Wastewater example sentences

"Wastewater" Example Sentences

1. Wastewater treatment plants help clean wastewater before it is released back into the environment.
2. Proper treatment of wastewater is essential to protect local water sources.
3. Wastewater recycling and reclamation have become common methods to reuse treated wastewater.
4. Many homes have wastewater from sinks, showers, toilets and appliances draining to the wastewater system.
5. Primary treatment of wastewater involves removing solid material through screens and sedimentation tanks.
6. Secondary treatment uses biological processes to break down and remove organic material from wastewater.
7. Tertiary treatment further cleans wastewater through processes like filtration and disinfection.
8. Secondary treated wastewater can be reused for landscape irrigation and industrial purposes.
9. Tertiary treated wastewater can meet standards for reuse in toilet flushing and groundwater recharge.
10. Biosolids are the solids remaining after wastewater has gone through treatment.
11. Biosolids can be used as fertilizer after proper treatment and processing.
12. Scientists study wastewater to monitor levels of chemicals, medications and pollutants in communities.
13. Wastewater infrastructure needs upgrades in many communities to properly deal with population growth.
14. Sludge from wastewater treatment plants contains nutrients that can be recycled through incineration or composting.
15. Improperly treated wastewater can contaminate groundwater and surface water with harmful pollutants.
16. Wastewater contains microorganisms, viruses, human waste and chemicals harmful to human health and aquatic life.
17. Metals, oil and excess nutrients from fertilizers end up in wastewater and pollute the environment.
18. Old and damaged pipes in wastewater infrastructure can leak wastewater and contaminate groundwater.
19. Fat, oil and grease poured down drains can cause clogging issues and problems in wastewater systems.
20. Biogas captured from wastewater treatment plants can be used to produce renewable energy.
21. Proper wastewater treatment is essential for public health and sanitation in communities.
22. Wastewater facilities face challenges in removing emerging contaminants like pharmaceuticals and personal care products.
23. Industrial wastewater often needs additional pretreatment before being discharged to municipal wastewater systems.
24. Scientists monitor trends in wastewater to help detect emerging public health issues and outbreaks.
25. Farm runoff containing fertilizer, pesticides and animal waste ends up in wastewater systems.
26. Industrial processes discharge wastewater containing chemicals and pollutants into municipal wastewater systems.
27. Combined sewer systems can overflow and discharge untreated wastewater during heavy rain events.
28. The wastewater industry employs thousands of workers in jobs related to treatment, operations and maintenance.
29. Advanced treatment processes are being developed to remove more contaminants from wastewater before discharge or reuse.
30. Chemicals used in household products like cleaners and personal care items end up in wastewater.
31. Plumbing leaks in homes and businesses can waste wastewater and raise treatment costs.
32. Companies help communities with wastewater management through engineering, consulting and technology solutions.
33. Wastewater professionals work to improve monitoring, treatment efficiency and data analysis at treatment plants.
34. Best management practices help communities conserve water, reduce wastewater and lower costs.
35. Wastewater regulations require facilities to meet certain treatment standards and monitor discharge quality.
36. Stormwater frequently overloads wastewater systems, causing sewer overflows and impacting treatment effectiveness.
37. Wastewater sludge contains pathogens that require proper treatment and disposal to protect public health.
38. Non-point source pollution from agricultural, urban and construction runoff impacts wastewater contaminant loads.
39. Research aims to find new materials, technologies and processes to continue advancing wastewater treatment.
40. Integrated planning considers water resources, wastewater, stormwater and watershed management together.
41. Magnetite nanoparticles show promise for filtering contaminants from wastewater during treatment.
42. Communities face challenges funding wastewater infrastructure upgrades needed to meet future demands.
43. Citizen science projects help gather data on chemicals, microplastics and contaminants in wastewater.
44. Decentralized, community-scale wastewater systems can better serve rural and remote areas.
45. Communities increasingly adopt "One Water" approaches to integrate urban water management.
46. Automation and real-time sensors help improve efficiency, data analysis and process control at wastewater plants.
47. Wastewater reuse helps meet non-potable water demands and eases strain on natural water sources.
48. Many communities face combined sewer overflow issues during heavy rain events that pollute local waterways.
49. Membrane bioreactor processes are helping advance treatment and reuse of municipal wastewater.
50. Communities continue working to raise public awareness of proper wastewater management and the "Don't Pour and Go!" campaign.
51. Scientists collaborate with wastewater professionals to advance knowledge, technologies and solutions.
52. Textiles, plastics and microfibers from washing machines end up in wastewater and impact treatment processes.
53. Wastewater professionals work to reduce energy use and produce renewable biogas during treatment processes.
54. Engineered wetlands provide cost-effective wastewater treatment through natural and biological processes.
55. Citizens can help reduce wastewater flows and contaminant loads through responsible use of household products.
56. University research aims to improve knowledge and find solutions to current and emerging issues in wastewater management.
57. Rural communities face unique challenges providing wastewater collection, treatment and reuse infrastructure.
58. Water conservation and efficiency efforts help reduce total wastewater flows and loads on treatment systems.
59. Wastewater treatment technology continues to advance through new materials, processes, automation and data analysis.
60. Companies work to develop sensors, controls and monitoring systems for more efficient wastewater treatment operations.

Common Phases

1. Wastewater treatment plant
2. Wastewater system
3. Wastewater treatment
4. Wastewater infrastructure
5. Wastewater management
6. Wastewater reuse
7. Wastewater discharge
8. Wastewater facilities
9. Wastewater pollution
10. Wastewater sludge
11. Wastewater contamination
12. Wastewater operations
13. Wastewater efficiency
14. Wastewater overflow
15. Wastewater monitoring
16. Wastewater recycling
17. Wastewater conveyance
18. Wastewater regulations
19. Wastewater sources
20. Wastewater collection