Water Billing - email@example.com
The Revenue Office is responsible for all aspects of water billing from meter reading to the issuance of the bills. We install, remove, and service water meters. We also issue water certificates.
City of Brockville Water Rates can be found on the last page of the Water Rate Bylaw document on the Bylaw page.
Our Collection System
The City’s Wastewater System Division is responsible for the collection and treatment of the City’s wastewater. The wastewater system consists of approximately 113 kms of wastewater collection piping of various sizes, 12 pumping stations and a Conventional Activated Sludge Secondary Treatment Wastewater Plant. In addition to maintaining the collection system and ensuring the wastewater treatment plant is operating within strict government regulations, wastewater staff is also responsible for enforcing the City’s Sewer Use By-law, abatement sampling and public education.
Wastewater that leaves all homes and businesses in the City travels through a series of underground collection pipes to one of our 11 remote Pumping Stations. From there it is pumped to the Main Pumping Station at Centeen Park and then pumped to the Wastewater Treatment Plant. The Wastewater Systems Division maintains all of the above mentioned Pumping Stations and all underground wastewater collection piping from the property lines to the Wastewater Treatment Plant.
The City of Brockville Wastewater Rates Bylaw can be found on the Bylaw page.
Our Secondary Wastewater Treatment Plant
Upon arrival at the Wastewater Treatment Plant the wastewater is screened to remove large materials such as paper and plastics. Grit and heavy inorganic solids are also removed at this point in the treatment system. The wastewater continues to flow through to the primary clarifiers where a portion of the organics is settled out as primary raw sludge. Grease in the wastewater is also removed at this point in the treatment process. The primary raw sludge and any accumulated grease removed during this point of the treatment process are then pumped into our anaerobic digesters.
The wastewater flow leaving the primary clarifiers is called primary effluent. This primary effluent then flows to the aeration tanks where it mixes with Return Activated Sludge (RAS) and is then referred to as Mixed Liquor. The aeration tanks consist of an anoxic zone followed by the aerobic zone. It is in the aeration tanks that the microbiological population present removes contaminants such as Phosphorus, BOD and Ammonia. The aeration tanks are continually supplied with an appropriate amount of dissolved oxygen to keep the microbiological treatment process active.
The biologically treated Mixed Liquor is then directed to the circular secondary clarifiers where the majority of the solids are settled and returned to the beginning of the aeration tanks through RAS pumps. Just prior to the biologically treated mixed liquor entering the secondary clarifiers Aluminum Sulfate is injected into the stream to aid in the removal of additional phosphorus during this settling process. The wastewater flow is now referred to as secondary effluent as the treated wastewater flows over the weirs of the secondary clarifiers and travels on its way to the final step in the treatment process – disinfection. Ultraviolet radiation (UV) is the disinfection process utilized before the final effluent is released to the receiving stream, the St. Lawrence River.
In addition to generating primary raw sludge the secondary treatment process also generates secondary sludge called Waste Activated Sludge (WAS). The WAS is sent to our Rotary Drum Thickeners (RDT’s) prior to being pumped into our anaerobic digesters. The anaerobic digesters are responsible for reducing the amount of sludge solids generated during the treatment process prior to disposal. A byproduct of the digestion process is the production of digester gas. This digester gas is utilized at the wastewater treatment plant by our heating systems. The digested solids are processed through a centrifuge. This process creates a liquid called Centrate which is discharged back into the treatment process and Cake which is a solid product that is transported off site for disposal.
Here is how it all flows...
The Water Systems Division is responsible for the treatment and distribution of the City’s drinking water. The water system consists of approximately 125 kms of water piping of various sizes, 2 pumping stations, an elevated storage tank, an underground reservoir and a direct filtration water treatment plant.
The City’s Water System has a full time staff of 9 including a supervisor, chief operator, instrumentation technician/operator and six (6) water operators.
The City of Brockville’s Water Treatment Plant is located on the St. Lawrence River and serves the City of Brockville (population 22,000) and a portion of the Township of Elizabethtown-Kitley (population 350). The maximum design capacity of the plant is 36 Ml/day (million litres per day).
A 900 mm diameter raw water intake pipe equipped with zebra mussel control is located 294 m from shore at a depth of 10.5 m. Water from the intake enters the low lift pumping station where it is pumped to the main plant. Chlorine and a coagulant are added before the raw water enters the flocculation tanks where particle matter settles out. The water is then filtered by one of the two granular activated carbon filters before it is chlorinated and moved to the clear well and reservoir for storage. Prior to leaving the plant, the water is chlorinated a second time and disinfected by an ultra violet light system and pumped into the distribution system.
Treated water is pumped into the distribution system which consists of approximately 125 km of underground pipes ranging in size from 100 mm to 400 mm in diameter and made of a variety of materials including: cast iron, ductile iron, poly vinyl chloride, concrete, steel, and asbestos cement. In addition there are over 8,330 service connections and 830 fire hydrants.
The City has two water storage facilities; the 1,900 m3 elevated storage tank on Perth Street and the 7,600 m3 underground reservoir on Parkedale Avenue.
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