OverviewWater purification plays a

Overview
Water purification plays a key role in ensuring access to safe drinking water. Safe drinking water positively impacts the health of the entire community. Systems are in place to ensure ongoing water quality, including water quality testing. The testing helps ensure the water treatment process results in a product that meets federal water quality guidelines. Water analysis involves looking for several kinds of contaminants, including unsafe levels of organic, inorganic, microbial and/or radioactive contaminants.
Screening
Water from lakes, rivers or the ground passes through a screen as it enters the water treatment plant. When the water source is a lake or river, the screen serves an important function, keeping out large natural contaminants such as plants and wood, or fish. If ground water is used, screening may not be necessary since the water has passed through layers of the earth in what is essentially a natural screening function.
Coagulation
Treatment plant workers add alum and other chemicals to the water, which cause tiny sticky particles, or floc, to form. These floc attract dirt particles, making them eventually heavy enough to sink to the bottom of the water storage tank.

Sedimentation
Raw Water is drawn from Lake Erie and the Niagara River at the Sturgeon Point and Van de Water Treatment Plants, respectively. By gravity, water flows through intake tunnels into a distribution chamber in each plant's raw water building. Vertical pumps draw the water through a series of traveling screens, which prevent large debris, such as fish and seaweed, from entering the system. It is then pumped to the main treatment plant to begin the treatment process.
The water flows through rapid mixers where polyaluminum chloride is added. The chemical reaction causes dirt, clay, and bacteria to form a product known as floc, which settles easily out of water. In flocculation basins, large paddles gently stir the water causing the floc to increase in size and density helping it to settle at the bottom of the basin.
Next the water flows to settling basins. The sludge at the bottom of the basin is removed by scrapers and sent to the waste water system.
The partially treated water flows to the filter beds. Chlorine is added to the water for disinfection. The water flows through layers of sand, gravel, and anthracite coal. The filters remove particles, such as viruses, cysts, bacteria and any remaining floc.
Filters are cleaned by backwashing, in which clean water removes the collected sludge from the top of the filter to settling clarifiers. When the backwash water settles, the clear water is recycled back into the water treatment process and the sludge is removed.
Before water enters the distribution system, more chlorine is added to prevent bacteria build up. Fluoride is also added to fight tooth decay. Caustic soda is added to neutralize the acidity and prevent the corrosion of pipes. Finally, high service pumps push the treated water from a clear well reservoir into the distribution system.
Water is sampled and tested throughout the treatment plant to make sure that treatment processes are working and that the water is safe before it leaves the plant. In North America, governments have set strict rules for safe drinking water. When water leaves a treatment plant, it is as clean or cleaner than required by those standards.
ECWA maintains a rigorous purification program that meets and/or exceeds the regulations set by the federal government's Safe Drinking Water Act and the New York State Department of Health.
Water quality is strictly monitored at the ECWA's laboratories to make sure the water is safe and clean to drink. Highly trained chemists test for bacteria, pH levels, turbidity, chlorine residual and other related analysis. The ECWA conducts more than 70,000 tests annually to make sure all federal and state drinking water regulations are met.
ECWA's testing laboratories can find a drop of contaminant in up to 10,000,000 gallons (one part per trillion).