Public Works & Utilities
Water Quality
Mail Stop 803
P.O. Box 4008
Chandler, AZ 85244-4008

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Public Water System AZ04-07-090

2022 DRINKING WATER QUALITY
CONSUMER CONFIDENCE REPORT
City of Chandler

The City of Chandler Public
Works & Utilities Department
is committed to providing a
safe and sustainable supply
of drinking water for our valued customers. Due to our
strong commitment, the City
of Chandler employs a team
of chemists, technicians, and
specialists to collect and perform more tests on the water served than is required by law.
This report provides valuable material concerning your drinking water including information about its sources, results from
water quality testing, and how to interpret the data provided.

About your Water Supply

The drinking water supplied by the City of Chandler to its customers comes from three sources:
• The Chandler Surface Water Treatment Plant (SWTP) treats
and distributes water from the Salt River, Verde River, Central
Arizona Project (Colorado River), and Salt River Project
(SRP) wells whose water is transported to Chandler via the
Consolidated Canal.
• 30 wells supply groundwater from aquifers underlying
Chandler. Groundwater is disinfected with chlorine prior to
being introduced into the City’s distribution system.
• The City of Chandler and the Town of Gilbert jointly own the
Santan Vista Water Treatment Plant (SVWTP) located in the
Town of Gilbert. This facility currently treats and distributes
up to 24 million gallons per day of Colorado River water from
the Central Arizona Project to each city. We have included
compliance information supplied by the SVWTP. The Town of
Gilbert’s annual Water Quality Report can also be accessed at
gilbertaz.gov/departments/public-works/water/reports.

City of Chandler Water Supply Statistics
• Chandler’s SWTP produced 46%
of the City’s total drinking water.
• Groundwater wells produced 23%
of the City’s total drinking water.
• The SVWTP supplied 31% of the
City’s total drinking water.

46% Chandler WTP
23% Wells
31% Santan WTP

Drinking Water and your Health

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. Some people may be more
vulnerable to contaminants in drinking water than the general
population.
Immuno-compromised persons such as persons with cancer
undergoing chemotherapy, persons who have undergone
organ transplants, people with HIV-AIDS or other immune system disorders, some elderly, and infants can be particularly at
risk from infections. These people should seek advice about
drinking water from their health care providers.
For more information about contaminants and potential health
effects, or to receive a copy of the U.S. Environmental Protection
Agency (EPA) and the U.S. Centers for Disease Control (CDC)
guidelines on appropriate means to lessen the risk of infection
by Cryptosporidium and microbiological contaminants visit the
EPA Safe Drinking Water website at epa.gov/sdwa.
The sources of drinking 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 naturally
occurring minerals, and in some cases, radioactive material, and
can pick up substances resulting from the presence of animals
or from human activity.
Contaminants that may be present in source water include:
• Microbial Contaminants: Such as viruses and bacteria that
may come from sewage treatment plants, septic systems,
agricultural livestock operations, and wildlife
• Inorganic Contaminants: Such as salts and metals that can
be naturally occurring or result from urban storm water runoff, industrial or domestic wastewater discharges, oil and gas
production, mining, or farming
• Pesticides and Herbicides: Such as agriculture, urban storm
water runoff, and residential uses that may come from a variety of sources
• Organic Chemical Contaminants: Such as synthetic and
volatile organic chemicals, which are by-products of industrial
processes and petroleum production, and may come from
gas stations, urban storm water runoff, and septic systems
• Radioactive contaminants: That can be naturally occurring
or be the result of oil and gas production and mining activities.
To ensure tap water is safe to drink, the EPA prescribes regulations limiting the amount of certain contaminants in water
provided by public water systems. The United States Food and
Drug Administration (FDA) regulations establish limits for contaminants in bottled water providing the same level of protection for public health.

Chandler Detected Regulated Contaminants 2022
MCL
Range of All
Level
Radionuclides
Violation Highest
Samples
Detected
Y or N
(Low-High)
1.0

< 1.0 - 1.0

Sample
MCL MCLG Month & Likely Source of Contamination
Year
15
0
7/2022
Erosion of natural deposits

0.7

< 0.6 – 0.7

5

0

6/2022

Erosion of natural deposits

6.1
Running Annual
Inorganic Chemicals MCL
Average (RAA)
Violation
(IOC)
OR Highest Level
Y or N
Detected

1.1 – 6.1

30

0

7/2022

Erosion of natural deposits

Range of All
Samples
(Low-High)

Sample
MCL MCLG Month & Likely Source of Contamination
Year

Arsenic1 (ppb)

N

9.88

1.3 – 9.88

10

0

10/2022

Barium (ppm)

N

0.14

0.0013 - 0.14

2

2

1/2022

Cadmium (ppb)

N

0.13

<0.1-0.13

5

5

1/2022

Chromium (ppb)

N

27

< 1.0 - 27

100

100

1/2022

Cyanide (ppb)

N

100

<50 – 100

200

200

1/2022

Fluoride (ppm)

N

1.4

<0.4 - 1.4

4

4

1/2022

Nitrate2 (ppm)

N

7.3

0.33– 7.3

10

10

10/2022

Selenium (ppb)

N

1.9

<0.5 – 1.9

50

50

1/2022

Sodium (ppm)

NA

260

77 – 260

N/A

N/A

7/2022

Thallium (ppb)

N

0.3

<0.1 – 0.3

2

0.5

1/2022

Alpha Emitters (pCi/L) N
Combined Radium
N
-226 & -228 (pCi/L)
Uranium (ug/L)
N

Erosion of natural deposits, runoff from orchards, runoff from
glass and electronics production wastes
Discharge of drilling wastes; discharge from metal refineries;
Erosion of natural deposits
Corrosion of galvanized pipes; natural deposits; metal refineries;
runoff from waste batteries and paints
Discharge from steel and pulp mills; Erosion of natural deposits
Discharge from steel/metal factories; Discharge from plastic and
fertilizer factories
Erosion of natural deposits; water additive which promotes strong
teeth; discharge from fertilizer and aluminum factories
Runoff from fertilizer use; leaching from septic tanks, sewage;
erosion of natural deposits
Discharge from petroleum and metal refineries; erosion of natural
deposits; discharge from mines
Erosion of natural deposits
Leaching from ore-processing sites; discharge from electronics,
glass, and drug factories

1 Arsenic is a mineral known to cause cancer in humans at high concentration and is linked to other health effects, such as skin damage and circulatory problems. If arsenic is less than or

equal to the MCL, your drinking water meets EPA’s standards. EPA’s standard balances the current understanding of arsenic’s possible health effects against the costs of removing arsenic from
drinking water, and continues to research the health effects of low levels of arsenic.
2 Nitrate in drinking water at levels above 10 ppm is a health risk for infants of less than six months of age. High nitrate levels in drinking water can cause “blue baby syndrome.” Nitrate levels
may rise quickly for short periods of time because of rainfall or agricultural activity. If you are caring for an infant, and detected nitrate levels are above 5 ppm, you should ask advice from
your health care provider.

Synthetic Organic
Chemicals (SOC)
2,4-D (ppb)
Volatile Organic
Chemicals (VOC)
Dichloromethane
(ppb)
Trichloroethylene
(ppb)

Running Annual
MCL
(RAA)
Violation Average
OR Highest Level
Y or N
Detected
N
0.39
Running Annual
MCL
(RAA)
Violation Average
OR Highest Level
Y or N
Detected

Range of All
Samples
(Low-High)

Sample
MCL MCLG Month & Likely Source of Contamination
Year

<0.1-0.39

70

Range of All
Samples
(Low-High)

Sample
MCL MCLG Month & Likely Source of Contamination
Year

N

0.55

<0.5-0.55

5

0

3/2022

Discharge from pharmaceutical and chemical factories

N

0.63

<0.5-0.63

5

0

3/2022

Discharge from metal degreasing sites and other factories

70

4/2022

Runoff from herbicide used on row crops

Surface Water Monitoring 2022:
Surface Water Treatment Rule
Total Organic Carbon1 Removal Ratio
Turbidity2 (NTU)

TT
Violation Lowest RAA
Y or N
N
1.31
Highest Level
Detected
N
0.23

RAA Range
(Low-High)

TT

1.31-1.85

->1 RAA

Sample
Month & Likely Source of Contamination
Year
11/2022 Naturally present in the environment

100%

>95%

7/2022

Soil runoff

1 Total organic carbon (TOC) has no health effects. However, total organic carbon provides a medium for the formation of disinfection byproducts. These byproducts include trihalomethanes

(THM) and haloacetic acids (HAA). Drinking water containing these byproducts in excess of the MCL may lead to adverse health effects, liver, or kidney problems, or nervous system effects,
and may lead to an increased risk of getting cancer.
2 Turbidity is a measure of the cloudiness of water and is an indication of the effectiveness of our filtration system. We monitor it because it is a good indicator of the quality of water. High
turbidity can hinder the effectiveness of disinfectants. Turbidity has no health effects. However, turbidity can interfere with disinfection and provide a medium for microbial growth. Turbidity
may indicate the presence of disease-causing organisms. These organisms include bacteria, viruses, and parasites that can cause symptoms such as nausea, cramps, diarrhea, and associated
headaches.

Distribution System Detections 2022:
MCL
Annual Average
Violation Running
(RAA)
Y or N
N
1.15
MCL
Running Annual Average
Violation (RAA) OR Highest Level
Y or
Detected

Disinfectants
Chlorine (ppm)
Disinfection
By-Products

Haloacetic Acids
N
(HAA5)1 (ppb)
Total Trihalomethanes N
(TTHM)2 (ppb)

Range of All
Samples
(Low-High)
0.23 – 2.20
Range of All
Samples
(Low-High)

MRDL

MRDLG

4

0

MCL

MCLG

Sample
Month &
Year
11/2022
Sample
Month &
Year

Likely Source of Contamination
Water additive used to control microbes
Likely Source of Contamination

10.4

<2.0 - 22

60

N/A

4/2022

Byproduct of drinking water disinfection

47

0.8 - 86

80

N/A

7/2022

Byproduct of drinking water disinfection

1Total Trihalomethanes (TTHMs) Some people who drink water containing trihalomethanes in excess of the MCL over many years may experience problems with their liver, kidneys, or central

nervous systems, and may have an increased risk of getting cancer.
2Haloacetic Acids (HAA5) Some people who drink water containing haloacetic acids in excess of the MCL over many years may have an increased risk of getting cancer.

Some average values could be less than the low range due to substituting non-detect (<) values with zero, per the regulations governing compliance calculations.
Lead and Copper Testing
Federal regulations require all cities to test for lead and copper at selected customer’s taps at least once every three
years. The City of Chandler conducted lead and copper tap
sampling in the summer of 2022, with the concentrations of
lead and copper well below regulatory limits.
Lead, in drinking water, is primarily from materials and
components associated with service lines and home plumbing. If present, elevated levels of lead can cause serious
health problems, especially for pregnant women and young
children. The City of Chandler is responsible for providing

high quality drinking water but cannot control the variety of
materials used in household 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. Information on lead in drinking water, testing methods, and steps you can take to minimize exposure is available
from the Safe Drinking Water Hotline (1-800-426-4791) or at
epa.gov/safewater/lead.

Lead and Copper Study 2022:
Lead & Copper

MCL
Violation
Y or N

Number of
90th Percentile Samples
Exceeds AL

AL

ALG

Sample Month
& Year

Likely Source of Contamination

Copper (ppm)

N

0.11

0

1.3

1.3

7/2022

Lead (ppb)

N

3.4

0

15

0

8/2022

Corrosion of household plumbing systems;
erosion of natural deposits
Corrosion of household plumbing systems;
erosion of natural deposits

Protecting Chandler’s Water Supply

Source Water Assessment and Protection Program (SWAP)
The Arizona Department of
Environmental Quality (ADEQ)
completed a source water
assessment for drinking
water wells and surface
water sources for Chandler’s
public water system in 2005.
The assessment reviewed
adjacent land uses that may
pose a potential risk to water
sources. These risks include, but are not limited to, gas stations,
landfills, dry cleaners, agriculture fields, wastewater treatment
plants, and mining activities. Once ADEQ identified the adjacent
land uses, they were ranked on their potential to affect the
water source.
All surface water sources are considered high risk due to
their exposure to open air. The overall risk posed to surface
water is addressed by EPA through its increased monitoring
requirements for surface water sources.
Two of Chandler’s drinking water wells were considered high
risk based on adjacent land use criteria. The Chandler public
water system conducts regular monitoring of drinking water
entering the distribution system from all wells to ensure land
uses have not impacted the source water.
Based on the information currently available on the
hydrogeological settings and the adjacent land uses that are
in the specified proximity of the drinking water source(s) of this
public water system, ADEQ has given a high risk designation
for the degree to which this public water system drinking water
source(s) are protected. A designation of high risk indicates
there may be additional source water protection measures
which can be implemented on the local level. This does not
imply that the source water is contaminated nor does it mean
that contamination is imminent. Rather, it simply states that
land use activities or hydrogeological conditions exist that make
the source water susceptible to possible future contamination.
Further source water assessment documentation can be
obtained by contacting ADEQ at 602-771-4298 or visiting their
website at azdeq.gov/source-water-protection
Backflow Prevention
The City of Chandler prevents contamination of the public
water supply by requiring the installation, maintenance and
inspection of thousands of backflow devices throughout the
City. These devices ensure hazards originating on customer’s
property and from temporary connections do not impair or
alter the water in the City’s distribution system. Backflow prevention devices range from vacuum breakers on household
hose bibs to large commercial reduced-pressure principal
devices.

Storm Water Pollution Prevention Tips
“Be the solution to storm water
pollution” – common storm water
pollutants include sediment, motor
oil and other vehicle fluids, pet
waste, yard debris, metals, pesticides, fertilizers and herbicides, to
name a few. For more information
on storm water pollution prevention, please go to chandleraz.gov and
search “stormwater”.
Guidelines for Everyday Pollution
Prevention – “Only Rain In the Storm Drain”
• Sweep yard debris and properly dispose of in the trash,
rather than blowing or hosing into the street.
• Contain pool or spa water on private property or dispose of it in the sanitary sewer
cleanout associated with your
home. Draining pool water into
the street or other City right-ofway is prohibited by City Code.
For more information call
the
City’s
Environmental
Management Department at
480-782-3503 or search “pool
drainage” at chandleraz.gov.
• Use fertilizers and pesticides sparingly and as directed by the
manufacturer.
• Pick up after your pet and properly dispose of the waste in
the trash.
• Wash your car on a lawn or other unpaved surface, or use a
commercial car wash.
• Always use a nozzle on your garden hose around the home.
Do not let the water free flow into the street.
• Maintain vehicles to be free of leaks and do not park leaking
vehicles on the street.
• Do not over-water your lawn.
• Report illegal dumping into streets and storm drains by calling the City’s Environmental Management Department at
480-782-3503 or at chandleraz.gov.
• Minimize your purchase and use of hazardous products.
Dispose of unused quantities properly. Please contact the
City’s Solid Waste Services at 480-782-3510 for proper disposal guidelines of hazardous waste materials such as used
motor oil and other similar fluids.

Taste, Odor and Hardness

The EPA’s National Secondary Drinking Water Regulations are
non-enforceable guidelines on contaminants that may cause
cosmetic or aesthetic effects in drinking water. These effects
include flavor, color, odor, and hardness, all of which are harmless, but some consumers may find disagreeable. The table
below shows data on substances and characteristics that are
frequently asked about by Chandler residents.
Substance
Guideline
Alkalinity (ppm)
NA
Iron (ppm)
0.3 mg/L
pH
6.5 – 8.5
Total Dissolved Solids (ppm)
500 mg/L
Total Hardness (ppm; grains/gallon) NA

Range of Results (low – high)
44.0 – 193.0
<0.10 – 0.17
7.5 – 8.3
457 - 1400
230 – 431 mg/L / 13 –25 gpg

Seasonal Changes in Flavor
The flavor of Chandler’s drinking water may change at certain
times of the year, depending on the source. Chandler works
with SRP to minimize algae in the canal system and to provide
treatment at the SWTP to reduce off-flavors and odors.
Arizona State University and the City of Chandler have
partnered to routinely monitor for taste and odor precursors
in the Consolidated Canal. This allows the treatment plant to
have more precise control over taste and odor events and to
better use resources and manage cost.

Santan Vista System Compliance Data 2022:

Who do I contact with questions about
Chandler’s Drinking Water?

If you have any questions about your tap water or the
information in this report, please call the City’s Water
Quality Department at
480-782-3654 during normal business hours (8:00 a.m. to 5:00 p.m., Monday
through Friday).
You can also visit our website at
chandleraz.gov/residents/water/water-quality
Citizens who wish to address the City Council about water
issues may do so at regularly scheduled City Council meetings
normally held the 2nd and 4th Thursday of each month. The
meetings are held at Chandler City Hall Council Chambers,
88 E. Chicago Street. For information about specific meeting times and agenda items, please contact the City Clerk’s
office at 480-782-2181, or visit chandleraz.gov/government/
departments/city-clerks-office/city-council-meetings.

Public Notification of Failure to Perform
Routine Monitoring

The City of Chandler is required to provide analytical results
to the State and County for the monitoring and reporting schedules established by the Safe Drinking Water Act.
Sampling at two of the City’s well sites was not performed
during December of 2022. Monitoring at those sites resumed
in January of 2023. As the results were non-detect or below
action limits for the January samples, Chandler has no reason to believe that the missed monitoring had any impact
on public health. The communication and documentation
procedures between the City’s Water Operations and Water
Quality departments have been updated to ensure that
all required samples are taken and analyzed according to
schedule and the regulatory agencies receive timely and
complete reports.

Inorganic Chemicals
(IOC)

MCL
Violation
Y or N

Range of All
Highest Level Detected Samples
(Low-High)

MCL

MCLG

Nitrate (ppm)

N

0.22

10

10

Synthetic Organic Chemicals
(SOC)

MCL
Violation
Y or N
N
MCL
Violation
Y or N
N
TT
Violation
Y or N

Running Annual
Average (RAA) OR
Highest Level Detected
0.57

MCL

MCLG

70

70

MCL

MCLG

10

N/A

TT

MCLG

N

20.60

2,4-D (ppb)
Disinfection By-Products
Bromate (ppb)
Surface Water Treatment Rule
Total Organic Carbon Removal
Ratio % Removal

0.22

Range of All
Samples
(Low-High)
<0.1-0.57
Range of All
Highest Level Detected Samples
(Low-High)
4.3
<1.00 – 4.3
Range of All
Average
Samples
(Low-High)

17.30 – 23.90 15%
25%

Definitions:
Action Level (AL): The concentration of a contaminant, which if
exceeded, triggers treatment or other requirements
Maximum Contaminant Level (MCL): The highest level of a
contaminant that is allowed in 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
Maximum Residual Disinfectant Level (MRDL): The level of
disinfectant added for water treatment that may not be
exceeded at the consumer’s tap
Maximum Residual Disinfectant Level Goal (MRDLG): The level
of disinfectant added for treatment at which no known or
anticipated adverse effect on health of persons would occur
Minimum Reporting Limit (MRL): The smallest measured

N/A

Sample
Month & Likely Source of Contamination
Year
Runoff from fertilizer use; leaching from septic
1/2022
tanks, sewage; erosion of natural deposits
Sample
Month & Likely Source of Contamination
Year
1/2022
Runoff from herbicide used on row crops
Sample
Month & Likely Source of Contamination
Year
7/2022
Byproduct of drinking water disinfection
Sample
Month & Likely Source of Contamination
Year
10/2022

Naturally Present in the Environment

concentration of a substance that can be reliably measured
by a given analytical method
Nephelometric Turbidity Units (NTU): A measure of water
clarity
Non-Applicable (N/A): Sampling was not completed by
regulation or was not required
ppm: Parts per million or Milligrams per liter (mg/L). One ppm
is equivalent to one gallon in one mil-lion gallons.
ppb: Parts per billion or Micrograms per liter (µg/L). One ppb
is one thousand times smaller than a ppm.
Picocuries per liter (pCi/L): Measure of the radioactivity in
water
Treatment Technique (TT): A required process intended to
reduce the level of a contaminant in drinking water