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Article one treatment process


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Article one treatment process

  1. 1. Treatment Process WHAT IS WASTEWATER? Wastewater is liquid waste. It is animal, vegetable, mineral or chemical matter in solution or in suspension that residents and businesses flush down their toilets and pour down their sinks and drains. Wastewater drains into a network of pipes maintained by sewer serviced municipalities and the Regional District of Nanaimo. Sewer systems are built to follow the natural slope of land, generally flowing towards the sea front. This design allows gravity to do most of the work transporting the wastewater to one of four wastewater treatment plants. For residential areas that are lower than adjacent lands or treatment plants, the wastewater must pass through a pumping station to pump the liquid into the plants. Treatment of our wastewater is an essential process that prevents contamination and destruction of our waterways, and our natural water resources. HOW IS WASTEWATER TREATED IN THE RDN? Generally wastewater treatment involves the following processes: Preliminary treatment - The velocity of the wastewater from the sewer lines is reduced as it enters the treatment plant. This allows sand, gravel and other heavy materials to settle out into grit tanks. Mechanical cleaning bar screens then remove rags, sticks, plastic and other foreign objects from the wastewater; this part of the treatment plant is called the headworks. Bar screens may be used before or after the grit tanks.
  2. 2. All removed material collected by grit tanks and bar screens is washed and then taken to a sanitary landfill for disposal. Primary treatment - Primary treatment allows for the physical separation of solids and grease from the wastewater, and removes between 30-40 percent of Biological Oxygen Demand and 50 per cent of Total Suspended Solids. The screened wastewater flows into a primary settling tank where it is held for several hours allowing solid particles to settle to the bottom of the tank. Fats, oil and grease (FOG) are skimmed from the tanks, dried and sent to the landfill. The settled particles are known as primary sludge, which is collected and pumped to large digestion or holding tanks for further treatment and solids processing. Presently, Greater Nanaimo and Nanoose Wastewater Treatment Plants provide primary treatment and discharge treated effluent to the ocean. Secondary treatment - Secondary treatment is a biological treatment process that removes up to 90 percent of BOD and TSS. Following primary treatment, effluent is pumped to the secondary treatment stage. It may take one of several forms; for example, either a trickling filter or a sequencing batch reactor. The growth of microorgisms results from the consumption of organic matter in the wastewater as their food supply. The micro-organisms create a solid organic material (sludge), which just like the sludge from primary treatment. Secondary sludge is thickened and pumped to digesters for processing and solids processing. The French Creek and Duke Point Treatment Plants discharge secondary treated effluent into the Strait Georgia. Final treatment - The wastewater that remains can be disinfected to kill harmful micro-organisms before being released into receiving waters. Although there are many methods available to kill these micro- organisms, ultraviolet disinfection is the method used at Duke Point Pollution Control Centre. This is the only treatment plant in the RDN with this technology. At this stage, the treated wastewater, now called final effluent, is discharged into the marine environment. Solids processing - Primary solids from the primary settling tank and secondary solids from the clarifier are sent to digesters for solids processing. During this process, micro-organisms use the organic material present in the solids as a food source and convert it to by-products such as methane gas and water. Digestion results in a 90% reduction of pathogens and the production of a wet soil-like material called "biosolids" that contain 95-97% water. In order to remove some of this water, mechanical equipment such as a belt filter press or centrifuge are used to squeeze water from the biosolids, reducing its volume prior to being used in soil amendment or composting. MINI GLOSSARY BOD5 (Biochemical Oxygen Demand) is a measure of the quantity of oxygen consumed by microorganisms to break down organic matter in water. A high BOD means that there will be less oxygen; and oxygen is essential for the survival of aquatic life. Thus, high BOD levels result in the contamination of the receiving (marine) environment.
  3. 3. TSS (Total Suspended Solids) are solid pollutants that would be captured on a fine filter paper. They are visible in water and decrease water clarity. High concentrations of TSS can cause many problems for aquatic life.