Water Wave Technologies engineers work nonstop to eliminate microorganisms, infections, and other micropollutants from your drinking water. Our water sanitization frameworks treatment process starts at our creation office. In this area, we assemble turn around assimilation frameworks that are intended to eliminate dregs and particles from unfiltered water like seawater, salty, or faucet water. These frameworks are joined with synthetics, for example, chlorine to break up weighty metals into actual arrangements, which will permit the channels to penetrate through the water. The outcome is a result of unadulterated, consumable water.

First of all, one should use one or more containers. The number of containers depends on the quality on the water that requires treatment. The water purification steps can very from primary treatments, such as oil/ water separation, sedimentation and sand filtration, to secondary treatments, such as membrane filtration (Reverse Osmosis) and ion exchange for demiwater production.
The mobile treatment units perform primary water treatment steps. This means that the water still needs a follow-up treatment after it has left the units. The follow-up treatment is determined by the function that the water will have. When water is purified in a mobile treatment unit it does not need preliminary treatment. The mobile water treatment units do have the opportunity to conduct preliminary water treatment, themselves.
The systems are very complete. The only things that our costumer will need to add to the system are power, water connections and sewer connections.
Benefits of mobile water treatment systems:
The dominant exposure of containerized solutions is its function as a mobile water treatment system for various sites once the task is completed. These systems are compelled to be workable and substential for use in any setting, and come equipped with numerous alternatives. Some of the characteristics that our mobile water treatment systems are designed to address includes:
Water treatment from any source
Seasonal changes in water
Quick delivery
Changes in quality of processed water
Temporary use until a stable system is launched
Benefits of our containerized equipment:
Collaborative solutions that simplify the process.
nherent durability, security, and mobility that provide long-term cost savings.
Safe solutions that protect people, valuable equipment, and technology.
Rapid, guaranteed delivery that eliminates uncertainty.
Controlled testing environment that reduces job site costs and downtime.
Backup equipment and enclosures that reduce operational costs and downtime.
Hassle-free project management that saves time and reduces stress.

Our designing interaction comprises of significant elements that we think about to construct our water refinement frameworks. Here are a portion of these contemplations:

• Exhaustive water investigation: Our specialists plan frameworks intended for every client’s necessities with an itemized water quality report.
• Ecological contemplations: With a finished water investigation, our group will plan a framework to satisfy the needs of our clients working climate. This incorporates accessible utilities, neighborhood environment, offices, and site openness.
• Usefulness: Not just are our frameworks designed to meet the working prerequisites of the gig, our specialists endeavor to plan hardware in light of simple workableness.
• Parts: Our frameworks are planned utilizing industry-standard parts, the majority of which are promptly accessible in many areas.

Most facilities use the activated sludge process, which takes place immediately following the sedimentation tank in the primary stage of treatment. The wastewater enters an aeration tank, where it is mixed with sludge. Air is then pumped into the aeration tank to facilitate the growth of bacteria and other small organisms within the sludge. The bacteria and other microorganisms break down the organic matter in the water into harmless byproducts. The wastewater will remain in the aeration tank for between three to six hours, which gives the bacteria and microorganisms plenty of time to break down all of the remaining organic material. After leaving the aeration tank, the wastewater is usually sent to another sedimentation tank to separate the solids from the water.
Regardless of which method is used, the wastewater will go through one more round of treatment before it is released back into the environment. After the water leaves the sedimentation tank in the secondary stage of the treatment process, it is sent into tanks where it is exposed to chlorine. Wastewater typically spends between 15-20 minutes inside these tanks with chlorine. This chemical kills the harmful bacteria that could be lurking in the water, and it also gets rid of the unpleasant smell of wastewater. Wastewater treatment plants can kill up to 99% of bacteria in water with chlorine, so this is an important step in the process.
Some facilities do not use chlorine to kill bacteria in the final stage of the treatment process. Instead, these facilities use alternatives such as ultraviolet (UV) light or ozone to kill bacteria in the water before releasing it to the environment. These alternatives do not involve the use of chemicals, so they are considered safer for the environment and wildlife.
After the water is sent through this final stage, it is released into waterways in the community. The final stage ensures that the vast majority of bacteria in the water is killed so it will not harm humans, animals, or the environment once it has been discharged.

Membrane Bioreactors combine conventional biological treatment (e.g. activated sludge) processes with membrane filtration to provide an advanced level of organic and suspended solids removal. When designed accordingly, these systems can also provide an advanced level of nutrient removal. In an MBR system, the membranes are submerged in an aerated biological reactor. The membranes have porosities ranging from 0.035 microns to 0.4 microns (depending on the manufacturer), which is considered between micro and ultrafiltration.
This level of filtration allows for high quality effluent to be drawn through the membranes and eliminates the sedimentation and filtration processes typically used for wastewater treatment. Because the need for sedimentation is eliminated, the biological process can operate at a much higher mixed liquor concentration. This dramatically reduces the process tankage required and allows many existing plants to be upgraded without adding new tanks. To provide optimal aeration and scour around the membranes, the mixed liquor is typically kept in the 1.0-1.2% solids range, which is 4 times that of a conventional plant.
Issues Removed By Wastewater Treatment
It elevates discharge volume
It elevates BOD levels
It elevates TDS or TSS levels
It elevates phosphate or nitrate levels
It protects from harmful substances in waste stream
It produces dynamic compliance