Water Resource Recovery Facility 3D Virtual Tour

Water Environment Federation

26 Sept 201210:01

Summary

TLDRThe video explains how wastewater is managed through various treatment processes in the United States. It covers the journey of wastewater from homes and businesses, through collection systems, to treatment plants. The process involves removing debris, separating solids, and using biological and chemical methods to purify the water. Advanced treatments like membrane filtration and disinfection make the water safe for reuse or release into natural bodies of water. Solids are processed into biosolids, which can be used as fertilizer. The video highlights the importance of wastewater management in maintaining a clean water environment.

Takeaways

💧 Water and waste from homes and businesses flow through a collection system of pipes, relying mostly on gravity to move, with lift stations used in deeper areas.
🏙️ Many older cities have combined sewers for both stormwater and sewage, which can overflow during heavy storms, increasing the volume of water processed.
🏭 Wastewater reaches over 16,000 publicly owned treatment plants in the US, which serve more than 190 million people.
🗑️ The first stage of treatment, called headworks, removes large debris like trash and grit to protect pipes and equipment.
🌿 Grit removal helps prevent damage to equipment and avoids buildup in later processes, separating heavy particles from organic matter.
🛢️ Primary treatment separates water from solids, removing 90-95% of settleable solids and 50-65% of suspended solids, including oil and grease.
🦠 Secondary treatment uses bacteria to break down nutrients like phosphorus and nitrogen, which can cause environmental issues if not removed.
🌱 Advanced treatment, including membrane filtration, can produce ultra-clean water suitable for reuse in industrial and agricultural settings.
⚡ Anaerobic digestion reduces pathogens and odors in sludge while producing methane, which can be used to generate energy for the treatment plant.
🚜 Biosolids from the final treatment process can be used as fertilizer after disinfection, turning waste into a valuable resource for agriculture.

Q & A

What happens to the water and waste that goes down the drain in homes and businesses?
-The water and waste flow through a network of pipes called a collection system, which leads to wastewater treatment plants. In the U.S., there are about 800,000 miles of collection systems.
How does wastewater typically move through the collection system?
-Wastewater usually moves through the pipes by gravity. When the pipes get too deep, pump or lift stations help move the wastewater to a new section, allowing it to flow downhill again.
What is the purpose of the headworks at a wastewater treatment plant?
-The headworks is the first stage of treatment, where large debris like trash, rags, and cans are filtered out to prevent clogging of pipes and pumps. It focuses on removing inorganic materials.
Why is grit removal important in the wastewater treatment process?
-Grit removal is crucial because grit consists of heavy particles like sand that can erode mechanical equipment and build up in later treatment stages, causing operational issues.
What is the main goal of the primary treatment process in wastewater treatment?
-The main goal of primary treatment is to separate water from organic solids through physical methods such as screening and sedimentation, allowing solids to settle at the bottom.
How does secondary treatment differ from primary treatment?
-While primary treatment uses physical separation, secondary treatment relies on biological processes. Bacteria in aeration basins break down solids and remove nutrients like phosphorus and nitrogen.
What role do bacteria play in the aeration basin during secondary treatment?
-Bacteria in the aeration basin consume organic solids and help reduce their volume. They also remove nutrients like phosphorus and nitrogen, preventing environmental issues like algae overgrowth.
What is the purpose of membrane filtration in advanced treatment?
-Membrane filtration in advanced treatment is used to produce ultra-clean water by forcing water through tiny pores that remove fine particles and microorganisms. This water can be reused for various purposes.
How is wastewater disinfected before being returned to the environment?
-Wastewater is disinfected to remove any remaining harmful microorganisms. Common disinfection methods include chlorine treatment, ultraviolet (UV) light, and ozonation.
What are biosolids, and how are they treated for reuse?
-Biosolids are treated sludge that meets certain criteria for reuse. The treatment process involves reducing pathogens and odors, and concentrating solids through methods like centrifuges and anaerobic digestion. These biosolids can then be used as fertilizer in agriculture.