table of contents - peel regionraw water from lake ontario is pumped into two surface water...
TRANSCRIPT
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TABLE OF CONTENTS
Our commitment ................................................................................................................................3 1. General Drinking Water System Information ...........................................................................4
1.1 Where does the water come from? ...........................................................................................4 1.2 Expenditure Information ..........................................................................................................6
2. How is Water Treated? ................................................................................................................9 2.1 Lakeview Water Treatment Plant .............................................................................................9 2.2 Lorne Park Water Treatment Plant .........................................................................................11 2.3 Conventional Water Treatment Process Description .............................................................15 2.4 Ozone, Biologically Active Carbon, and Membrane (OBM) ................................................17 2.5 Membrane, Ultraviolet Light, and Granular Activated Carbon (MUG) ................................18 2.6 South Peel Water Distribution System ...................................................................................19
3. Region of Peel and Drinking Water Compliance in Ontario ..................................................21 3.1 Annual Water Reports ............................................................................................................21 3.2 Sampling and Testing .............................................................................................................22 3.3 Certified Water Operators ......................................................................................................22 3.4 Water Quality Notification .....................................................................................................23 3.5 Water System Inspections ......................................................................................................23
4. How well did we do? ...................................................................................................................24 4.1 Operation ................................................................................................................................24 4.2 Customer Service – Quality and Efficiency ...........................................................................29
5. Drinking Water Quality Programs ...........................................................................................29 5.1 Municipal Drinking Water Licensing Program ......................................................................30 5.2 Source Water Protection .........................................................................................................32 5.3 Private Well Abandonment Program .....................................................................................35 5.4 Watermain Renewal Program ................................................................................................36 5.5 Community Lead Testing Program ........................................................................................37 5.6 Watermain Flushing Program ................................................................................................38 5.7 Hydrant Inspection Program ..................................................................................................38 5.8 Drinking Water Sampling Station Program ...........................................................................39
APPENDIX A – Summary of Water Testing Results......................................................................40 APPENDIX B – Frequently Asked Questions and Answers on Water Quality ..............................50
Water Quality at Home Tips ..........................................................................................................54 Report Accessibility .......................................................................................................................55
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Our Commitment: To supply our customers with quality drinking water and maintain compliance
with all applicable legislative requirements.
The Regional Municipality of Peel (Peel) takes pride in ensuring that its residents, businesses, and
visitors are provided with clean and safe drinking water.
Peel treats its source water to remove contaminants and regularly tests the water quality to ensure
its consumers are provided with high quality drinking water.
Thousands of water samples are collected throughout the year and tested for a variety of
parameters. The results of the tests performed in 2017 confirm excellent quality of drinking water
and have been consolidated in this annual report.
If experiencing difficulty accessing or viewing the 2017 data results, please contact our Water
Quality Team at 905-791-7800 ext. 4685 or at [email protected].
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1. General Drinking Water System Information
1.1 Where does the water come from?
The South Peel Drinking Water System supplies a population of over 1.4 million people in the
Cities of Brampton and Mississauga and the southern parts of Caledon, including the community
of Bolton. A portion of water produced is also supplied to York Region.
Raw water from Lake Ontario is pumped into two surface water treatment plants, Lakeview Water
Treatment Plant (WTP) and Lorne Park Water Treatment Plant (WTP), from intake pipes
extending as far as two kilometres off shore. The Lakeview and Lorne Park plants are owned by
the Region of Peel and operated by the Ontario Clean Water Agency (OCWA). In 2017, these
plants produced over 208 billion litres of water. Both plants are classified by the Ministry of the
Environment and Climate Change as Class IV water treatment subsystems.
Distribution System / Storage Facilities
The South Peel Distribution System is comprised of a Class IV transmission and pumping
subsystem made up of water storage facilities, large diameter feedermains and pumping stations
for bulk water movement, and a Class II distribution subsystem made up of a large network of
distribution watermains. The distribution system carries water from the treatment plants to the
Cities of Brampton and Mississauga and parts of Caledon through a series of pipes that range in
size up to 2100 mm (approximately 7 feet) in diameter. There are a total of 13 reservoirs, 4
elevated tanks, and 2 standpipes in the South Peel Drinking Water System.
The South Peel Distribution System consists of the following components: 4,350 km of
watermains, 45,851 mainline valves, 27,045 fire hydrants and 319,803 water services. (2017- South Peel Water Distribution System)
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Airport Road Reservoir and Pumping Station, Pump Room
Some of the maintenance activities performed in the South Peel Distribution System include:
• watermain break repairs
• watermain flushing
• hydrant maintenance and repairs
• valve maintenance and repairs
• water service line installation/replacement/repairs
• customer service calls (water quality/quantity, turn off/on, pressure testing, etc.)
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1.2 Expenditure Information
Peel staff determine capital spending priorities to eliminate unnecessary expenditures while
maintaining infrastructure.
Table 1.2.1: Significant Expenses for South Peel Distribution System
Activity Type Activity Description Approximate Expenditure
Repair
Valve repairs $724,112 Hydrant repairs $893,932 Water service line repairs/upgrades $2,384,824 Service box repairs $243,692 Watermain break repairs $2,730,214
Replacement
Chlorine pumps at Bolton South Booster Pumping Station $5,896 Health & Safety upgrades (ladders, rails, etc.) at all facilities $7,000 Water service line replacement $994,440 Service box replacement $1293237 Hydrant replacements $2,885,76 Watermain renewal and rehabilitation $59,792,145 Rehabilitation of Bolton Elevated Tank and Standpipes $4,216,200 Tullamore Pumping Station standby power automation upgrades and backup servers $342,986
Replace/Install/Remove Valve replacement, installation and removal $185,822
Installation System extension – new watermain $11,393,535
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Table 1.2.2: Significant Expenses for South Peel Drinking Water System – Lakeview WTP
Activity Type Activity Description Approximate Expenditure
Repair
Building repair/maintenance $299,681 Corrosion Abatement work $52,024 Pump refurbishment $92,163 Generator maintenance $44,235
Replacement
Chlorine pipes $149,352 Heat Exchanger $47,209 Valves $89,374 Ultraviolet (UV) bulbs $61,977 Ozone analyzers $72,722 Flow meter $36,000 Solar panel $5,000 Harmonic Filters $17,686 Pump seals $35,000 OBM1 variable frequency drives $17,190 Vacuum priming system $72,148 Guarding on pumps $95,000 Intake pipe chlorine and sampling lines and new chlorine feed system $1,330,251 Mechanical Screen $415,630 OBM1 ultrafiltration membranes $7,704,991 Server upgrades $100,000
Installation
Sulphuric acid transmitter $1,000 High voltage electrical switches $335,000 Administration building HVAC system modifications $159,077 Energy Charging Station $50,000 Polymer skid variable frequency drive $6,000 Dehumidification system for process waste treatment facility $155,438 Chlorine shut off valves $408,340 Construction of new ultraviolet (UV) facility $8,000,000 Rehabilitation within the conventional water treatment plant and process waste treatment facility $13,006,000
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Table 1.2.3: Significant Expenses for South Peel Drinking Water System - Lorne Park WTP
Activity Type Activity Description Approximate Expenditure
Repair
Sodium hypochlorite room refurbishment $43,502 High lift pump $24,817 Conventional plant conduit air relief $1,909 Intake pipe $15,900
Replacement
Pumping station cooling coils $56,181 Ultraviolet (UV) unit flow meters $3,300 Pumping station lights $33,835 Sodium hypochlorite pipes $38,717 Low lift pumps seals $37,171 Server upgrades $25,000
Removal Dead trees $19,600
Installation Bridge crane limit switches $2,914 Pressure zone disconnection $117,695
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2. How is Water Treated?
2.1 Lakeview Water Treatment Plant (Drinking Water Works Number 210000568)
Located on the north shore of Lake Ontario, the Lakeview Water Treatment Plant (WTP) serves
primarily the east side of Mississauga and Brampton, as well as parts of Caledon, including the
community of Bolton, and provides water to York Region. Lakeview WTP is comprised of three
treatment processes: a conventional water treatment plant and two advanced treatment plants
consisting of ozone, biologically active carbon contactors and membrane filtration, one
additionally using ultraviolet (UV) light disinfection. The Lakeview Water Treatment Plant is
capable of producing up to 1,150 million litres of treated drinking water per day.
Figure 1: Lakeview Water Treatment Plant
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Conventional Treatment
Conventional treatment consists of the following steps: coagulation, flocculation, sedimentation,
filtration, plus chlorine disinfection. Refer to Section 2.3 for a detailed description.
Ozone, Biologically Active Carbon Contactor and Membrane Filtration (OBM) Treatment
The OBM treatment process consists of ozone, biologically active carbon contactor (BACC)
treatment and membrane filtration. Refer to Section 2.4 for a detailed description.
Refer to Figure 2 for the Lakeview Water Treatment Plant Process Diagram.
The treatment additives and other products used at the Lakeview Water Treatment Plant during the
reporting period were:
aluminum sulphate (alum) – a coagulant to aid tiny particles in the water to join together to form larger particles that are easier to settle and/or filter out chlorine gas – used to disinfect the water citric acid, sulphuric acid and water softener salt – used to clean the membrane filters sodium hydroxide – used to neutralize the spent membrane cleaning solution sodium hypochlorite – used to clean the membrane filters and discourage mussel growth in the intake pipe hydrofluosilicic acid – used to optimally fluoridate the water to prevent tooth decay liquid oxygen – used to generate ozone gas on-site. Ozone is a strong disinfectant. sodium bisulphite – used to quench residual chlorine and ozone anionic polymer and cationic polymer – used in the wastewater stream to settle out solids
The west side of Mississauga and Brampton is serviced primarily by the Lorne Park Water
Treatment Plant. Several watermains allow water to transfer from either east to west or west to
east. Refer to Figure 5 for the South Peel Water Distribution System Flow Chart.
(http://www.peelregion.ca/pw/water/water-trtmt/lakeview.htm)
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Figure 2: Lakeview Water Treatment Plant Process
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2.2 Lorne Park Water Treatment Plant (Drinking Water Works Number 210001317)
The Lorne Park Water Treatment Plant (WTP) supplies water to primarily the west side of
Mississauga and Brampton and it is located on the north shore of Lake Ontario, largely
underground beneath public park land. Lorne Park WTP has two treatment processes: a
conventional treatment plant with ultraviolet (UV) light disinfection, and an advanced treatment
plant consisting of membrane filtration, UV light, and granular activated carbon contactors
(GACC). The Lorne Park Water Treatment Plant is capable of producing up to 500 million litres
of treated drinking water per day.
Figure 3: Lorne Park Water Treatment Plant
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Conventional/UV Treatment
Conventional/UV treatment consists of the following steps: coagulation, flocculation,
sedimentation, filtration, and disinfection by both UV light and chlorination. Refer to Section 2.3
for a detailed description.
Membrane Filtration, Ultraviolet light, and Granular Activated Carbon Contactor (MUG)
Treatment
The MUG treatment process consists of membrane filtration, UV light, and granular activated
carbon contactor (GACC) treatment. Refer to Section 2.5 for a detailed description.
Refer to Figure 4 for the Lorne Park Water Treatment Process flow.
The treatment additives and other products used at the Lorne Park Water Treatment Plant during
the reporting period were:
aluminum chlorohydrate (ACH) – a coagulant to aid tiny particles in the water to join together to form larger particles that are easier to settle and/or filter out citric acid and sulphuric acid – used to clean the membrane filters sodium hydroxide – used to neutralize the spent membrane cleaning solution hydrofluosilicic acid – used to optimally fluoridate the water to prevent tooth decay hydrogen peroxide – used in the UV advanced oxidation process to destroy taste and odour compounds polymer – used in the wastewater stream to settle out solids sodium hypochlorite – used to disinfect the water and also to clean the membrane filters sodium bisulphite – used to quench residual chlorine (http://www.peelregion.ca/pw/water/water-trtmt/lorne-park.htm)
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2.3 Conventional Water Treatment Process Description
Both Lakeview and Lorne Park WTPs employ conventional treatment processes.
Lake Ontario is the source for the South Peel Drinking Water System. As the lake
water enters the intake pipe, it can be chlorinated. The chlorine kills bacteria and
discourages mussels from growing in the intake pipe and obstructing the flow.
As the water enters the treatment facility, it passes through travelling screens. The
screens prevent items such as fish, sticks, shells, and aquatic plants from entering
the treatment facility and damaging equipment.
Low lift pumps draw the lake water into the treatment plant.
Coagulation assists with the removal of turbidity and suspended matter
(particles) from the water. A coagulant (Alum or ACH) is added to the
water. The rapid mixer thoroughly mixes the coagulant with the water to help
form sticky particles.
Flocculation is the process of slow mixing that helps the sticky
particles collide with each other, forming larger and heavier
particles called floc.
In the sedimentation process, floc particles are removed from the water by inclined plate settlers
(as used at Lorne Park WTP) or the water is slowed down in large tanks
(used at Lakeview WTP) to allow particles to settle to the bottom. The
settled solids are removed and transferred to the wastewater treatment
facility.
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Conventional filtration removes particles and bacteria that were not settled out in the previous
step and filters using GAC media can reduce the quantity of
compounds that can cause unpleasant tastes and odours. The water
filters through layers of granular activated carbon (GAC) or
anthracite, sand and gravel. Water starts at the top of the filter and
moves down between the granules by gravity.
Note: by the end of 2017 all conventional filters at the Lakeview Water Treatment Plant have been
converted from GAC to anthracite media.
When needed, the filters are backwashed (cleaned). Clean water is pumped up and through the
filter media, in a reverse flow, lifting and flushing out the floc particles that have accumulated in
the filter. The backwash water is treated in the process wastewater treatment facility prior to being
discharged to the lake.
The process of disinfection destroys or inactivates harmful disease-causing organisms such as E.
coli and Giardia. Chlorine is the most common disinfectant used in water treatment.
Fluoride is added to the finished water to prevent cavities in our teeth. The finished water is then
stored in a reservoir and distributed to the customers through a series of pumping stations and
reservoirs.
Diesel-powered generators provide auxiliary or standby power for the facility. Standby power
ensures we can provide water in case of an emergency such as a massive power failure.
The water flows through watermains to houses, apartments, schools, and commercial and
industrial premises. Refer to Figure 5 for the South Peel Water Distribution System Flow Chart.
Note: To download a water treatment poster and to learn about the water treatment process, visit:
http://www.peelregion.ca/pw/water/water-trtmt/water-treatment-process.htm
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2.4 Ozone, Biologically Active Carbon, and Membrane (OBM) Water Treatment Process Description (Used at Lakeview WTP)
Low lift pumps draw water from Lake Ontario into the treatment plant.
Ozone gas is generated on site from liquid oxygen and electricity. The ozone is bubbled through
the water in the ozone contactors. Ozone kills bacteria and also
helps to break down substances that cause tastes and odours so
that they are more easily removed in the next treatment step.
The water then passes into the biologically active carbon contactors (BACC). These contactors
remove the biodegradable organic matter produced by the activity of
the ozone process. The BACCs are very good at adsorbing organic
matter from the water and this removal process keeps the water stable
after treatment by minimizing re-growth of bacteria in the distribution
system.
The Lakeview Water Treatment Plant has two OBM treatment plants.
OBM2, commissioned in 2014, has one additional treatment step that OBM1
does not have: ultraviolet (UV) light. The specific wavelength of light
emitted by these UV units inactivates microorganisms so that they cannot
reproduce and cause infections.
In the next treatment process, water passes through the ultra filtration
membrane system. These are specially designed water filters with
very small pores that the water is pulled through. The membrane
filters are so effective that they are capable of removing
microorganisms and producing water with very little turbidity.
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Filtered water is directed to the weir box. The weir box stores water and is also the
location where chlorine and fluoride are added.
Chlorine and fluoride are added to the treated water from both the conventional treatment and the
OBM treatment processes as it flows by gravity into the water storage
reservoir. The water must remain in the storage reservoir until adequate
disinfection has occurred. Water leaves the reservoir by way of High Lift
Pumps and enters the distribution system.
2.5 Membrane, Ultraviolet Light, and Granular Activated Carbon (MUG) Water
Treatment Process Description (Used at Lorne Park WTP)
Low lift pumps draw raw water from Lake Ontario into the treatment plant.
Raw water is pulled through ultra filtration membranes with pores small
enough to filter out particles and many microorganisms.
Filtered water then passes through ultraviolet (UV) light units, which inactivate microorganisms,
for disinfection of the water. These UV units can also be used for a
process called advanced oxidation, which uses hydrogen peroxide,
added upstream of the UV units, and a higher intensity of UV light to
oxidize (break apart) substances that cause tastes and odours. The
advanced oxidation process is used seasonally, when taste and odour problems are at their peak
due to lake conditions.
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The water then flows into granular activated carbon contactors (GACC), where it moves by
gravity down through a matrix of carbon granules. The GACCs eliminate
any residual hydrogen peroxide remaining from the advanced oxidation
process.
Chlorine and fluoride are added to the water on its way into the on-site storage reservoir, from
which it is pumped into the distribution system.
2.6 South Peel Water Distribution System (Drinking Water System Number 260094120)
The drinking water in the South Peel Distribution System is re-chlorinated using sodium
hypochlorite at the North Brampton Pumping Station, Airport Road Pumping Station, and Bolton
South Booster Pumping Station and chlorine gas at the Beckett Sproule Pumping Station.
Drinking water being directed to York Region is chloraminated at the Airport Road Pumping
Station by adding sodium hypochlorite and aqua ammonia at a specific ratio. Refer to Figure 5.
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Figure 5: South Peel Water Distribution System Flow Chart
Lorne Park Water Treatment Plant
Lakeview Water Treatment Plant
Herridge Reservoir &
Pumping Station
Silverthorn Reservoir &
Pumping Station
Streetsville Reservoir &
Pumping Station
Hanlan Reservoir &
Pumping Station
Meadowvale North Reservoir
& Pumping Station
Beckett-Sproule Reservoir &
Pumping Station
East Brampton Reservoir &
Pumping Station
North Brampton Reservoir &
Pumping Station
Airport Reservoir & Pumping
Station
Maple Reservoir & Pumping
Station
York Region
Bolton Elevated Tanks
Snelgrove Elevated Tank
Dixie Booster Station
Bolton North
Booster Station
Bolton Standpipes
Bolton South
Booster Station
Mayfield West Elevated Tank
Battleford Booster Station
West Brampton Reservoir &
Pumping Station
Tullamore Reservoir &
Pumping Station
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3. Region of Peel and Drinking Water Compliance in Ontario Drinking water quality in Peel is regulated by the Ontario Government through the Ministry of the
Environment and Climate Change (MOECC). The Ontario drinking water legislation sets
requirements for municipal system owners and operating authorities with regards to operation and
management, level of treatment, sampling and testing, training and certification of staff, and water
quality notification.
3.1 Annual Water Reports
To comply with the Drinking Water Systems regulation (Ontario Regulation 170/03) under the
Safe Drinking Water Act, 2002, every year, Peel prepares Water Quality Reports that provide
information on quality of water supplied and a Summary Report covering the operation and overall
performance of the drinking water systems.
The Summary Report under Schedule 22 of the Ontario Regulation 170/03 includes a statement of
compliance with the Safe Drinking Water Act, 2002, the regulations, and the terms and conditions
of all the approvals for Peel’s drinking water systems. It also includes a summary of the quantities
and flow rates of water supplied to assess the capability to meet the existing and planned uses of
the water systems. This report is made available to Regional Council by March 31 of each year.
The Water Quality Reports and the Summary Report are made available to the public to ensure
Peel consumers are kept informed. Each year, the reports are posted on the Region of Peel’s web
site (http://www.peelregion.ca/pw/water/quality/reports/) and their electronic or paper copies may
be obtained upon request by emailing the Region at [email protected] or
calling at 905-791-7800 ext. 4685.
Additionally, an ad is placed in the local newspapers to inform the consumers about the
availability of Peel’s Water Quality Reports.
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3.2 Sampling and Testing
In compliance with the drinking water legislation, drinking water systems are required to monitor
the water quality of drinking water to ensure it meets provincial standards.
Peel regularly samples and tests raw, treated and distribution system water for a number of
microbiological, chemical, physical, and radiological parameters. Peel has always had an extensive
water sampling and monitoring program to better understand the quality of source water, to ensure
effectiveness of treatment processes, and to diligently monitor and protect the drinking water
supply. Sampling and testing is conducted by trained and qualified operators, who collect water
samples from various sampling sites throughout the Region and immediately test them for first
water safety indicators. As part of Peel’s water quality monitoring programs, samples are
collected for laboratory analysis for a vast number of health-related and aesthetic parameters.
The Ministry of the Environment and Climate Change (MOECC) requires that all drinking water
testing laboratories be accredited by the Standards Council of Canada (SCC) based on proficiency
evaluation conducted by the Canadian Association for Laboratory Accreditation (CALA) as well
as licensed by the MOECC for all drinking water tests performed. All laboratories used by Peel are
accredited by the SCC, licensed by the MOECC, and adhere to strict drinking water sample
collection, handling and transport protocols as well as analytical methods and reporting
procedures.
3.3 Certified Water Operators
All water treatment plant, distribution system and maintenance operators and technical staff have
appropriate Water Treatment, Water Distribution and Water Quality Analyst certification, as
required by the Ontario drinking water legislation. The MOECC-mandated training and
certification program ensures that all operators are certified to industry recognized standards. Peel
has established a continuing education program for all staff responsible for operating drinking
water systems. The program features in-house training that addresses Peel’s specific needs with
focus on the operation and management of Peel-owned drinking water systems and that offers the
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benefits of increased staff engagement through a custom designed training toolkit tailored to our
business mandates. This helps the operators to gain knowledge of the latest industry practices,
technologies and advanced processes and to effectively maintain system water quality and
quantity.
3.4 Water Quality Notification
In compliance with the regulatory requirements, Peel reports every event of adverse water quality
to the Medical Officer of Health and the MOECC, and initiates timely corrective action to address
and resolve the issue and implement control measures to prevent its recurrence. Peel has
established a notification protocol for reporting of adverse water quality events and makes these
reports and data publicly available in the Water Quality Reports. A summary of reportable events
in 2017 for the South Peel Drinking Water System may be found in Section 4 of this report.
3.5 Water System Inspections
On an annual basis, Peel’s drinking water systems undergo the MOECC inspection program to
confirm compliance with provincial drinking water legislation. The MOECC’s annual inspection
program is an important aspect of drinking water supply to our consumers. Through this program,
the Ministry ensures that Peel meets the sampling, testing and disinfection requirements, treatment
standards, terms and conditions of all Ministry approvals, and staff certification and training
requirements as stated in the Ontario Regulations 170/03, 169/03, and 128/04 under the Safe
Drinking Water Act, 2002.
MOECC inspections provide Peel with an overview of how well our drinking water systems are
doing and how well we meet the province’s stringent regulations. They also provide an opportunity
to review our best management practices and, if necessary, implement new processes to
continually improve the operation and management of Peel’s drinking water systems.
For an overview of all the work the MOECC is doing to protect drinking water in Ontario, please
visit the MOECC website for the Minister of the Environment and Climate Change report:
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https://www.ontario.ca/page/ministers-annual-report-drinking-water-2017 4. How well did we do?
4.1 Operation
To protect the health of the public and to ensure consumers receive clean and safe drinking water,
the Ministry of the Environment and Climate Change (MOECC) has established the Ontario
Drinking Water Quality Standards that make up Ontario Regulation 169/03. These standards are
set to ensure the water is free of disease-causing organisms and harmful or radioactive chemicals
and are reviewed from time to time based on new science and to keep them aligned with the
Canadian Drinking Water Quality Guidelines.
Ontario Regulations 169/03 and 170/03 were amended in 2015. Effective January 1, 2017, there
are new, lower limits for benzene, carbon tetrachloride and vinyl chloride, as well as a new
quarterly sampling requirement for haloacetic acids (HAAs). Additional amendments are being
phased-in over the next four years to allow drinking water system owners and operating authorities
time to collect baseline information and prepare for any necessary treatment process upgrades. The
changes that became effective in 2017 are reflected in Appendix A of this report.
In 2017, Peel monitored water quality by undertaking tens of thousands of process samples and
tests to ensure a safe and clean water supply. Appendix A provides a summary of the water quality
test results.
The MOECC performs annual inspections on all municipal drinking water systems and based on
the inspection findings, the Ministry issues score cards. The score relates to the information and
data review covered by the Ministry Inspector during each inspection. The South Peel drinking
water systems’ overall performance is high, as presented in Figure 6.
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Figure 6: South Peel Systems MOECC Inspection Rating Graph
Notes:
2017 Inspection of the Lakeview Water Treatment Plant was still underway at the time of this
report being issued.
The 2017 South Peel Distribution System score of 94.47% reflects inspection findings that were
largely administrative in nature and did not compromise the quality of the water supply.
For more information on the MOECC inspection methodology, please visit the Ministry’s website:
https://www.ontario.ca/page/application-risk-methodology-used-measuring-municipal-drinking-
water-system-inspection-results
95.69%
94.07%
100%
94.47%
95.67%
96.65%
95.37%
100%
95.75%
88.19%
93.32%
0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100%
2014
2015
2016
2017
Rating (%)
Year
of I
nspe
ctio
n
South Peel MOECC Inspection Ratings
Lakeview WTP Lorne Park WTP South Peel Distribution
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During the period of January 1 through December 31, 2017, the events that were reported to the Medical Officer of Health and the MOECC for the South Peel Drinking Water System are summarized in Tables 4.1.1 to 4.1.3.
TABLE 4.1.1 Summary of 2017 Reportable Events at the Lakeview Water Treatment Plant South Peel (Lakeview) Drinking Water System (Waterworks # 210000568)
AWQI#
Event Date(s)
Parameter/ Process Upset
Result Unit of Measure Corrective Action
136358 Aug 2 Loss of turbidity recording
N/A NTU SCADA communication interruption for 3 hours 24 minutes on
one membrane train. Communication restored. Combined effluent turbidity was satisfactory throughout the event.
AWQI = Adverse Water Quality Incident Reportable = Reportable to the Medical Officer of Health and MOECC under O. Reg. 170/03
TABLE 4.1.2 Summary of 2017 Reportable Events in the Distribution System
South Peel Distribution System (Waterworks # 260094120) AWQI
# Event
Date(s) Event Location Parameter Result Unit of Measure Corrective Action
132256 Jan 16 3185 Mavis Rd, Mississauga
Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
132372 Feb 7 Meadowvale Pumping Station, Mississauga, 1200mm feedermain
Free Chlorine Residual 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
132421 Feb 16 West Bolton Elevated Tank, Caledon
Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
132609 Mar 09
Sampling station at northeast corner of
Eringate Rd & Balmoral Dr, Brampton
Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
132724 Mar 22 Hydrant at property line
valve at 10 Reid Dr, Mississauga
Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
132863 Apr 15 New Hydrant at dead end
of Palston Rd, Mississauga
Total Coliform 2 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
132988 May 3 Oneida and Queensway, Mississauga
Free Chlorine Residual 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
133142 May 24 Hydrant northeast of
Lakeshore Rd & Winston Churchill Bv, Mississauga
Free Chlorine Residual 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
134468 Jul 21 Hydrant at 16 Hale Rd, Brampton
Total Coliform and
E.coli NDOGN N/A
Flushed system and collected 2 sets of re-samples. Re-samples met microbiological
standards.
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Summary of Reportable Events (Continued)
AWQI#
Event Date(s) Event Location Parameter Result Unit of
Measure Corrective Action
134641 Jul 24 Hydrant at South Sheridan Way,
Mississauga
Total Coliform E.coli
1 1 CFU/100mL Flushed system and collected 2 sets of re-
samples.
134670 Jul 26
Dead-end hydrant at 2633 Liruma Rd,
Mississauga (Re-sample from AWQI
#134641)
Total Coliform 1 CFU/100mL BWA Issued by MOH for Oaza Shawarma Plus restaurant, in effect Jul 26 - Aug 1. Re-samples met microbiological standards.
134890 Aug 2 Blow-off hydrant at
3300 Ninth Line, Mississauga
Free Chlorine Residual 0.01 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
134967 Aug 1 Hydrant at 7 Alpha Mills Rd, Mississauga Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
135687 Aug 17 Hydrant at 546 Comanche Rd,
Mississauga Total Coliform 3 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
135843 Aug 24 Hydrant at 6970 Creditview Rd,
Mississauga
Free Chlorine Residual 0.04 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
136210 Aug 30 Hydrant at 4390 Mississauga Rd,
Mississauga Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
136211 Aug 30 Terminal blow-off at
1695 Dundas St, Mississauga
Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-samples met microbiological standards.
136711 Sep 13 Hydrant on Greenmount Rd, west of Gailgrove
Ct, Brampton Total Coliform 30 CFU/100mL Flushed system and re-sampled. Re-
samples met microbiological standards.
136763 Sep 20 Terminal blow-off at
3147 Lenester Dr, Mississauga
Free Chlorine 0.00 mg/L Flushed to restore residual. Samples collected met microbiological standards
136871 Sep 26 Terminal blow-off at
3242 Martins Pine Cres, Mississauga
Free Chlorine 0.00 mg/L Flushed to restore residual. Samples collected met microbiological standards.
136956 Sep 29 End hydrant on Standish Ct, Mississauga Free Chlorine 0.04 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
136984 Sep 27 Hydrant on Baycliffe
Cres, south of Ariel Rd, Brampton
Total Coliform 2 CFU/100mL Flushed system and re-sampled. Re-samples met microbiological standards.
137016 Oct 3 Dead-end hydrant on Phyllis Dr, Caledon Free Chlorine 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
28
Summary of Reportable Events (Continued) AWQI
# Event
Date(s) Event Location Parameter Result Unit of Measure Corrective Action
137171 Oct 10
Hydrant at northeast corner of Tours Rd & Winston Churchill Bv,
Mississauga
Free Chlorine 0.00 mg/L Flushed to restore residual. Samples collected met microbiological standards.
137221 Oct 12 Hydrant at 247 Radley Rd, Mississauga Free Chlorine 0.02 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
137606 Oct 26 Hydrant at 910 Forestwood Dr,
Mississauga Free Chlorine 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
137608 Oct 26
Two blow-off locations on Tredmore Dr, Mississauga (at
Constable Rd and Bromsgrove Rd)
Free Chlorine 0.00 mg/L Flushed to restore residual. Samples collected met microbiological standards.
137715 Oct 31 Hydrant at 910 Forestwood Dr,
Mississauga Free Chlorine 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards.
137927 Nov 6
Hydrant at northwest corner of Wanless Dr
and Veterans Dr, Brampton
Total Coliform 9 CFU/100mL Flushed system and re-sampled. Re-samples met microbiological standards.
137971 Nov 8
Hydrant at northwest corner of Wanless Dr
and Veterans Dr, Brampton
Total Coliform 1 CFU/100mL Flushed system and re-sampled. Re-samples met microbiological standards.
138208 Nov 29 Hydrant at 6600 Hurontario St, Mississauga
Free Chlorine 0.00 mg/L Flushed to restore residual. Samples collected met microbiological standards.
138448 Dec 28 Hydrant at 1365 Dundas Cres, Mississauga Free Chlorine 0.00 mg/L Flushed to restore residual. Samples
collected met microbiological standards. AWQI = Adverse Water Quality Incident Reportable = Reportable to the Medical Officer of Health and MOECC under O. Reg. 170/03 CFU/100mL = colony forming units per 100 millilitres mg/L = milligrams per litre NDOGN = No Data: Overgrown with Non-target bacteria BWA = Boil Water Advisory
29
4.2 Customer Service – Quality and Efficiency
In 2017, all customer calls were responded to and resolved in a timely manner. Peel staff has
made every effort to contact the customers and satisfactorily address their questions. Records of
water quality calls received are logged in Peel’s database and kept on file.
Figure 7: Water Quality Enquiries Customer Service Index
Note: High volume of public enquiries in 2015 due to frozen water services and watermain breaks caused by severe cold winter weather.
30
5. Drinking Water Quality Programs
5.1 Municipal Drinking Water Licensing Program
Under the Safe Drinking Water Act, 2002 (SDWA), all municipal residential drinking water system
owners in Ontario must have a Municipal Drinking Water Licence (MDWL) to operate their
system(s). In order to be issued a Licence, the Ministry of the Environment and Climate Change
(MOECC) requires owners to have the following five prerequisites:
I. Drinking Water Works Permit (DWWP)
A permit describing the drinking water system and giving authority to establish or alter a drinking
water system. Peel holds a valid DWWP for each of its five (5) drinking water systems.
II. Permit to Take Water (PTTW)
A valid permit to take water issued under the Ontario Water Resources Act (OWRA) specifying
the approved rate of water taking. Peel holds a valid PTTW for each of its drinking water sources.
III. An Accepted Operational Plan
The Operational Plan defines and documents the Quality Management System (QMS) for Peel’s
drinking water systems in accordance with the requirements of the MOECC’s Drinking Water
Quality Management Standard (DWQMS). The Operational Plan outlines the policy commitments
and associated procedures, responsibilities and evaluation criteria that ensure drinking water
quality and safety in all processes for water treatment and distribution, from source to tap.
IV. Accredited Operating Authority (Third-Party Audit of the QMS)
Municipal residential drinking water system owners must ensure that at all times, an accredited
operating authority is in charge of the drinking water systems. Peel owns five large municipal
residential drinking water systems. As the operating authority of the South Peel Distribution
System, as well as four groundwater systems in Caledon (Caledon Village - Alton, Cheltenham,
Inglewood, Palgrave - Caledon East), Peel became an accredited Operating Authority in August
31
2011, and has been successfully maintaining this mandatory accreditation. The Ontario Clean
Water Agency (OCWA), under contract, operates the Lakeview and Lorne Park Water Treatment
Plants as well as the South Peel Transmission and Pumping System. OCWA has been, and remains,
an accredited Operating Authority since July 2013.
Full Scope Accreditation recognizes that the operating authority has a QMS in place that conforms
to the DWQMS as documented in the Operational Plan.
The MOECC has designated two accreditation bodies under the SDWA and Peel has worked with
the third-party auditor, SAI Global, who provides accreditation auditing services. Continuance of
accreditation is based on a three-year review cycle comprised of annual offsite surveillance audits
in years one and two; and an offsite systems audit, followed by an onsite accreditation audit in year
three. The onsite verification audit for DWQMS reaccreditation was completed by SAI Global in
February 2015 and included documentation and records review, facility tours and interviews with
staff. Peel achieved full conformance to DWQMS and the current certificate of accreditation,
valid for three years, expires March 2018. The year one and year two surveillance audits under the
new certificate cycle were conducted in February 2016 and February 2017, respectively. The
audits confirmed Peel’s full conformance to the DWQMS, and identified areas to review and
further enhance the internal audit processes.
V. Financial Plan
Ontario Regulation 453/07 Financial Plans mandates municipal drinking water system owners to
prepare a long term strategy to ensure the financial sustainability of drinking water systems. The
Financial Plan for the drinking water systems was first prepared and approved by Council
Resolution in June 2010 and submitted to the Ministry of Municipal Affairs and Housing
(MMAH). The Financial Plan forecasts a period of at least six years and, at a minimum, must be
updated and approved by Council Resolution and resubmitted to the MMAH every five years prior
to an application for the renewal of the municipal drinking water licence. Pursuant to the
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municipal drinking water licence renewal applications, an update to the Financial Plan was
prepared by staff for Regional Council’s endorsement. The Financial Plan (2014-2019) was
adopted by Regional Council in April 2014 and submitted to the MMAH satisfying the
requirements under Ontario Regulation 453/07.
Summary of Approvals and Permits
Peel holds valid approvals and permits, has satisfied all DWQMS accreditation requirements of the
Municipal Drinking Water Licensing Program, and has been operating all its municipal drinking
water systems in accordance with the approvals framework under the SDWA. Municipal drinking
water licences are valid for five years. To ensure continued authority to operate, owners are
required to renew the licences before the expiry date and renewal application deadline. Peel
submitted applications for licence renewal in May 2014 and new licences were issued for each
municipal drinking water system in November 2014. Peel’s current municipal drinking water
licences are due to renew in May, 2019.
To ensure a licence remains current, amendments and reissues occur from time to time to reflect
alterations to the drinking water system and/or changes to system-specific conditions.
For more information on Peel’s Municipal Drinking Water Licensing Program, please visit the
following link: www.peelregion.ca/pw/water/quality/dwqms-peel
5.2 Source Water Protection The Clean Water Act, 2006, (the ‘Act’) came into effect on July 3, 2007, with the promulgation of
the initial set of source water protection regulations. The focus of the legislation is to protect
existing and future municipal sources of drinking water. The source protection process is driven
by locally-based Source Protection Committees comprised of appointed representatives from
municipal, industrial, commercial and agricultural sectors and the public at large. The Region of
Peel falls under the jurisdiction of three Source Protection Authorities as follows:
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• Credit Valley-Toronto-Central Lake Ontario (CTC) Source Protection Authority (SPA);
most of Peel’s groundwater and surface water intakes fall within this SPA
(www.ctcswp.ca)
• South Georgian Bay Lake Simcoe (SGBLS) Source Protection Authority; only Palgrave
Well No. 3 falls within this SPA (www.ourwatershed.ca)
• Halton-Hamilton (H-H) Source Protection Authority; none of Peel’s groundwater systems
or surface water intakes lies within this SPA (www.protectingwater.ca)
Region of Peel has participated in the initial phases of source protection planning by carrying out
technical studies for assessment reports and policy development through representation on the
Source Protection Committees and working groups whose work led to the development of the
Proposed Source Protection Plans.
The Source Protection Plans, for the CTC, SGBLS and H-H SPAs, which include the monitoring
and reporting policies for all significant, moderate and low drinking water threats, were approved
by the Minister of the Environment and Climate Change in 2015. The effective date for the CTC
and H-H Source Protection Plans is December 31st, 2015, and the SGBLS Source Protection Plan
effective date is July 1st, 2015.
Peel is working on implementing the source protection plan policies to meet the requirements of
the Act. In 2017, a new Risk Management Official, an alternate Risk Management Official and a
secondary Risk Management Inspector were appointed by Council to ensure continued program
continuity and coverage at all times.
A comprehensive database management, filing and records keeping system have been developed
using internal resources. These business processes have been in effect since April of 2015. Peel
has also initiated an update to its Official Plan to conform to the approved Source Protection Plans.
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As required under Source Water Protection Plans and Policies, Peel has commenced the process of
risk management planning for existing land uses that have been identified as significant threats to
our drinking water supply.
Peel also established an effective screening process, through which all land development
applications, planning or building permits within a vulnerable source protection area are assessed
for their potential risk to source water. In 2017, Peel issued 22 Notices in conformance with the
Act to proponents who have submitted development applications in source water protection
vulnerable areas.
Vulnerable areas have been delineated for Peel’s new municipal production wells and current
efforts include planning a threats verification exercise to ensure that all properties and land uses
within vulnerable zones are assessed for potential risk to Peel’s groundwater sources.
Peel’s Groundwater Monitoring Program
Peel has designed a comprehensive monitoring network within the WHPAs and Zones of Influence
(ZOI) for each of its municipal water supply wells to:
• Gain in depth knowledge of the groundwater sources supplying the municipal wells
• Monitor surface and groundwater levels and water quality to assess natural conditions
• Determine any potential effects on the ZOI from pumping of municipal supply wells
• Monitor surface and groundwater quality for early detection of potential contaminants
moving towards the aquifers, the source of water for the municipal supply wells.
The water quality monitoring regimen is reviewed from time to time address changes to the
monitoring network and to align it with new policies issued under source water protection plans.
Surface Water Supply Protection
The Collaborative Study to Protect Lake Ontario Drinking Water was a Peel-led initiative that
included 19 municipalities from Niagara Region to Prince Edward County along the Lake Ontario
35
shoreline. Through the Collaborative Project, intake protection zones and threats to the source of
drinking water (Lake Ontario) were identified using an event-based modelling approach. A three-
dimensional model was used to simulate possible contaminant pathways to and within Lake
Ontario and to assess potential concentrations at water treatment plant intakes.
Peel, Toronto and Durham as members of the Lake Ontario Collaborative Group (LOCG) under
the CTC Source Protection Plan are working on various initiatives to ensure measures are in place
to protect the Lake as a shared source of drinking water. Work plan includes spills scenario
modelling, real-time monitoring and future forecasting of spills impact assessments and assessing
spill prevention strategies for Lake Ontario intakes.
5.3 Private Well Abandonment Program The Region of Peel implemented a Private Well Abandonment Program for decommissioning of
old, unused private wells within Peel. This work is performed in accordance with the requirements
of the Ontario Regulation 903. The Program intends to gradually eliminate potential pathways of
groundwater contamination in areas where groundwater is a source for drinking water. The
Program is carried out on a first come, first serve basis, with each request being evaluated for
program eligibility prior to the commencement of any decommissioning work.
A total of 90 private wells throughout Peel were decommissioned under this program in 2017, with
a number of wells waitlisted for completion in early 2018. Participation in this program is
promoted though public events, newspaper ads, electronic newsletters, mobile road signs, as well
as outreach to local community centers and local real estate firms to help promote the program to
individuals living within or moving into rural areas of Peel. Also, internal outreach to groups
within Peel and education about the Private Well Abandonment Program help to maximize
opportunities to inform rural Peel residents about how they can take advantage of the program,
where applicable.
36
For more information on Peel’s Private Well Abandonment Program, please visit
http://www.peelregion.ca/pw/water/water-trtmt/wellhead-abandon.htm or e-mail us directly at
5.4 Watermain Renewal Program
Peel’s overall infrastructure is aging, requiring more investment in preventive and planned
maintenance. In response, Peel has established a comprehensive asset management program,
which includes watermain assessment and renewal. The program is an ongoing plan of upgrading
Peel’s watermain system to ensure long term integrity and sustainability. The program involves
repair or replacement of existing mains and water services to improve water flow, ensure good
quality water and upsize if required to meet future planning needs; all to provide a higher level
service to our consumers.
Peel determines priority of water main replacement based on the following factors:
• Watermain age
• Water quality trends and customer feedback
• Watermain size and material type
• Watermain breaks and leak history
• Hydraulic performance of watermain
• Planned municipal and city projects related to water, wastewater and roads assets
• Cost of replacement
• Operational demands
The majority of the watermain replacement projects are undertaken in partnership and coordination
with road re-construction and sanitary sewer renewal projects for improved cost effectiveness and
minimized public inconvenience. Using these criteria, Peel plans the watermain renewal program
in a financially responsible manner.
37
Every year, the watermain renewal program is allocated funding to replace a significant length of
watermain, with over $57 million being allocated to this project in 2017.
In 2017, 41.7 km of watermain was replaced in the South Peel Distribution System.
5.5 Community Lead Testing Program Established in 2007, Peel’s Community Lead Testing Program fulfills the legislative requirements
under the Ontario Regulation 170/03, Schedule 15.1. The scope of the program includes sampling
and testing of drinking water in Brampton, Mississauga and South Caledon for lead from private
residential and non-residential locations as well as municipal water hydrants.
Peel’s Community Lead Testing Program sampling locations are selected based on the following
criteria:
• Any homes or buildings built prior to 1960
• Any plumbing connected to or suspected to be connected to lead service pipes
• Any plumbing made out of or suspected of being made out of lead
The Community Lead Testing Program is conducted semi-annually between the dates of
December 15 to April 15 and June 15 to October 15 each year.
Every sampling period, Peel staff recruits volunteers of homes and businesses to participate in the
program. Sampling appointments are booked with volunteers over the phone. Upon completion
of sample analysis at a fully accredited and licensed laboratory, the test results reports are mailed
to their respective participants and assistance is provided in interpretation of the data.
Testing performed in 2017 revealed mostly non-detected or very low levels of lead in drinking
water at the tap. All plumbing samples tested met the standard for lead levels in drinking water of
10 parts per billion. Results for 2017 sampling are summarized in Appendix A of this report.
The Region of Peel welcomes the public to participate in our lead testing program, as results of
this program also aid in the asset management and water main renewal initiatives.
38
To check if your residence meets the criteria of our lead testing program, please contact us at 905-
791-7800 ext. 4685 or visit our website: http://www.peelregion.ca/pw/water/quality/lead-in-
water.htm
5.6 Watermain Flushing Program
Peel’s watermain flushing program is another element of the multi-barrier approach to ensuring
safe drinking water. The primary objective of the watermain flushing program is to maintain
adequate chlorine residuals in the water distribution system. Flushing is also conducted to improve
water aesthetics by removing any mineral deposits that may have settled on the bottom of the
mains over time. Under the Safe Drinking Water Act, 2002, Ontario Regulation 170/03 and
Procedure for Disinfection of Drinking Water in Ontario stipulate the acceptable chlorine residual
range. Certified Water Operators measure and record the chlorine residual at each flush. Flushing
is conducted at locations where a low water demand may occur, such as dead-ends and new
subdivisions, and at a greater frequency where demand is lower. Flushing is also conducted
following water system repairs and other situations where a check of chlorine residual is
warranted.
5.7 Hydrant Inspection Program
Peel’s hydrant inspection program fulfils a number of purposes. An annual
inspection is necessary to determine the sustained functionality of each fire
hydrant and hydrant branch valve to ensure they are operable for fire
suppression needs. Fire hydrant components that are in need of repair are
identified during the inspection. Deficiencies that affect the hydrant’s
operability are handled on a priority basis, due to their primary function of
fire protection.
All Region of Peel hydrants display hydrant flow identifiers. These flow identifiers are in
the shape of a Maltese cross. They are colour-coded based on the recommended colour
39
coding scheme by the National Fire Prevention Association and designed to let the fire department
know what the available flow is at the hydrant closest to the fire. The markers are reflective,
making them highly visible at night.
5.8 Drinking Water Sampling Station Program
In 2017, Peel continued with its program to install drinking water sampling stations
throughout the Region of Peel for the purpose of obtaining samples for regulated
water quality testing. The use of sampling stations has reduced the impact on
customers by decreasing the need to enter homes or business facilities where hours
of operation can limit access. In addition to unlimited access, Water Operations
also benefits by having added control over important sampling conditions such as
sample site cleanliness and security.
A number of sampling stations were installed in South Peel in 2017, and that
initiative continues, with sampling stations being installed during water
infrastructure expansion, watermain replacement, and other opportunities.
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APPENDIX A – SUMMARY OF WATER TESTING RESULTS
Water Safety Indicators Information
Escherichia coli (E.coli)
Escherichia coli (E.coli) is a species of fecal coliform bacteria that can be detected using approved lab methods. E. coli is present in fecal matter and prevalent in sewage, but is readily inactivated by chlorine. It is a strong indicator of recent fecal pollution. If E. coli is detected in a sample of drinking water, immediate corrective action needs to be taken and confirmatory samples collected. Total Coliform
Total Coliforms are part of a family of bacteria called Enterics. Coliform bacteria grow under the same conditions as disease-causing bacteria, which makes them useful indicator organisms. Presence of coliform bacteria in a sample of drinking water signifies potential contamination. If coliforms are detected in a sample of drinking water, corrective action needs to be taken and confirmatory samples collected. Heterotrophic Plate Count
Heterotrophic plate count (HPC) results give an indication of the overall quality of the water immediately following treatment and in the distribution system. HPC is not an indicator of water safety but is used as an indicator of water integrity within the distribution system. Disinfection By-products
Disinfection of drinking water is essential to protect the public from waterborne infectious and parasitic diseases. Disinfection inactivates bacteria and other microorganisms in the water and protects the water pipes from any subsequent contamination during storage and distribution. The most commonly used drinking water disinfectant is chlorine, although Peel also uses ozone at one of its facilities. Chemical disinfectants can combine with naturally-occurring organic compounds in the water, potentially leading to the formation of disinfection by-products, including trihalomethanes (THMs), haloacetic acids (HAAs) and bromate.
41
Terms you need to know when reviewing the water testing results in this report
Term Definition
MAC Maximum Acceptable Concentration
IMAC Interim Maximum Acceptable Concentration
Aesthetic Objectives (AO)
AO are established for substances that affect the taste, odour and appearance of water or interfere with water quality control practices. These substances do not affect health.
Operational Guidelines (OG)
OG are established for substances that need to be controlled to ensure the efficient treatment and distribution of water
NTU Nephelometric Turbidity Unit
CFU/mL Colony Forming Units per millilitre
CFU/100mL Colony Forming Units per 100 millilitres
µmho/cm micro mhos per centimetre (equivalent to microSiemens per centimetre)
L Litre
µg/L micrograms per litre. This is a measure of concentration of a substance in water, also called parts per billion (ppb). 1000 µg/L = 1 mg/L
mg/L milligrams per litre. This is a measure of concentration of a substance in water, also called parts per million (ppm).
< less than laboratory analytical detection limit
> greater than
Bq/L Bequerels per litre
Running Annual Average (RAA) The 12-month running average of quarterly results
42
What are my raw (source) water characteristics?
Source: Lake Ontario 2017
Water Parameters Units Lakeview
Result/Range Lorne Park
Result/Range Parameter Information
Conductivity @25°C µmho/cm 310 - 370 310 - 350 Related to inorganics such as minerals
dissolved in water
Fluoride mg/L 0.10 - 0.19 0.11 - 0.20 Naturally occurring; related to mineral content
Hardness mg/L (CaCO3) grains/U.S. Gallon
120 - 130 7.0 - 7.6
110 - 130 6.4 - 7.6
Naturally occurring; related to mineral content, mainly calcium and magnesium
pH * pH units 6.49 - 8.69 6.98 - 8.94 Indicates water acidity
Sulphate (SO4) mg/L 24 - 27 24 - 26 Naturally occurring
Temperature * oC 2.36 - 23.43 4.28 - 27.60 Varies seasonally
Turbidity * NTU 0.11 - 100 0.07 - 62.07 Tiny suspended particles of organic or inorganic matter
* Data from continuous monitoring analyzers Summary of Microbiological Testing for South Peel (Lakeview, Lorne Park, and Distribution) Drinking Water System
Sample Type Number of Samples
Range of E. coli Results (CFU/100mL) (Min - Max)
Range of Total Coliform
Results (CFU/100mL) (Min - Max)
Number of HPC Samples
Range of HPC Results (CFU/mL)
(Min - Max)
Raw 208 0 - NDOGT* 0 - NDOGT** 208 0 - 340
Treated † 468 0 - 0 0 - 0 468 0 - 98
Distribution † 3915 0 - 0 0 - 1 3915 0 - 42 † Ontario Drinking Water Quality Standards: E. coli = 0 CFU/100mL; Total Coliform = 0 CFU/100mL
NDOGT – No data due to overgrowth of total coliforms and/or E.coli. * Aside from one result of NDOGT, the raw water E.coli ranged from 0 – 16 CFU/100mL ** Aside from one result of NDOGT, raw water Total Coliform ranged from 0 – 150 CFU/100mL
43
Summary of Results for Inorganic Parameters per Schedule 23 of O. Reg. 170/03 Tested at an Accredited, Licensed Laboratory on Annual Grab Samples of Treated Water
Test Parameter Units MAC Lakeview Result(s)*
Lorne Park
Result Parameter Information
Antimony (Sb) µg/L 6 <0.50 <0.50 Naturally occurring metalloid rarely detected in Ontario Drinking Water
Arsenic (As) µg/L 25 <1.0 <1.0 Sometimes found in high concentrations in ground water in hard rock areas through the natural dissolution of arsenic-containing minerals
Barium (Ba) µg/L 1000 23, 22 24 Common in sedimentary rocks
Boron (B) µg/L 5000 24 26 Normally found in very small levels in drinking water
Cadmium (Cd) µg/L 5 <0.10 <0.10 Rare element unlikely to be present as natural contaminant in drinking water
Chromium (Cr) µg/L 50 <5.0 <5.0 Trivalent chromium naturally occurs and is not considered toxic
Mercury (Hg) µg/L 1 <0.10 <0.10 Sources in drinking water can be air pollution, waste incineration and metal refining operations
Selenium (Se) µg/L 10 <2.0 <2.0 Naturally occurs in water at trace levels
Uranium (U) µg/L 20 0.36, 0.38 0.28 Normally present in mineral deposits and biological systems
*There are two sampling locations at Lakeview, one from each of the two reservoir cells
Summary of Community Lead Testing Program Results per Schedule 15.1 of O. Reg. 170/03 Tested at an Accredited, Licensed Laboratory on Plumbing and Distribution Water Samples Test and Location Units MAC Range of Results
(Min – Max) Number of
Samples Number of
Exceedances Parameter
Information Lead in Plumbing* µg/L 10 <0.50 - 5.3 76 1 Present as a result of
corrosion of lead solder, lead containing brass fittings or lead pipes
Lead in Distribution System µg/L 10 <0.50 - 0.90 25 0
pH in Plumbing* pH units N/A 7.31 - 8.42 38 N/A Indicates water acidity pH in Distribution
System pH units N/A 7.57 - 8.73 25 N/A
Alkalinity in Distribution System mg/L N/A 89 - 230** 25 N/A
Water resistance to effects of acids added to water
*Plumbing represents samples collected from a tap within a residential home or commercial building **Aside from one result of 230 mg/L, alkalinity measured within the range of 89 – 96 mg/L Note: Alkalinity and pH are operational parameters. Alkalinity aesthetic objective is set at 500mg/L. Optimal range for drinking water pH is 6.5-8.5.
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Summary of Results for Organic Parameters Tested per Schedule 24 of O. Reg. 170/03 at an Accredited, Licensed Laboratory on Annual Grab Samples of Treated Water Note: Organic parameters are present to some degree in all water supplies. The Region of Peel tests these parameters to ensure the water meets the Ontario Drinking Water Quality Standards.
Test Parameter Units MAC Lakeview Result(s)*
Lorne Park Result Parameter Information
Alachlor µg/L 5 <0.50 <0.50 Herbicide for weed control banned in 1985
Atrazine + N-dealkylated metobolites µg/L 5 <1.0 <1.0 Herbicide on corn crops for grass control. It is
highly persistent and moderately mobile in soil
Azinphos-methyl (Guthion) µg/L 20 <2.0 <2.0 Insecticide against foliage-feeding insects
Benzene µg/L 1 <0.10 <0.10 Present in gasoline and other refined petroleum products
Benzo(a)pyrene µg/L 0.01 <0.0090 <0.0090 Formed during the incomplete burning of organic matter and poorly adjusted diesel exhaust
Bromoxynil µg/L 5 <0.50 <0.50 Herbicide for control of specific weeds
Carbaryl µg/L 90 <5.0 <5.0 Insecticide used in agriculture and forestry
Carbofuran µg/L 90 <5.0 <5.0 Insecticide used in agriculture
Carbon Tetrachloride µg/L 2 <0.10 <0.10 Only found in ground water from old chlorinated solvent industry sites
Chlorpyrifos µg/L 90 <1.0 <1.0 Common insecticide used on agricultural crops
Diazinon µg/L 20 <1.0 <1.0 Insecticide for common household pests, flies, ants and cockroaches
Dicamba µg/L 120 <1.0 <1.0 Herbicide for weed control in grain crops
1,2-Dichlorobenzene µg/L 200 <0.20 <0.20 Used in products such as degreasers and inks
1,4-Dichlorobenzene µg/L 5 <0.20 <0.20 Was widely used in toilet pucks and mothballs, banned in 1988
1,2-Dichloroethane µg/L 5 <0.20 <0.20 Used as a solvent and fumigant
1,1-Dichloroethylene (vinylidene chloride) µg/L 14 <0.10 <0.10
Used in the food packaging industry and the textile industry for furniture and automotive upholstery
Dichloromethane (Methylene Chloride) µg/L 50 <0.50 <0.50 Industrial solvent for paint and degreasing
agent
2-4 Dichlorophenol µg/L 900 <0.25 <0.25 Present in drinking water only as a result of industrial contamination
continued on next page
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Organic Parameters (Continued) Test Parameter Units MAC Lakeview
Result(s)* Lorne Park
Result Parameter Information
2,4-Dichlorophenoxy acetic acid (2,4-D) µg/L 100 <1.0 <1.0 Herbicide for cereal crops and lawn weed
control
Diclofop-methyl µg/L 9 <0.90 <0.90 Herbicide for grass control in grains and vegetables
Dimethoate µg/L 20 <2.5 <2.5 Miticide and insecticide
Diquat µg/L 70 <7.0 <7.0 Herbicide used as a desiccant in seed crops
Diuron µg/L 150 <10 <10 Herbicide for control of vegetation in crop and non-crop areas
Glyphosate µg/L 280 <10 <10 Herbicide for weed control
Haloacetic acids (HAA) † µg/L 80 ‡ 10.3 Primarily produced by the reaction of chlorine and natural organics
Malathion µg/L 190 <5.0 <5.0 Insecticide used on fruits and vegetables
2-Methyl-4-chlorophenoxyacetic acid
(MCPA) µg/L 100 <10 <10 Herbicide used on agriculture sites, fine turf,
forestry applications and at industrial sites
Metolachlor µg/L 50 <0.50 <0.50 Selective herbicide for pre-emergence and pre-plant broad leaf weed control
Metribuzin µg/L 80 <5.0 <5.0 Herbicide for control of weed and grasses
Monochlorobenzene µg/L 80 <0.10 <0.10 Industrial solvent
Paraquat µg/L 10 <1.0 <1.0 Highly toxic herbicide used for desiccation of seed crops
Pentachlorophenol µg/L 60 <0.50 <0.50 Formerly used extensively as a pesticide and wood preservative; environmentally persistent
Phorate µg/L 2 <0.50 <0.50 Insecticide for sucking insects and larvae
Picloram µg/L 190 <5.0 <5.0 Herbicide for broad leaf weed and brush control on roads
Polychlorinated Biphenyls (PCBs) (Total) µg/L 3 <0.05 <0.05 No longer used but environmentally persistent
Prometryne µg/L 1 <0.25 <0.25 Herbicide used on select grass and weeds
Simazine µg/L 10 <1.0 <1.0 Herbicide for pre-emergence weed control
Total Trihalomethanes (THM) † µg/L 100 26.0 Primarily produced by the reaction of chlorine
and natural organics
Terbufos µg/L 1 <0.50 <0.50 Insecticide
continued on next page
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Organic Parameters (Continued) Test Parameter Units MAC Lakeview
Result(s)* Lorne Park
Result Parameter Information
Tetrachloroethylene µg/L 30 <0.10 <0.10 Industrial solvent
2,3,4,6-Tetrachlorophenol µg/L 100 <0.50 <0.50 Formerly used to preserve wood
Triallate µg/L 230 <1.0 <1.0 Herbicide for wild oat control in crops
Trichloroethylene µg/L 5 <0.10 <0.10 Industrial solvent
2,4,6-Trichlorophenol µg/L 5 <0.50 <0.50 Pesticide
Trifluralin µg/L 45 <1.0 <1.0 Herbicide for summer weed control
Vinyl Chloride µg/L 1 <0.20 <0.20 Synthetic chemical used in making plastic items
* There are two sampling locations at Lakeview, one from each of the two reservoir cells †Running annual average of samples collected quarterly in the water distribution system ‡ This MAC becomes effective on January 1, 2020
During the 2016 reporting period, one test parameter included in Schedules 23 and 24 of O. Reg. 170/03 was subject to increased sampling frequency in 2017 as a result of exceeding half of the Maximum Acceptable Concentration. Dichloromethane was detected in one sample in 2016 as a result of suspected cross-contamination from dichloromethane-preserved sample bottle in the same shipping container. Sampling frequency for dichloromethane was increased and tested for four consecutive quarters as required by O. Reg. 170/03 Sched. 13 ss. 13-5. Re-sample and all subsequent sample results have been satisfactory.
Summary of Results for Radiological Parameters Tested at an Accredited, Licensed Laboratory on Annual Grab Samples of Treated Water
Test Parameter Units MAC Lakeview Result(s)
Lorne Park Result Parameter Information
Gross Alpha Bq/L - <0.10 <0.10 Most common in groundwater where natural radionuclides are present at low concentrations in rocks and soils. Also monitored in areas near nuclear facilities.
Gross Beta Bq/L - <0.10 <0.10
Tritium Bq/L 7000 <15 <15
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Operational Parameters - Annual Minimum, Maximum, and Mean (Average) Results Treatment Plants
Parameter Number
of Samples
Units Acceptable
Range / Upper Limit
Results Minimum, Maximum, Mean (Average)
Lakeview Lorne Park
Min Max Mean Min Max Mean
Treated Water Turbidity 8760* NTU 1.0 0.01 4.50 0.030 0.01 0.72 0.041
Free Chlorine Residual Primary Disinfection 8760* mg/L 0.05 - 4.00 0.34 1.95 1.21 0.88 1.72 1.302
Treated Water Fluoride 8760* mg/L 1.5 0.20 0.82 0.66 0.20 0.84 0.67
Conventional Filter Effluent Turbidity 8760* NTU 0.3 / 1.0 a 0.02 1.34c,d 0.039 0.02 2.94c,d 0.051
Membrane Filter Effluent Turbidity 8760* NTU 0.1 / 1.0 b 0.007 1.00c 0.013 0.01 0.999 0.016
* 8760 represents continuous monitoring, which sample at a minimum frequency of once per minute. Occasional outlying results occur due to equipment maintenance, programming updates, or signal anomalies.
a Conventional filter effluent turbidity must not exceed 1.0 NTU for greater than 15 minutes and must be below 0.3 NTU in 95% of the readings each month. These requirements were met throughout the 2017 year. b Membrane filter effluent turbidity must not exceed 1.0 NTU for greater than 15 minutes and must be below 0.1 NTU in 99% of the readings each month. These requirements were met throughout the 2017 year. c Brief turbidity spikes occur occasionally due to air bubbles in the continuous monitoring equipment. d Filter effluent turbidity was above 1.0 NTU for less than 15 minutes on 17 occasions during 2017. Refer to footnote a Distribution System
Parameter Number of Samples Units Acceptable
Range Range of Results
Minimum - Maximum Average Result
Free Chlorine Residual Secondary Disinfection 3915* mg/L 0.05 - 4.00 0.08 - 1.86 1.02
*represents the number of samples collected per O. Reg. 170/03 Schedule 7 Section 7-2 (3) to (4)
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Summary of Results for Bromate testing on Treated Water at the Lakeview Water Treatment Plant, as Required by the Municipal Drinking Water Licence, Tested at an Accredited, Licensed Laboratory
Sampling Location Units Licence Requirement Range of Results (Min - Max)
Annual Mean (Average)
Bromate
Lakeview WTP Treated Water mg/L ≤ 0.01 as a running annual average of monthly results <0.003 - <0.003 <0.003
Note: Bromate is a disinfection by-product of ozone disinfectant in the presence of bromide in the source water. Refer to description of disinfection by-products on Page 38. Summary of Results for Total Suspended Solids (TSS) and Total Chlorine Residual on Process Wastewater (filter backwash residue management) at the Lakeview and Lorne Park Water Treatment Plants, as Required by the Municipal Drinking Water Licence, Tested at an Accredited, Licensed Laboratory
Sampling Location Units Licence Requirement Range of Results (Min - Max)
Annual Mean
(Average) Total Suspended Solids (TSS)
Lakeview WTP Off-Shore Primary Discharge
mg/L ≤25 as an annual average 1 - 46 6.94
Lorne Park WTP Wastewater Supernatant
mg/L ≤15 as an annual average 5 - 20 10.63
Total Chlorine Residual*
Lakeview WTP Off-Shore Primary Discharge
mg/L ≤ 0.03 0.00 - 0.06 0.00506
Lorne Park WTP Wastewater Supernatant
mg/L ≤ 0.03 0.00 - 0.03 0.00113
Note: The Municipal Drinking Water Licence provides approval for discharge to additional locations to which no discharge was directed during this reporting period. *Data from continuous monitoring analyzers a Test results exceeding Licence Requirement were reported to MOECC Spills Action Centre as required
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Summary of Results for Other Parameters Tested at an Accredited, Licensed Laboratory on Grab Samples of Treated Water
Test Parameter Units Type of
Objective
Acceptable Range / Upper Limit
Lakeview Result(s)/
Range
Lorne Park Result / Range
Parameter Information
Alkalinity mg/L OG 30 - 500 90 - 98 92 - 98 Water resistance to effects of acids added to water
Chloride mg/L AO 250 27 - 40 26 - 39 Non-toxic material naturally present in drinking water.
Conductivity @25oC µmho/cm N/A N/A 320 - 380 320 - 380 Related to inorganics such as
minerals dissolved in water
Copper (Cu) µg/L AO 1000 <1.0 25 - 29 Naturally occurring and also used extensively in domestic plumbing
Fluoride (F)† mg/L MAC 1.5 0.60 - 0.67 0.59 - 0.77 0.52 - 0.56 Added to water in optimum level
for control of tooth decay
Hardness‡ mg/L (CaCO3) grains/US Gallon OG 80 - 100
4.7 - 5.8 110 - 120 6.4 - 7.0
110 - 130 6.4 - 7.6
Naturally occurring; related to mineral content, mainly calcium and magnesium
Iron (Fe) µg/L AO 300 <100 <100 Naturally occurring in mineral deposits and from sediment decay
Lead (Pb)† µg/L MAC 10 <0.50 <0.50 Present as a result of corrosion of lead solder, lead-containing brass fittings or lead pipes
Manganese (Mn) µg/L AO 50 <2.0 <2.0 Naturally occurring in mineral
deposits and from sediment decay
Nitrate (NO3)†
mg/L as N MAC 10.0
0.47, 0.47 0.51 Present in ground water as a result of plant or animal material decay, fertilizers, sewage or treated wastewater
0.53, 0.55 0.47 0.37, 0.38 0.29 0.26, 0.29 0.27
Nitrite (NO2)†
mg/L as N MAC 1.0
<0.010, <0.010 <0.010 Present in ground water, and is oxidized to nitrate when chlorinated
<0.010, <0.010 <0.010 <0.010, <0.010 <0.010 <0.010, <0.010 <0.010
pH* pH units OG 6.5 - 8.5 6.88 - 8.35 6.82 - 8.32 Indicates water acidity
Sodium* mg/L AO 200 15 - 24, 14 - 24 15 - 24 Naturally occurring or due to water softening
Temperature** oC AO 15 2.04 - 22.05 4.40 - 25.0 Varies seasonally Total Dissolved
Solids mg/L AO 500 170 - 200 160 - 200 Refers mainly to inorganic substances dissolved in water
Note: Nitrate and Nitrite are sampled quarterly. † There are two sampling locations at Lakeview, one from each of the two reservoir cells, reported separately here ‡Hardness levels between 80 and 100 mg/L are considered to provide an acceptable balance between corrosion and incrustation. Water supplies with hardness greater than 200 mg/L are considered tolerable while those in excess of 500 mg/L are unacceptable for most domestic uses. *The Medical Officer of Health is notified when sodium concentration exceeds 20 mg/L (MAC), per O. Reg. 170/03 **Data from continuous monitoring analyzers
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APPENDIX B – FREQUENTLY ASKED QUESTIONS AND ANSWERS ON WATER QUALITY
Is my water safe to drink?
To protect public health, the Ministry of the Environment and Climate Change has established the
Ontario Drinking Water Quality Standards. These standards help ensure that water used by the
public is free from disease-causing organisms, harmful amounts of toxic chemicals and radioactive
materials.
Why do we use chlorine?
Chlorine is used to kill bacteria, viruses and other organisms that can cause illness. Ontario
Regulation 170/03 regulates the amount of chlorine that must be added. The regulation states that
we must maintain free chlorine residual at a minimum level 0.05 mg/L and should not exceed a
maximum level of 4.0 mg/L.
Is the water hard?
The water in the South Peel system is considered to be moderately hard. Hardness is typically
dissolved calcium and magnesium in the water measured as calcium carbonate. Upon heating, hard
water has a tendency to form scale deposits or a white film and can form excessive scum with
regular soaps. Conversely, soft water may result in accelerated corrosion of water pipes.
Should I buy a water softener?
The purchase of a water softener is based mostly on personal preference. Soap suds are formed
more readily with soft water, therefore less detergent is used. The use of a water softener also
reduces the formation of hardness scale in pipes and hot water tanks. Some consumers do not like
the feel of soft water. For example, after rinsing with soft water you may still feel a soap film on
your skin.
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Why does my kettle get a white film inside?
When water is boiled, calcium and magnesium precipitate out of the water and deposit on the
element and inner surfaces of the kettle. This does not pose a health risk. The deposit can be
controlled by regular rinsing with vinegar or lemon juice.
Why does the water sometimes look “cloudy” or “milky”?
Tiny bubbles of air in the water cause the cloudiness. Those bubbles may also cause the water to
appear white or foamy, similar to the appearance of water in a rushing stream. This does not
indicate any problem and clears when the water is left to stand for a few minutes. This is an
aesthetic issue, not a health concern. If cloudy water persists, please notify the Region of Peel so
that the matter can be investigated.
Is fluoride added to my water?
Fluoride is added to the South Peel drinking water supply, which serves the cities of Brampton and
Mississauga and southern parts of Caledon, including the community of Bolton. The amount of
fluoride in the drinking water supply is regulated and is maintained at an optimal level to prevent
tooth decay.
Why does the water sometimes look “rusty”, yellow or Tea-like?
Excessive levels of iron in drinking water may impart a yellow to brownish colour, often seen on
laundered items, plumbing fixtures and in the water itself. Running your tap for a few minutes can
clear the colour. No health risks are associated with this discolouration. If you are experiencing
problems and your neighbours are not, the hot water tank or the pipes in your home are likely
causing the problem.
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Does the Region of Peel knock on the door to test water or leave a bottle to fill?
Some of our water programs require testing on private premises, such as residential homes or
businesses. This would only be done by Peel with prior arrangements with the owner or tenant of
the premise. Based on the stringent provincial guidelines, drinking water samples must be
collected and handled by qualified persons and analysed at an accredited laboratory; therefore,
Peel staff would not leave a bottle at the door requesting a sample of water for testing, and will
always carry a Region of Peel identification card.
There are many responsible home water treatment businesses that offer products that live up to
their claims. Unfortunately, some companies and salespersons resort to grabbing the public’s
attention and misinforming them about the safety of the municipal drinking water supplies in an
effort to sell their products.
As of March 1, 2018, door to door sales of water heaters and treatment devices will be prohibited
by the Government of Ontario. To ensure that you are informed about the water quality in Peel
and less likely to become a target for a company trying to sell you costly and inappropriate water
treatment equipment, or if you have questions or concerns, please contact our Water Quality Team
at 905-791-7800 ext. 4685 or via e-mail to [email protected]. You can find
more information on our website at http://www.peelregion.ca/articles/door-to-door-agents.asp
Will you come to my house and take a sample?
If your water is supplied by the Region of Peel then you have no reason for concern about the
safety of your drinking water. The Region of Peel operates, maintains and monitors its municipal
drinking water systems in accordance with stringent provincial regulations and Peel’s drinking
water continually meets the established water quality standards.
Some of our water programs require testing on private premises, such as the Community Lead
Testing Program. This testing would only be done by a certified Region of Peel operator with prior
53
arrangements made with the owner or tenant. More information about the Community Lead
Testing Program can be found in Section 5.5 of this report.
The Region of Peel collects a large number of samples from its drinking water systems to
demonstrate high quality water supply. The Region will only respond to a customer
enquiry/request by undertaking sampling at private taps if there is reason to believe that water
quality has been compromised that impacts both the tap water and municipal supply system.
Region staff occasionally sample at residential or commercial taps in conjunction with nearby
work in the private or municipal water system. Region staff will carry a Region of Peel
identification card.
Why is lead sometimes present in water?
Lead is a metal that can dissolve in water. Historically, lead compounds were used in plumbing
fittings and in solder to join pipes together in water distribution systems. If water stays in a piping
system that contains lead for long periods of time, lead may dissolve into the water.
How does lead affect my health?
For more information contact Peel Health at http://www.peelregion.ca/health/
To view our Lead Pamphlet, please visit:
https://www.peelregion.ca/health/environNew/athome/lead.pdf
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Water Quality at Home Tips
Water Quality Concern Possible Cause Suggested Solutions
Chlorine Odour and Taste
• Chlorine combining with organics • Chlorination of new water mains • Effects of new plumbing • Change of residency as chlorine concentration
in drinking water varies from location to location
Chlorine is necessary to control disease-causing organisms. To minimize chlorine taste and odour in drinking water: • Fill a pitcher and let it stand in the refrigerator overnight • Blend the water for 5 minutes or pour between containers
about 10 times • Boil the water, let it cool, then refrigerate • Home plumbing may be flushed for a minute before water use
(especially in the mornings, after water has remained in pipes overnight)
Musty/Earthy Odour
• Algae that bloom in the lake in the summer produce a metabolite called ‘geosmin’, which causes musty/earthy odour
• The algae are harmless and although the water may not be aesthetically pleasing, it is safe
Rotten Egg/Septic
Odour
• Sink and floor drains • Faucet aerators/screens • Poorly maintained hot water tanks • Dead-end water mains or areas with low water
demand
• Refrain from flushing solids/organics down the drain; stagnant wastewater in the drain may generate foul odours and potentially plug the drain
• Clean faucet aerators and screens on frequent basis • Hot water tanks should be flushed periodically (every 2 to 3
years) to remove rust and scale
Milky/Cloudy Water
• Air trapped in water due to water main breaks, water temperature or pressure change, plumbing work, construction work in the area, water shut-offs
• Hot water tank temperature may be set too high
• Water is safe to drink • Run all cold water taps at once for a couple of minutes to flush
the lines and release the trapped air • Lower the hot water tank temperature if above 140°F(60°C)
Blue/Green Stains on Fixtures
• Copper in water due to copper plumbing • Run water for 30 seconds prior to consumption to reduce the
effects of local plumbing (metal concentration) • Keep fixtures dry and drip-free
Brown/Dirty Water
• Change in water flow due to: o Water main break o Hydrant use o Local Fire o Dead ends
• Poorly maintained hot water tank • No water use for a longer period of time; return
from vacation
• Open cold water faucets and flush water for 5 to 10 minutes, until clear
• Refrain from doing laundry to prevent clothes staining • Hot water tank should be flushed periodically (every 2 to 3
years) • Run cold and hot water separately to verify the cause; if hot
water is the cause - tank needs a flush • Open several faucets and flush the water standing in pipes that
may have dissolved pipe scale material
White Flakes/Particles
• Flakes are scale caused by hardness • Faulty or disintegrating hot water tank tubing
or lining
• Can be reduced by frequent cleaning of faucet aerators/screens and/or regular flushing of hot water tanks
• Contact the hot water tank company
Pink Staining on Fixtures
• Pink pigmented bacteria called Serratia marcescens
• Airborne bacteria; not originating from the water
• Scrub surfaces with a brush, disinfect with a strong bleach solution, allow disinfectant to penetrate for 10-20 minutes, rinse
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Report Accessibility The 2017 Annual Reports can be viewed by the public on-line at: http://www.peelregion.ca/pw/water/quality/reports or picked up at the Region of Peel office located at 10 Peel Centre Drive, Brampton.
Other sources from which you can get more information about drinking water and related issues:
For information on Water Quality: Region of Peel 10 Peel Centre Dr. Brampton ON L6T 4B9 Phone: 905-791-7800 Ext. 4685 Website: http://www.peelregion.ca/pw/water/quality/ E-mail: [email protected]
For information on Lead Testing of Drinking Water: Region of Peel 10 Peel Centre Dr. Brampton ON L6T 4B9 Phone: 905-791-7800 Ext. 4685 Website: www.peelregion.ca/pw/water/quality/lead-in-water E-mail: [email protected]
Region of Peel Public Health 7120 Hurontario St., 8th Floor Mississauga, ON L5W 1N4 Phone: 905-799-7700 Website: http://www.peelregion.ca/health/
230 Advance Blvd. Brampton, ON L6T 4T6 Phone: 905-791-7800 Ext. 4409 Web Site: http://www.peelregion.ca/watersmartpeel/
Ministry of the Environment and Climate Change Public Information Centre Phone: 416-325-4000 Toll-Free: 1-800-565-4923 Web site: http://www.ene.gov.on.ca/
Environment and Climate Change Canada Inquiry Centre Phone: 819-997-2800 Toll-Free:1-800-668-6767 Web Site: http://www.ec.gc.ca