began capturing stormwater and pumping it into the non-potable water system to be used for campus irrigation. In calendar year 2019, this system recovered a total of 8,962,899 gallons of water! Starting in 2020, Stanford began capturing stormwater at a second facility, expecting to capture more water in the future.
AMI CUSTOMER DASHBOARDS
In 2020, the Water Planning & Stewardship team rolled out web-based customer portals known as WaterSmart for campus groups and individual homeowners to access their monthly, daily, and hourly water use. The platform also automatically sends leak notifications, allowing customers to have a quicker response to leaks, and therefore water savings. Customers who were notified of a leak early were able to quickly have it repaired, saving at least 92,000 gallons with their quick action, rather than responding after receiving a high water bill. This dashboard is facilitated by Automated Metering Infrastructure (AMI).
A brief description of the institution's water recovery and reuse initiatives:
STANFORD ENERGY SYSTEM INNOVATIONS
Stanford's cogeneration plant required year-round domestic water for its cooling towers and ran water through cooling towers for approximately 18 cycles. However, Stanford's cogeneration plant was decommissioned and replaced with a heat recovery system in April 2015, called Stanford Energy System Innovations (SESI). Because the new energy system recovers heat from the chilled water loop, the need for evaporative cooling towers is reduced. SESI was predicted to reduce total campus potable water consumption by 15%, which has been realized.
IRRIGATION WITH NON-POTABLE WATER:
Over 85% of Stanford's irrigation water comes from non-potable irrigation (lake) water collected in two campus reservoirs. Landscaped areas are irrigated via the university's lake water system which allows Stanford to preserve potable water mainly for use in research, academic, and academic support facilities. Non-Potable water is sourced from local surface water diversions, construction dewatering, stormwater capture, and supplemented by groundwater.
DEWATERING CONSTRUCTION PROJECTS:
Starting in 2018, Stanford began pumping construction dewatering water into the non-potable water system to be used for campus irrigation. In calendar year 2018, the system recovered 112,195,941 gallons of water!
REVERSE OSMOSIS REUSE AT SCHOOL OF MEDICINE
Reverse osmosis (RO) wastewater is captured and reused for quenching (reducing the temperature) of the 180F wastewater from washing equipment. RO reuse is expected to save around 180,000 gallons/year.
RESOURCE RECOVERY:
The Codiga Resource Recovery Center (CR2C) is a newly completed facility built to aid in research on wastewater treatment and resource recovery. For more information: https://cr2c.stanford.edu/
NO-DES WATER MAIN FLUSHING
In early 2019, Stanford Water Resources coordinated a flushing of the domestic water system, which is a routine maintenance activity. Rather than flushing water through hydrants onto hardscapes and into storm drains, they established a contract with NO-DES to use equipment that allows water to move through the potable water system. The NO-DES equipment includes filtration and water quality monitors that return high quality drinking water to the system. This technology has saved an estimated 3.5 million gallons – enough water to supply the campus for more than two days. For more information: https://suwater.stanford.edu/sites/g/files/sbiybj19876/files/media/file/NO-DES%20Flushing%20Fact%20Sheet%202021.pdf
STANFORD REMOVES LAGUNITA DIVERSION DAM
In early 2019, Stanford completed the removal of the Lagunita Diversion Dam and restoration of a 480-foot stretch of San Francisquito Creek to a natural state, fulfilling another creek habitat-enhancing project in the San Francisquito Creek watershed. One immediate environmental benefit of the project was the enhancement of fish passage and restoration of habitat at the site for fish that spawn in the creek, which can now move more freely through the area.
Stanford's cogeneration plant required year-round domestic water for its cooling towers and ran water through cooling towers for approximately 18 cycles. However, Stanford's cogeneration plant was decommissioned and replaced with a heat recovery system in April 2015, called Stanford Energy System Innovations (SESI). Because the new energy system recovers heat from the chilled water loop, the need for evaporative cooling towers is reduced. SESI was predicted to reduce total campus potable water consumption by 15%, which has been realized.
IRRIGATION WITH NON-POTABLE WATER:
Over 85% of Stanford's irrigation water comes from non-potable irrigation (lake) water collected in two campus reservoirs. Landscaped areas are irrigated via the university's lake water system which allows Stanford to preserve potable water mainly for use in research, academic, and academic support facilities. Non-Potable water is sourced from local surface water diversions, construction dewatering, stormwater capture, and supplemented by groundwater.
DEWATERING CONSTRUCTION PROJECTS:
Starting in 2018, Stanford began pumping construction dewatering water into the non-potable water system to be used for campus irrigation. In calendar year 2018, the system recovered 112,195,941 gallons of water!
REVERSE OSMOSIS REUSE AT SCHOOL OF MEDICINE
Reverse osmosis (RO) wastewater is captured and reused for quenching (reducing the temperature) of the 180F wastewater from washing equipment. RO reuse is expected to save around 180,000 gallons/year.
RESOURCE RECOVERY:
The Codiga Resource Recovery Center (CR2C) is a newly completed facility built to aid in research on wastewater treatment and resource recovery. For more information: https://cr2c.stanford.edu/
NO-DES WATER MAIN FLUSHING
In early 2019, Stanford Water Resources coordinated a flushing of the domestic water system, which is a routine maintenance activity. Rather than flushing water through hydrants onto hardscapes and into storm drains, they established a contract with NO-DES to use equipment that allows water to move through the potable water system. The NO-DES equipment includes filtration and water quality monitors that return high quality drinking water to the system. This technology has saved an estimated 3.5 million gallons – enough water to supply the campus for more than two days. For more information: https://suwater.stanford.edu/sites/g/files/sbiybj19876/files/media/file/NO-DES%20Flushing%20Fact%20Sheet%202021.pdf
STANFORD REMOVES LAGUNITA DIVERSION DAM
In early 2019, Stanford completed the removal of the Lagunita Diversion Dam and restoration of a 480-foot stretch of San Francisquito Creek to a natural state, fulfilling another creek habitat-enhancing project in the San Francisquito Creek watershed. One immediate environmental benefit of the project was the enhancement of fish passage and restoration of habitat at the site for fish that spawn in the creek, which can now move more freely through the area.
A brief description of the institution's initiatives to replace plumbing fixtures, fittings, appliances, equipment, and systems with water-efficient alternatives:
Over the past 15 years, Stanford has replaced more than 13,000 academic and student housing bathroom fixtures with water-efficient models, including low-flow showerheads, sink aerators, high-efficiency toilets and urinals. Almost 90% of the academic and student housing inefficient toilets have been retrofitted.
Some specific projects to replace appliances and equipment include:
(1) Stanford Utilities partnered with the Santa Clara Valley Water District to provide almost 200 rebates to Faculty/Staff residents for installing high-efficiency toilets and clothes washers, and over 170 water wise house call inspections (performed by either SCVWD or Stanford Utilities) since 2011.
(2) 66 water misers (devices that monitor the temperature of steam condensate discharging to the sewer and apply cold water for quenching only when needed, as opposed to a continuous flow of water) have been installed on campus autoclaves and steam sterilizers.
(3) All once-through cooling for equipment has been replaced with re-circulating systems.
Some specific projects to replace appliances and equipment include:
(1) Stanford Utilities partnered with the Santa Clara Valley Water District to provide almost 200 rebates to Faculty/Staff residents for installing high-efficiency toilets and clothes washers, and over 170 water wise house call inspections (performed by either SCVWD or Stanford Utilities) since 2011.
(2) 66 water misers (devices that monitor the temperature of steam condensate discharging to the sewer and apply cold water for quenching only when needed, as opposed to a continuous flow of water) have been installed on campus autoclaves and steam sterilizers.
(3) All once-through cooling for equipment has been replaced with re-circulating systems.
Website URL where information about the institution’s water conservation and efficiency efforts is available:
Additional documentation to support the submission:
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Data source(s) and notes about the submission:
Stanford’s Water Resources and Civil Infrastructure (WRCI) group proactively manages available resources in multiple water systems to meet university needs while preserving ecological systems and vital resources for future generations. During the extended drought that officially ended in 2017, the university expanded its sustainable water practices and conservation efforts. An increase in water use is common, though, after a severe drought ends and behavioral conservation patterns relax. In 2017, potable water use increased by 8%, and non-potable water use increased by 21% from the previous year, which is consistent with state-wide trends. Because local rainfall and statewide snow pack have remained below average, -however, interest in conservation on campus continues to be high, and all major campus water customers have achieved significant reductions in water consumption compared to a pre-drought baseline of 2013.
The Faculty Staff Housing area on Stanford's Campus is excluded from the overarching STARS boundary since Stanford does not have operational control over these residences, and they receive electric and gas utilities separate from Stanford's utility systems. However, the 707 single-family homes in this area of the campus are served by Stanford’s water utility, so the number of residents in this area has been included in this credit. The number of single family homes in this area has not changed significantly since 2000, so the same estimate was used for both the performance year and the baseline year and has been included in the "number of employees resident on-site" credit field. Additionally, we are adding in estimated square footage for these homes. This Water Use credit and the Waste Minimization and Diversion credit are the only two credits in which Stanford includes any employees resident on-site.
The large variance between the Total and Potable water use is a result of 85% of Stanford's irrigation water coming from non-potable irrigation (lake) water, which is collected in two campus reservoirs. Landscaped areas are irrigated via the university's lake water system which allows Stanford to preserve potable water mainly for use in research, academic, and academic support facilities. Non-Potable water is sourced from local surface water diversions, construction dewatering, stormwater capture, and supplemented by groundwater.
The Faculty Staff Housing area on Stanford's Campus is excluded from the overarching STARS boundary since Stanford does not have operational control over these residences, and they receive electric and gas utilities separate from Stanford's utility systems. However, the 707 single-family homes in this area of the campus are served by Stanford’s water utility, so the number of residents in this area has been included in this credit. The number of single family homes in this area has not changed significantly since 2000, so the same estimate was used for both the performance year and the baseline year and has been included in the "number of employees resident on-site" credit field. Additionally, we are adding in estimated square footage for these homes. This Water Use credit and the Waste Minimization and Diversion credit are the only two credits in which Stanford includes any employees resident on-site.
The large variance between the Total and Potable water use is a result of 85% of Stanford's irrigation water coming from non-potable irrigation (lake) water, which is collected in two campus reservoirs. Landscaped areas are irrigated via the university's lake water system which allows Stanford to preserve potable water mainly for use in research, academic, and academic support facilities. Non-Potable water is sourced from local surface water diversions, construction dewatering, stormwater capture, and supplemented by groundwater.
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.