Table of Contents
Can You Drink Tap Water in San Ramon?
Yes, San Ramon's tap water is generally considered safe to drink as San Ramon has no active health based violations of the Safe Drinking Water Act (SDWA) that we are aware of. Other factors such as lead piping in a home, or low levels of pollutants on immunocompromised individuals, should also be considered, however. To find more recent info we might have, you can check out our boil water notice page or the city's water provider website.
According the EPA’s ECHO database, from April 30, 2019 to June 30, 2022, San Ramon's water utility, Dublin San Ramon Services District, had 0 violations of the Safe Drinking Water Act. For more details on the violations, please see our violation history section below. This assessment is based on the Dublin San Ramon Services District water system, other water systems in the city may have different results.
While tap water that meets the EPA health guidelines generally won’t make you sick to your stomach, it can still contain regulated and unregulated contaminants present in trace amounts that could potentially cause health issues over the long-run. These trace contaminants may also impact immunocompromised and vulnerable individuals.
The EPA is reviewing if it’s current regulations around pollutant levels in tap water are strict enough, and the health dangers posed by unregulated pollutants, like PFAS.
Water Quality Report for San Ramon Tap Water
The most recent publicly available numbers for measured contaminant levels in San Ramon tap water are in its 2020 Water Quality Report. As you can see, there are levels which the EPA considers to be acceptable, but being below the maximum allowable level doesn’t necessarily mean the water is healthy.
Lead in tap water, for example, is currently allowed at up to 15ppb by the EPA, but it has set the ideal goal for lead at zero. This highlights how meeting EPA standards doesn’t necessarily mean local tap water is healthy.
EPA regulations continue to change as it evaluates the long term impacts of chemicals and updates drinking water acceptable levels. The rules around arsenic, as well as, lead and copper are currently being re-evaluated.
There are also a number of "emerging" contaminants that are not currently. For example, PFAS (Per- and polyfluoroalkyl substances), for which the EPA has issued a health advisory. PFAS are called "forever chemicals" since they tend not to break down in the environment or the human body and can accumulate over time.
We recommend looking at the contaminants present in San Ramon's water quality reports, or getting your home's tap water tested to see if you should be filtering your water.
San Ramon Tap Water Safe Drinking Water Act Violation History - Prior 10 Years
Below is a ten year history of violations for the water system named Dublin San Ramon Services District for San Ramon in California. For more details please see the "What do these Violations Mean?" section below.
Is there Lead in San Ramon Water?
Based on the EPA’s ECHO Database, 90% of the samples taken from the San Ramon water system, Dublin San Ramon Services District, between sample start date and sample end date, were at or below, 0.01 mg/L of lead in San Ramon water. This is 66.7% of the 0.015 mg/L action level. This means 10% of the samples taken from San Ramon contained more lead.
While San Ramon water testing may have found 0.01 mg/L of lead in its water, that does not mean your water source has the same amount. The amount of lead in water in a city can vary greatly from neighborhood to neighborhood, or even building to building. Many buildings, particularly older ones, have lead pipes or service lines which can be a source of contamination. To find out if your home has lead, we recommend getting you water tested.
No amount of lead in water is healthy, only less dangerous. As lead accumulates in our bodies over time, even exposure to relatively small amounts can have negative health effects. For more information, please check out our Lead FAQ page.
Are there PFAS in San Ramon Tap Water?
Currently, testing tap water for PFAS isn’t mandated on a national level. We do have a list of military bases where there have been suspected or confirmed leaks. There appears to be at least one military base - Camp Parks - near San Ramon with suspected leaks.
With many potential sources of PFAS in tap water across the US, the best information we currently have about which cities have PFAS in their water is this ewg map, which you can check to see if San Ramon has been evaluated for yet.
Our stance is better safe than sorry, and that it makes sense to try to purify the tap water just in case.
What do these Violations Mean?
Safe Drinking Water Act Violations categories split into two groups, health based, and non-health based. Generally, health based violations are more serious, though non-health based violations can also be cause for concern.
Health Based Violations
- Maximum contaminant levels (MCLs) - maximum allowed contaminant level was exceeded.
- Maximum residual disinfectant levels (MRDLs) - maximum allowed disinfectant level was exceeded.
- Other violations (Other) - the exact required process to reduce the amounts of contaminants in drinking water was not followed.
Non-Health Based Violations
- Monitoring and reporting violations (MR, MON) - failure to conduct the required regular monitoring of drinking water quality, and/or to submit monitoring results on time.
- Public notice violations (Other) - failure to immediately alert consumers if there is a serious problem with their drinking water that may pose a risk to public health.
- Other violations (Other) - miscellaneous violations, such as failure to issue annual consumer confidence reports or maintain required records.
SDWA Table Key
Field | Description |
---|---|
Compliance Period | Dates of the compliance period. |
Status |
Current status of the violation.
|
Health-Based? | Whether the violation is health based. |
Category Code |
The category of violation that is reported.
|
Code | A full description of violation codes can be accessed in the SDWA_REF_CODE_VALUES (CSV) table. |
Contaminant Code | A code value that represents a contaminant for which a public water system has incurred a violation of a primary drinking water regulation. |
Rule Code |
Code for a National Drinking Water rule.
|
Rule Group Code |
Code that uniquely identifies a rule group.
|
Rule Family Code |
Code for rule family.
|
For more clarification please visit the EPA's data dictionary.
San Ramon Water - Frequently Asked Questions
By Phone: | 925-875-2367 |
By Email: | dmartin@dsrsd.com |
By Mail: | 7051 DUBLIN BLVD DUBLIN, CA, 94568-3018 |
Existing customers can login to their Dublin San Ramon Services District account to pay their San Ramon water bill by clicking here.
If you want to pay your Dublin San Ramon Services District bill online and haven't made an account yet, you can create an account online. Please click here to create your account to pay your San Ramon water bill.
If you don't want to make an account, or can't remember your account, you can make a one-time payment towards your San Ramon water bill without creating an account using a one time payment portal with your account number and credit or debit card. Click here to make a one time payment.
Moving to a new house or apartment in San Ramon means you will often need to put the water in your name with Dublin San Ramon Services District. In order to put the water in your name, please click the link to the start service form below. Start service requests for water bills typically take two business days.
Leaving your house or apartment in San Ramon means you will likely need to take your name off of the water bill with Dublin San Ramon Services District. In order to take your name off the water bill, please click the link to the stop service form below. Stop service for water bills requests typically take two business days.
USER SUBMITTED RATINGS
- Drinking Water Pollution and Inaccessibility
- Water Pollution
- Drinking Water Quality and Accessibility
- Water Quality
The above data is comprised of subjective, user submitted opinions about the water quality and pollution in San Ramon, measured on a scale from 0% (lowest) to 100% (highest).
Related FAQS
San Ramon Water Quality Report (Consumer Confidence Report)
The EPA mandates that towns and cities consistently monitor and test their tap water. They must report their findings in an annual Consumer Confidence Report. Below is the most recent water quality report from San Ramon's Water. If you would like to see the original version of the report, please click here.
2020
Annual Consumer Confidence Report
DIVE INTO THE HIGHLIGHTS:
Results of 2020 water quality tests
PAGE
8
How in the world does 3 water get to the
Progress at Patterson Pass: 13
THE LATEST IN WATER
TREATMENT UPGRADES
No more wondering: 11
SEE HOW WATER
TREATMENT WORKS!
PLUS:
PAGE
Drought conditions: 10
HOW YOU CAN BE WATER WISE
Emergency preparedness: 9
ALWAYS A GOOD TIME FOR PREP
WELCOME TO THE WONDROUS WORLD OF WATER
With a commitment to excellence, Zone 7 provides
Zone 7 delivers treated drinking water to four major water retailers, along with a small number of direct customers, serving over a quarter million people in Pleasanton, Livermore, Dublin and the Dougherty Valley area of San Ramon. Zone 7 also provides untreated water to local agricultural users and provides flood protection to 425 square miles of eastern Alameda County. Working closely with our partners, we pride ourselves at Zone 7 on not only meeting but also exceeding all state and federal health standards. That’s why we developed our own Zone 7 goals– setting a higher bar for the quality of our water.
This collaborative approach makes a world of difference in ensuring our water supply is safe, clean and sustainable. Through comprehensive programs of planning, source water protection, treatment and monitoring, Zone 7 has been able to achieve internal water quality goals that are more stringent than regulatory standards. This report represents a combination of strategic investment in advanced treatment infrastructure, rigorous testing and our commitment to transparency in sharing these results.
Rest assured, all Zone 7 water supplied in 2020 met the regulatory standards set by the state and federal governments and, in almost all cases, the quality was significantly better than required.
1
ZONE 7 ESSENTIAL WORKERS RESPOND TO
Zone 7 Water Agency has actively monitored guidance from public health authorities throughout the
Your water is safe to drink and use every day.
Our highly trained staff at Zone 7 work around the clock to ensure the quality and safety of your water. These essential workers have remained diligent and dedicated to serving the
2
WHERE IN THE WORLD DOES THE
Source Water Assessment
Zone 7 Water Agency draws from a diverse portfolio of drinking water sources, including local and imported surface water as well as groundwater from wells. We carefully monitor all these sources to ensure their continued quality and to protect the safety of our water supply.
A source water assessment is conducted on each groundwater well as required by the California State Water Resources Control Board (State Water Board). Sanitary surveys for surface water supplies are conducted every five years. The latest sanitary survey for the California Delta and the State Water Project (SWP) was completed in June 2017.
Protecting our source water is an important part of providing safe drinking water to the public that meets the stringent Zone 7 water quality goals. By monitoring for potential contaminants, we can proactively address threats to water quality. For example, groundwater sources can be vulnerable to releases from chemical/petroleum pipelines, leaking tanks, groundwater contamination plumes, septic tanks, and
in a number of activities to improve water supply reliability and the water quality of the SBA.
Copies of any public outreach materials, source water assessment reports or sanitary surveys are available by calling
Gurpal Deol at:
29%
Ground |
2020 |
Water |
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71% |
ZONE 7 |
Surface |
WATER |
Water |
SUPPLY |
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SOURCES |
Our Primary Water Sources
The water that flows from your tap originated from a number of sources – including snowpack, rainfall and underground aquifers.
IMPORTED SURFACE WATER. . The majority of our water supply originates as Sierra Nevada snowmelt and is conveyed by the State Water Project through the Delta and then via the South Bay Aqueduct.*
LOCAL SURFACE WATER. This is comprised of local rain runoff stored in Del Valle Reservoir.
GROUNDWATER. This supply, carefully managed by Zone 7, is pumped from the aquifer that underlies the
- In wet years, we store surplus SWP supplies in local and offsite groundwater basins for use when needed, and for reliability during droughts.
3
THE
SUPPLY JOURNEY
The majority of the
basin is not overdrawn. We also receive water in the form of rainfall stored in our local reservoir, Lake Del Valle. Dry seasons, such as the one we are experiencing now, mean we use different sources of water, which are treated differently as well.
- Follow the path of our source water in the infographic below.
-
See page
11-12 for information on how we treat different types of source water, or visit our website at www.zone7water.com/waterquality to watch our Wondrous World of Water videos.
ZONE 7
WATER
SUPPLY
Patterson Pass
Mocho |
Wells |
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••
Del Valle
4
WHAT ARE PFAS AND WHY IS EVERYONE TALKING ABOUT THEM?
PFAS (Per- and Polyfluoroalkyl Substances) Information
PFAS are contaminants of emerging concern that are widely used in manufacturing multiple products present in our daily lives. People can be exposed to them through food, packaging, air pollution, dust and drinking water. The health impacts of PFAS on humans are not yet fully understood, but the U.S. Environmental Protection Agency (EPA) states, “There is evidence that exposure to PFAS can lead to adverse health outcomes in humans.”
Zone 7 Water Agency tests water supplies for PFAS – and we proactively take necessary steps if contaminants exceed certain levels. All water delivered to our customers meets or exceeds state and federal regulations, including the new state guidelines for PFAS.
One place that PFAS have been found to accumulate is in groundwater. Thus, monitoring for PFAS and taking actions to reduce the level of these contaminants is part of Zone 7’s comprehensive approach to water quality.
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COOKWAR |
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PFAS Regulatory Update
Over the past several years, the science on PFAS and its impacts to the environment and public health have prompted regulatory actions. The EPA has a 70 nano- grams per liter (ng/L) Lifetime Health Advisory for two types of PFAS, perfluorooctanesulfonic acid (PFOS) and perfluorooctanoic acid (PFOA), either singly or combined, and is moving forward with regulatory development for these two PFAS. The California State Water Resources Control Board has issued drinking water advisory levels for three PFAS (including PFOS and PFOA) so far and is pursuing advisory levels for six additional PFAS found throughout the state. The State Water Board is also in the process of developing Public Health Goals (PHGs) for PFOA and PFOS, which is the first step in establishing a Maximum Contaminant Levels (MCLs) for these PFAS.
State Regulatory Advisory
Levels for PFAS (ng/L)*
PFAS |
Notification |
Response |
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Level |
Level |
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Perfluorooctanesulfonic acid (PFOS) |
6.5 |
40 |
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Perfluorooctanoic acid (PFOA) |
5.1 |
10 |
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Perfluorobutanesulfonic acid (PFBS) |
500 |
5,000 |
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* When a contaminant is found at concentrations greater than its advisory level, certain notification requirements and recommendations apply.
5
Monitoring Water Supplies |
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Protecting Water Quality |
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At Zone 7, protecting public health and safety is the |
Zone 7 has been proactive in monitoring for PFAS |
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highest priority, including actively monitoring for |
in water supplies well before any requirements took |
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PFAS in groundwater and surface water supplies. |
effect because we know PFAS tend to accumulate in |
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groundwater and are commonly found in groundwater |
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sources throughout the developed world. Because |
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In 2020, Zone 7 did not detect any PFAS |
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they are so common, it can be difficult or impossible |
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to link PFAS to a single source, and multiple sources |
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in its treated surface water supplies, which |
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can accumulate over time. Zone 7 recently completed |
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made up the majority of the total water |
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a PFAS Potential Source Investigation Study in |
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delivered to its customers. |
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December 2020 to assist in characterizing the extent |
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of PFAS across |
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identify potential sources of contamination. At this |
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No PFAS have been detected in Zone 7’s Hopyard |
time, there is no indication of a single source for this |
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contamination because of the widespread prevalence |
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wellfield. Although Zone 7 detected some PFAS |
of PFAS in thousands of consumer products and |
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in certain wells, this groundwater was blended |
there are no known local manufacturing sites. |
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and/or treated using reverse osmosis to reduce |
Zone 7 also has completed a PFAS Treatment Feasibility |
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the contaminant level below the applicable |
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response level – ensuring that water delivered |
Study in summer of 2020 and is in the process of |
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to our customers met our high standards. |
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planning and designing a new PFAS treatment |
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2020 PFAS Monitoring Summary |
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facility at the COL wellfield to ensure compliance |
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with anticipated new state regulations in 2025. |
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PFAS**** (ng/L) |
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WATER SUPPLY SOURCES |
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PFOS |
PFOA |
PFBS |
PFHxS |
PFHxA |
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Average |
Range |
Average |
Range |
Average |
Range |
Average |
Range |
Average |
Range |
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Mocho Wellfield* |
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Mocho Well 2 (before treatment)** |
41 |
40 - 41 |
5 |
5 - 5 |
7 |
7 - 7 |
34 |
34 - 35 |
6 |
6 - 7 |
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Mocho Well 3 |
33 |
30 - 35 |
5 |
5 - 5 |
6 |
5 - 7 |
26 |
22 - 28 |
5 |
5 - 6 |
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Mocho Well 4 |
14 |
12 - 15 |
ND |
ND |
5 |
5 - 5 |
15 |
14 - 17 |
ND |
ND |
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Blended/Treated Mocho Water |
24 |
18 - 30 |
ND |
ND - 4 |
4 |
ND - 6 |
20 |
16 - 24 |
ND |
ND - 5 |
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Chain of Lakes (COL) Wellfield |
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COL Well 1 |
32 |
28 - 38 |
ND |
ND - 5 |
5 |
4 - 6 |
24 |
21 - 29 |
ND |
ND - 5 |
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COL Well 2 |
14 |
13 |
ND |
ND |
ND |
ND |
14 |
12 - 15 |
ND |
ND |
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COL Well 5 (before treatment)*** |
31 |
15 - 46 |
ND |
ND |
ND |
ND |
17 |
9 - 24 |
ND |
ND |
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Blended COL Water |
22 |
19 - 25 |
ND |
ND |
ND |
ND - 4 |
17 |
14 |
ND |
ND |
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Stoneridge Well |
10 |
8 - 16 |
|
ND |
ND |
ND |
ND - 6 |
12 |
9 - 18 |
ND |
ND |
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Hopyard Wellfield (Well 6 and 9) |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
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Treated Surface Water |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
ND |
|
Learn More
Zone 7 will continue to closely monitor the quality of the community’s drinking water supplies. As the science advances, we will utilize proven technologies and best practices to ensure that any emerging PFAS issues are managed in a transparent and responsible manner. For more details about PFAS in Zone 7’s water supply and how we are ensuring the safety of your water,
visit www.Zone7Water.com/pfas
NOTES: ng/L = nano grams per liter; ND indicates no detection at or above the Consumer Confidence Report Detection Level (CCRDL) which is 4 ng/L for the above analytes; ND or value in range column indicates that more one sample was collected.
*Mocho 1 Well is a standby emergency well that was not used in 2020.
**Mocho Well 2 was blended/treated at the Mocho Groundwater Demineralization Plant (MGDP) whenever the well was online; All Mocho wells can also be treated at the MGDP.
***COL Well 5 was blended with other COL well water whenever it was online.
****Eighteen analytes were tested per EPA method 537.1; Only detected analytes above the CCRDL are shown on the table; PFOS =
PFHxA = perfluorohexanoic acid, PFHxS = perfluorohexane sulfonic acid
6
WHAT’S IN YOUR WATER?
Water Quality Testing
As part of rigorous quality control, Zone 7 Water Agency regularly checks for a range of substances in our water supplies to ensure we can deliver safe and clean water to customers. The results table shows the average level and range of each detected regulated contaminant in our water supplies. Detected secondary standards and additional parameters are also listed. The following components may be of interest to our customers:
TURBIDITY is a measure of the cloudiness of the water. We monitor it because it is a good indicator of the effectiveness of the filtration system for surface water treatment.
TOTAL ORGANIC CARBON (TOC) has no health effects. However, TOC provides a medium for the formation of disinfection byproducts. These byproducts include trihalomethanes (THMs) and haloacetic acids (HAAs). Drinking water containing these byproducts in excess of the maximum contaminant levels (MCL) may lead to adverse health effects, including liver or kidney problems,
to surface water treatment plants only.
NITRATE in drinking water at levels above 10 mg/L (as nitrogen) is a health risk for infants less than six months of age. Such nitrate levels in drinking water can interfere with the capacity of the infant’s blood to carry oxygen, resulting in a serious illness; symptoms include shortness of breath and blueness of the skin. Nitrate levels above 10 mg/L may also affect the ability of the blood to carry oxygen in other individuals, such as pregnant women and those with certain specific enzyme deficiencies. If you are caring for an infant, or you are pregnant, you should ask advice from your health care provider. Nitrate levels in Zone 7’s surface water supplies are typically very low (less than 1 mg/L) as compared to groundwater, but both sources meet all standards.
7
Terms to Know
MAXIMUM CONTAMINANT LEVEL (MCL): The highest level of a contaminant that is allowed in drinking water. Primary MCLs are set as close to the Public Health Goals or Maximum Contaminant Level Goals as is economically and technologically feasible. Secondary MCLs are set to protect the odor, taste and appearance of drinking water.
MAXIMUM CONTAMINANT LEVEL GOAL (MCLG): The level of a contaminant in drinking water below which there is no known or expected risk to health. MCLGs are set by the USEPA.
MAXIMUM RESIDUAL DISINFECTANT LEVEL (MRDL): The highest level of a disinfectant allowed in drinking water. There is convincing evidence that addition of a disinfectant is necessary for control of microbial contaminants.
MAXIMUM RESIDUAL DISINFECTANT LEVEL GOAL (MRDLG): The level of a drinking water disinfectant below which there is no known or expected risk to health. MRDLGs do not reflect the benefits of the use of disinfectants to control microbial contaminants.
PUBLIC HEALTH GOAL (PHG): The level of a contaminant in drinking water below which there is no known or expected risk to health. PHGs are set by the California Environmental Protection Agency.
PRIMARY DRINKING WATER STANDARD (PDWS): MCLs and MRDLs for contaminants that affect health, along with their monitoring and reporting requirements, and
TREATMENT TECHNIQUE (TT): A required process intended to reduce the level of a contaminant in drinking water.
REGULATORY ACTION LEVEL (AL): The concentration of a contaminant which, if exceeded, triggers treatment or other requirements that a water system must follow.
RUNNING ANNUAL AVERAGE (RAA): Test results based on an average of the previous four quarters.
RANGE: Range of detected results from Not Detected (ND) to the highest test result based on all samples collected during the year.
How to Read the Table
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STATE STANDARDS |
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ZONE 7 RESULTS |
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PHG |
SURFACE WATER |
GROUNDWATER |
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DLR |
(MCLG) |
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CONTAMINANT |
MCL |
(MRL) |
[MRDLG] |
RAA |
Range |
RAA |
Range |
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1 |
2 |
3 |
4 |
5 |
6 |
7 |
8 |
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Selenium μg/L |
50 |
5 |
30 |
ND |
ND |
ND |
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1 The contaminant being tested for in our labs.
- The highest level of a contaminant allowed for drinking water. Our results must be lower than this amount.
- The level at which we must report our results, even though they are lower than the standard.
- Goal levels at which the state would like to keep our results below.
- Running Annual Average (RAA) of Surface Water test results
- Range of results from Surface Water samples
- Running Annual Average (RAA) of Groundwater test results
- Range of results from Groundwater samples
2020 WATER QUALITY TESTING RESULTS
Primary Drinking Water Standards, established by the State Water Resources Control Board, Division of Drinking Water (DDW)
CONTAMINANT |
MCL |
DLR |
PHG |
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Major Sources in Drinking Water |
(MCLG) |
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(MRL) |
[MRDLG] |
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Total Coliform Bacteria |
5.0% of monthly |
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(0) |
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Highest Percentage of Monthly Positive Samples |
Naturally present in the environment |
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samples are positive |
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1.1 |
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Total Trihalomethanes (TTHMs), µg/L |
80 |
1* |
NA |
Highest Locational Running Annual Average |
Range of All Samples Collected in 2019 |
Byproduct of drinking water disinfection |
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41 |
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19 - 66 |
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Haloacetic Acids (five) (HAA5), µg/L |
60 |
1* |
NA |
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16 |
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4.8 - 19 |
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Chloramines as Chlorine, mg/L |
Maximum Residual Disinfectant |
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[4] |
Range of Monthly Average Chloramines |
Drinking water disinfectant added for treatment |
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Level (MRDL) = 4.0 |
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2.6 |
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2.5 - 2.8 |
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Water Supply Sources |
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CONTAMINANT |
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SURFACE WATER |
GROUND WATER |
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Turbidity |
TT = 1 NTU maximum |
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NA |
Highest Level Found= 0.20 NTU |
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NA |
Soil runoff |
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TT= 95% of samples ≤ 0.3 NTU |
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NA |
% of samples ≤ 0.3 NTU=100 |
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NA |
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Total Organic Carbon |
TT= Quarterly RAA Removal |
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NA |
Lowest Quarterly RAA Ratio = 1.5 |
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NA |
Various natural and manmade sources |
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Ratio ≥ 1.0 |
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Inorganic Chemicals |
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Average |
Range |
Average |
Range |
Erosion of natural deposits. |
Aluminum (µg/L) |
1000 |
50 |
600 |
ND |
ND |
ND |
ND - 65 |
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Barium (µg/L) |
1000 |
100 |
2000 |
ND |
ND |
149 |
ND - 374 |
Erosion of natural deposits; discharge of drilling wastes; and discharge from metal refineries |
Bromate (µg/L) |
10 |
5 |
0.1 |
ND |
ND - 6 |
NA |
NA |
Byproduct of drinking water disinfection |
Chromium total (µg/L) |
50 |
10 |
(100) |
ND |
ND |
ND |
ND - 14 |
Erosion of natural deposits; discharge from steel and pulp mills and chrome plating |
Selenium (µg/L) |
50 |
5 |
30 |
ND |
ND |
ND |
ND - 8 |
Erosion of natural deposits; discharge from mines and industrial wastes. |
Fluoride (mg/L) |
2 |
0.1 |
1 |
ND |
ND - 0.1 |
ND |
ND - 0.1 |
Erosion of natural deposits and discharge from fertilizer and aluminum factories |
Nitrate (as Nitrogen) (mg/L) |
10 |
0.4 |
10 |
ND |
ND - 0.8 |
2.5 |
0.9 - 4.4 |
Erosion of natural deposits; runoff from fertilizer use; and leaching from septic tanks and sewage |
Radionuclides |
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(0) |
3 |
3 |
3 |
ND - 6 |
Erosion of natural deposits |
Gloss Alpha Particle Activity (pCi/L)** |
15 |
3 |
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Uranium (pCi/L) |
20 |
1 |
0.43 |
ND |
ND |
1 |
ND - 4 |
Erosion of natural deposits |
Secondary Drinking Water Standards, established by DDW
Conductivity (µS/cm)
Chloride (mg/L)
Iron (µg/L)
Sulfate (mg/L)
Total Dissolved Solids (mg/L)
Turbidity (NTU)
1600
500
300
500
1000
5
–
–
- –
0.5 –
–
(0.05) –
522 |
377 - 657 |
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83 |
43 |
- |
137 |
ND |
ND |
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46 |
13 |
- |
80 |
293196 - 355
NDND - 0.12
968 |
656 - 1486 |
108 |
46 - 187 |
ND |
ND - 122 |
6837 - 128
574399 - 866
0.06ND - 0.69
Substances that form ions when in water; seawater influence Runoff/leaching from natural deposits; seawater influence Leaching from natural deposits; industrial wastes Runoff/leaching from natural deposits; industrial wastes Runoff/leaching from natural deposits
Soil runoff
Additional Parameters - included to assist consumers in making health or economic decisions, i.e.
Alkalinity as calcium carbonate (mg/L) |
– |
Boron (µg/L) |
– |
Total Hardness as calcium carbonate (mg/L) |
– |
Potassium (mg/L) |
– |
Sodium (mg/L) |
– |
pH (Units) |
– |
Silica (mg/L) |
– |
–
100 –
–
–
–
–
–
83 |
62 - 140 |
152 |
ND - 300 |
101 |
70 - 140 |
2.62 - 3.5
7050 - 93
8.57.5 - 8.9
8.22.8 - 15
283 |
194 |
- 419 |
821 |
270 |
- 1360 |
345 |
205 |
- 521 |
2.121.5 - 3.5
7831 - 129
7.57.2 - 7.7
2518 - 30
NOTES:
-
TTHMs each component DLR is 1 μg/L. HAAs each component DLR is 1 μg/L except Monochloroacetic acid that has DLR of 2 μg/L.
** = Gross alpha data is from 2017.
ABBREVIATIONS / UNITS: MCL = Maximum Contaminant Level, DLR = Detection Limit for Purposes of Reporting (State Water Board established), MRL
- Minimum Reporting Level, NA = Not Applicable, PHG = Public Health Goal, MCLG = Maximum Contaminant Level Goal, MRDLG = Maximum Residual Disinfectant Level Goal, RAA = Running Annual Average, TT = Treatment Technique, NTU = Nephelometric Turbidity Unit, µg/L = Micrograms per liter, mg/L = Milligrams per liter, µS/cm = Microsiemens per centimeter, pCi/L = Pi- cocuries per liter, ND = Monitored for but not detected at or above DLR or MRL.
So, how much is THAT? Let’s compare:
There are about 2.5 million liters of water in |
mg/L = Milligrams/Liter |
µg/L = Micrograms/Liter |
ng/L = Nanograms/Liter |
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an |
or parts per million (ppm) |
or parts per billion (ppb) |
or parts per trillion (ppt) |
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pool as salty as the ocean, it would take 2 |
About 2 quarts |
About 1/2 teaspoon |
About 1 pinch |
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standard shipping containers full of salt! |
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of salt in the pool |
of salt in the pool |
of salt in the pool |
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Where Do Contaminants Come From?
The sources of drinking water (both tap and bottled water) include rivers, lakes, streams, ponds, reservoirs, springs and wells. As water travels over the surface of the land or through the ground, it dissolves
MICROBIAL CONTAMINANTS, such as viruses and bacteria that may come from
INORGANIC CONTAMINANTS, such as salts and metals, that can be naturally occurring or result from urban stormwater runoff, industrial or domestic wastewater discharges, oil and gas production, mining, or farming.
PESTICIDES AND HERBICIDES, which may come from a variety of sources such as agriculture, urban stormwater runoff, and residential uses.
ORGANIC CHEMICAL CONTAMINANTS, including synthetic and volatile organic chemicals, which are byproducts of industrial processes and petroleum production. They can also come from gas stations, urban stormwater runoff, and septic systems.
RADIOACTIVE CONTAMINANTS which can be naturally occurring or be the result of oil and gas production and mining activities.
In order to ensure that tap water is safe to drink, the USEPA and the State Water Board prescribe regulations that limit the amount of certain contaminants in water provided by public water systems. The U.S. Food and Drug Administration regulations and California law also establish limits for contaminants in bottled water that provide the same protection for public health.
8
EMERGENCY PREPAREDNESS: ALWAYS A GOOD TIME FOR PREP
California’s unpredictable climate means long dry spells in the summer often followed by sudden heavy rainstorms during the winter.
Our emergency preparedness guru, Flood Ready Freddy, has lots of great tips to make sure you don’t get caught off guard when storms approach.
- Prepare an emergency kit
- Have an evacuation plan
- Keep storm drains clear of debris
- Maintain overgrown vegetation
You can watch and share videos,
Visit zone7water.com/floodready to become a #ReadyFreddy, too!
9
Contaminants Not Detected in Zone 7’s Water Supply
PRIMARY STANDARDS: CONTAMINANTS NOT DETECTED IN ZONE 7 WATER SUPPLY
Organic Chemicals |
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Inorganic Chemicals |
Radionuclides*** |
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VOLATILE ORGANIC |
SYNTHETIC ORGANIC |
Arsenic |
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CHEMICALS (VOCs) |
CHEMICALS (SOCs)* |
Antimony |
Beta/photon emitters |
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Benzene |
Alachlor |
Asbestos |
Tritium, |
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Beryllium |
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Carbon Tetrachloride |
Atrazine |
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Cadmium |
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Bentazon |
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Cyanide |
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Benzo(a)pyrene |
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Mercury |
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Carbofuran |
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Nickel |
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Chlordane |
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Nitrite (as nitrogen) |
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Perchlorate |
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Dalapon |
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Thallium |
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Dibromochloropropane (DBCP) |
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Zinc |
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Dichloromethane |
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NOTES: |
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Dinoseb |
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Ethylbenzene |
Diquat |
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None of the primary standards listed above were detected at or above |
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Endothall |
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DLR in Zone 7 water supply during 2020 monitoring. |
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Monochlorobenzene |
Endrin |
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Styrene |
Ethylene Dibromide (EDB) |
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Glyphosate |
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Tetrachloroethylene |
Heptachlor |
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Toluene |
Heptachlor Epoxide |
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SECONDARY STANDARDS: CONTAMINANTS |
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Hexachlorobenzene |
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NOT DETECTED IN ZONE 7 WATER SUPPLY |
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Hexachlorocyclopentadiene |
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Lindane |
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Color |
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Trichloroethylene |
Methoxychlor |
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Copper |
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Trichlorofluoromethane |
Molinate |
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Foaming Agents (MBAS) |
Silver |
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Oxamyl |
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Manganese* |
Thiobencarb |
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Vinyl Chloride |
Pentachlorophenol |
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Xylenes |
Picloram |
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Polychlorinated Biphenyls |
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NOTES: |
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Simazine |
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Thiobencarb |
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*Manganese was detected above the DLR during internal operational |
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samples, but the average remained below the secondary standard. |
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Toxaphene |
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None of the secondary standards listed above were detected at or above |
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DLR in Zone 7 water supply during 2020 monitoring. |
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Lead and Copper Rule and
Corrosion Control
Zone 7 Water Agency and its retailers have been in compliance with the Lead and Copper Rule requirements for many years and we continue actively monitoring for lead and copper in our delivered water. In addition, Zone 7 completed a corrosion control treatment evaluation study
in September 2017 to ensure existing processes are optimized for corrosion control.
The following monitoring data is for Zone 7’s direct customers only. Per State Water Board approval, compliance monitoring is conducted once every three years. Data from June 20, 2018 monitoring is summarized below:
CONTAMINANT |
NUMBER OF |
90TH PERCENTILE |
NUMBER OF SITES |
ACTION LEVEL (AL) |
PHG |
SAMPLES COLLECTED |
LEVEL DETECTED |
EXCEEDING AL |
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Lead (µg/L) |
11 |
4.1 |
None |
15 |
0.2 |
Copper (µg/L) |
11 |
71 |
None |
1300 |
300 |
If present, elevated levels of lead can cause serious health problems, especially for pregnant women and young children. Lead in drinking water is primarily from materials and components associated with service lines and home plumbing. Zone 7 Water Agency is responsible for providing high quality drinking water, but cannot control the variety of materials used in plumbing components. When your water has been sitting for several hours, you can minimize the potential for lead exposure by flushing your tap for 30 seconds to 2 minutes before using water for drinking or cooking. If you are concerned about lead in your water, you may wish to have your water tested. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available from the Safe Drinking Water Hotline or at www.epa.gov/safewater/lead.
THE DROUGHT AND WHAT YOU CAN DO ABOUT IT
California Rainfall Shortage
Tri Valley Water Storage
WHAT YOU CAN DO
ABOUT THE DROUGHT
Be Water Wise
California is currently facing the most severe drought since 2012- 2016. Our rainfall is in par with the drought season of
Visit www.zone7water.com/waterwise for shareable videos and
additional resources.
10
HOW DO WE ENSURE WATER SAFETY?
About Water Treatment
As part of rigorous quality control, Zone 7 Water Agency regularly checks for a range of substances in our water supplies to ensure we can deliver safe and clean water to customers. The world of water treatment is complex! There is a great deal of work that goes into preparing the water that originates as rain, snowmelt or underground aquifers to meet the Zone 7 water quality goals, so that it can be delivered to homes and businesses. Our water treatment process is carefully designed and managed, taking water from different sources through multiple steps and stages before it reaches you. Thanks to
Zone 7 Water Agency applies a
SOURCE WATER PROTECTION:
Best management practices to protect our watersheds and wellfields.
CONVENTIONAL DUAL-MEDIA FILTRATION:
Treatment processes for surface water supplies, which remove particles and greater than
99% of waterborne pathogens, including viruses.
11
BLENDING AND/OR FILTRATION:
Treatment through reverse osmosis membranes as needed, to reduce the concentration of minerals and contaminants in the groundwater.
DISINFECTION:
The scientifically proven addition of chemicals to inactivate or kill remaining pathogens.
SAFE STORAGE AND DISTRIBUTION:
Maintaining a consistent disinfectant residual level in the distribution systems to prevent bacterial growth as water travels to your tap.
12
Patterson Pass Water Treatment Plant Ozonation and Expansion Project
This project will modernize the plant so that Zone 7 can continue to meet its commitment to providing a reliable supply of
- Increase plant and process reliability by replacing aging treatment facilities
- Increase plant production capacity from 12 million gallons of water a day (mgd) to 24 mgd
-
Increase
in-plant storage capacity of finished water by approximately 5 million gallons - Add ozonation facilities to improve treated water quality
Once completed, the Patterson Pass Water Treatment Plant will essentially be a brand new
HOW DOES OZONE
TREATMENT WORK?
Adding an electric spark to Oxygen (O2) creates
supercharged Ozone (O) molecules.
Contaminants in water may include
bacteria, viruses, and algal byproducts that
impact taste and odor.
Ozone is injected into the water as a gas at our new ozonation site in the Del Valle Water Treatment Plant.
The Ozone seeks out and destroys contaminants in the water.
Ozonation leaves behind pure,
Patterson Pass Water Treatment Plant Milestones
1962 Construction of Patterson Pass Water Treatment Plant, with a capacity of 7.5 million gallons per day (mgd).
1969 Plant capacity was expanded to 12 mgd, with the installation of additional filters and treated water storage.
2003 Plant capacity was expanded by 8 mgd, with the installation of a parallel ultrafiltration membrane treatment processes.
2022 New ozonation process is expected to be fully operational next spring.
13
WATER TREATMENT PLANT
OZONATION PROJECTS
Algal Blooms Cause Taste, Odor Impacts
The major source of raw water supply for the Del Valle and Patterson Pass Water Treatment Plants is surface water imported through the
In recent years, more frequent algal blooms have affected the water we receive for treatment. Seasonal overgrowths of algae can cause taste and odor changes – such as an earthy, musty taste – and make the water more complex to treat. Some algae can also plug up filters and produce toxins. Treating this water supply with conventional treatment processes has become increasingly difficult and costly.
Multiple studies over the years have identified ozone as a more effective alternative to chlorine to make the treatment process more efficient, and to improve finished water quality.
Improvements to Treatment
Process and Finished Water Quality
As part of Zone 7’s commitment to
Zone 7 is also in the process of upgrading the Patterson Pass Water Treatment Plant to utilize ozone while expanding the plant capacity from 12 to 24 mgd. The new treatment facilities at the Patterson Pass Water Treatment Plant should be fully operational by spring of 2022. This project is a capital investment of $110 million, financed through water rates, new connection fees, and bonds. Approximately $1 million net increase in annual operating and maintenance costs is anticipated to operate the new ozone system and pump station.
This investment in ozonation will improve our water by removing organic substances that cause impact taste and odor, reducing the formation of
Better Tasting,
Safer Water
The transition from chlorine to ozone disinfection is expected to improve the overall quality of water treated at Del Valle Water Treatment Plant to the benefit of our customers. Previously, Zone 7 uses chlorine as a disinfectant to treat raw water. Chlorine is highly effective in killing bacteria and viruses; however, it can react with organic material in the water
to create odors and potentially harmful chemical byproducts.
A powerful oxidant and disinfectant, ozone is bubbled into pretreated raw water as an
at killing bacteria and neutralizing large pathogens such as Giardia and Cryptosporidium. By adding ozone treatment, Zone 7 will be able to reduce the use of chlorine and minimize potentially harmful disinfection byproducts from chlorine disinfection. Ozone treatment will also reduce the need for other chemicals in the treatment process.
Ozonation is more effective than chlorine at treating organic matter and destroying algal byproducts. This will make our water more palatable by removing many of the compounds that can cause unpleasant taste and odors in drinking water, including those created by algal blooms
that affect our raw water supply.
Adding to its value, ozone treatment is the technology of choice for treating other contaminants
of emerging concern, such as cyanotoxins produced by blue- green algae, endocrine disruptors and pharmaceuticals that can make their way into raw water supplies.
14
100 North Canyons Parkway
Livermore, CA 94551
Este Informe Contiene Información Muy Importante Sobre Su Agua Potable. Tradúzcalo O Hable Con Alguien Que Lo Entienda Bien. (This Report Contains Important Information About Your Drinking Water. Translate it, or speak with someone who understands it.)
Educational Information
Drinking water, including bottled water, may reasonably be expected to contain at least small amounts of some contaminants. The presence of contaminants does not necessarily indicate that water poses a health risk. More information about contaminants and potential health effects can be obtained by calling the U.S. Environmental Protection Agency’s (USEPA’s) Safe Drinking Water Hotline
Some people may be more vulnerable to contaminants in drinking water than the general population.
We Welcome Your Participation
Zone 7 Water Agency is committed to transparency and invites public participation. You are invited to engage in our public forum and voice questions or concerns about your drinking water. Regular meetings of the Board of Directors are open
to the public and held the third Wednesday of each month at 7 p.m. Special meetings are scheduled as needed. Meeting agendas are posted online at www.zone7water.com.
Reminder
Always take extra precautions, the water may be safe to drink when it leaves the sewage treatment plant but it may pick up pollutants during its way to your tap. We advise that you ask locals or hotel staff about the water quality. Also, note that different cities have different water mineral contents.