Place of Origin: | China |
Brand Name: | CEC TANKS |
Certification: | ISO 9001:2008, AWWA D103 , OSHA , BSCI |
Model Number: | W |
Minimum Order Quantity: | 1set |
Price: | $5000~$20000 one set |
Packaging Details: | PE poly-foam between each two steel plates ; wooden pallet and wooden |
Delivery Time: | 10-30 days after deposit received |
Payment Terms: | L/C, T/T |
Supply Ability: | 60 sets per month |
Detail Information |
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Place of Origin | China | Brand Name | CEC TANKS |
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Certification | ISO 9001:2008, AWWA D103 , OSHA , BSCI | Model Number | W |
Corrosion Resistance: | Suitable For Waste Water Salt Water, Sea Water, High Sulfur Crude Oil, Salt Fox, Organic And Inorganic Compounds | Tank Body Color: | Dark Green / Can Be Customized |
Steel Grade: | ART 310 | Roof Available: | Glass Fused Steel Roof , Membrane Roof, Aluminum Roof , GRP Roof |
Corrosion Integrity: | Excellent | Foundation: | Concrete Or Glass Fused Steel |
High Light: | ART 310 Wastewater Treatment Projects,AWWA D103 Wastewater Treatment Projects |
Wastewater treatment Technologies For Wastewater Treatment Projects
Wastewater treatment is the process of reducing impurities in wastewater to levels lower than can be achieved through conventional secondary or biological treatment."
Why is advanced sewage treatment technology needed?
These advanced treatment solutions have become an area of global concern as individuals, communities and industries identify ways to keep basic resources available and applicable. Advanced wastewater treatment is necessary as societies mitigate the effects of population growth, urbanization, industrialization, and depletion of drinking water.
Wastewater treatment does not always treat wastewater effectively, which can create many problems, including odor problems and health problems. To address these challenges, we have adopted new technologies to treat wastewater.
Through the application of these treatment technologies, the quality of wastewater can be further improved, beyond the limitations of conventional technologies, to achieve the purpose of resource recovery or resource conservation. Wastewater from advanced sewage treatment plants can also be recycled directly or indirectly to increase the amount of water available for domestic use.
Advanced wastewater treatment processes can be biological, physicochemical, or a combination of both.
A biological process
Biological processes remove nutrient pollutants such as nitrogen and phosphorus.
Extended aerated lagoons and bioenhanced phosphorus removal systems are important tertiary treatment technologies for nitrogen removal by intermittent decanting. Extended aerated lagoon system for biological removal of nitrogen from domestic wastewater.
Biological nitrogen removal is a two-step process. The first step is the nitrification of ammonia nitrogen into nitrate nitrogen by nitrifying bacteria, and the second step is the denitrification of nitrate nitrogen into nitrogen gas.
Physicochemical process
Physical and chemical processes include deep bed filtration, floating media filtration and membrane filtration.
Other wastewater treatment technologies include:
Sand filter;
Ozone treatment;
Ultraviolet (UV) is dedicated to the disinfection of pathogenic microorganisms;
Membrane bioreactor (MBR);
Advanced oxidation process (AOP);
Ultraviolet light is combined with advanced oxidation
New treatment technologies can successfully remove a variety of challenging pollutants from wastewater. As the world grapples with dwindling water resources, deep treatment is critical for recycling water used for drinking and non-drinking water.