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Wastewater Treatment 

In the industry, Waste Water Treatment can also be referred to as Wastewater Treatment.

Essentially, Wastewater Treatment is the process used to remove contaminants from wastewater (also sometime referred to as waste water) or sewage. Once the contaminats are removed, wastewater is said to have been converted into an effluent which can be returned to the water cycle with minimum impact on the environment. Alternatively, it also be directly reused.

 Sewage Plant

 

Blowers for Waste Water Treatment

The Waste Water Treatment Industry comprises of companies in the industry that operate sewer systems or sewage treatment facilities that collect, treat, and dispose waste. 

In aerobic waste water treatment, bacteria feeds on organic waste and breaks it down into carbon dioxide, nitrogen, and water. Because the bacteria needs oxygen as part of this process, large quantities of air are bubbled into aeration tanks.

To help reduce energy use, TMC Fluid Systems has introduced an entire line of blowers for use within the waste water treatment industry. This new and proven energy-efficient range of air blowers has demonstrated an average of 30% more energy-efficient operation. 

Depending on the facility's requirements, i.e Flow Rate and Preesure requirements, TMC Fluid Systems can provide the following types of blowers:

  • Regenerative Blowers (also known as Side Channel Blowers). Click on the link for more information on Regen Blowers
  • Twin Lobe Blowers (also known as Positive Displacment Blowers or PD Blowers with twin lobes). Click on the link for more information on Twin Lobe Blowers
  • Tri Lobe Blowers (also known as Positive Displacment Blowers or PD Blowers with three lobes). Click on the link for more information on Tri Lobe Blowers 
  • Turbo Blowers - typically required for the larger facilities where flow and pressure requirements cannot be met by the above types of blowers). Click on the link for more information on Turbo Blowers

Clink on the link to learn more about the "Different Types of Wasterwater"

 

 

News/Events 

  1. Waste No Waste: Time to Embrace Biogas
  2. Is Big Gas finally learning to love biogas?
  3. We need to get behind Renewable Natural Gas
  4. Difference between a Turbo and Positive Displacement Blower
  5. The Difference between Methane and Natural Gas
  6. First Dairy Biogas Project in Connecticut
  7. Does Renewable Natural Gas Have a Future in Energy?
  8. Biogas Offtake Opportunities For Digesters
  9. Wisconsin Dairy Begins Production of Renewable Natural Gas
  10. Anaerobic Digestion Sector Forming a Clearer Picture
  11. Brightmark to Expand Western New York Dairy Biogas Project
  12. Biogas - The Energy Wonder That's Under Our Noses
  13. Power Generation Achieved by a Self-Assembled Biofuel Cell
  14. Less Carbon Dioxide from Natural Gas
  15. Project Uses Renewable Electricity for RNG Production
  16. Smithfield Hog Farm Provides Natural Gas to Missouri City
  17. From Waste to Gas
  18. Gas Clash Threatens Australian Export
  19. Maximizing Opportunities of Anaerobic Digestion from Wastewater
  20. Catalyst to Speed up Conversion of Biomass to Biofuel
  21. How It Works: Ethanol
  22. Anaerobic Digestion - the Next Big Renewable Energy Source
  23. Anaerobic Additions
  24. Three (3) Tech Solutions for Modern Landfills
  25. The Costs and Benefits of Anaerobic Digesters
  26. Bacteria Farts Power Wastewater Plant in Fort Wayne
  27. Europe’s First Poultry Manure Biogas Plant
  28. Electricity Using Pig Manure
  29. $38-Million Biodigester coming to Grand Rapids
  30. Biochar Could Benefit Anaerobic Digestion of Animal Manure

For additonal reading, please visit us at: News Worthy

Difference between a Turbo and Positive Displacement Blower