Aeration and Aquaculture Technology
Waterwise Aerator Features
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Complete control of malodor caused by ammonia
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Significant aerobic digestion
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Oxidization of certain heavy metals
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Prevention of any insect breeding on the surface of the water
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Total aeration of the water in any water body regardless of size
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Significant reduction of Phosphorous & Nitrogen
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Rapid odor and BOD reduction
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Blue-green Algae and TSS elimination
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Keeping solids in suspension
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Supplemental aeration where small physical and carbon footprint is required.
Waterwise Aerator 5.9kW Unit
Australian Model Featured
Waterwise Aerator 5.9kW Unit
Australian Model Featured
The Logic
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Understanding that the aeration process in treatment systems quickly accumulates the highest life-cycle cost, we set out to design an all-in-one, turnkey, ‘fit-and-forget’ unit capable of performing the same tasks as traditional systems, yet consuming a fraction of the power typically required.
This resulted in a compact and robust apparatus that is not only safe and easy to install, operate, and maneuver, but it also virtually maintenance free and capable of being entirely solar powered.
Your Business Solution
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Modernize by replacing existing inefficient, ineffective and outdated systems, to bring your operations into the ‘here and now’, with fresh technology that is environmentally friendly.
Eliminate odor, downtime, services costs, bulky ‘eyesore’ machinery, operation and maintenance costs, occupational health and safety risks, wasted treatment space and carbon footprint.
Expand business operations and capabilities to cope with a higher demand or increased workloads. Take advantage of the most cost-effective way to supply aeration to a new plant or additional ponds.
Comply with EPA requirements to avoid closure notices due to emissions audits or receiving complaints from neighboring business and communities. Prevent threats to nearby plan and animal populations.
Quality
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Waterwise aerators are extremely robust as a result of using the best quality componentry available and without having protruding elements (such as shafts) and; reliable due to having no moving parts such as gearboxes or rotors. They exhibit superior corrosion, abrasion, UV and chemical resistance with the use of ‘316’ marine grade stainless steel.
Designed, meticulously hand-crafted and thoroughly quality tested in the Australian factory; these aerators will comfortably operate on a continuous duty cycle with the option of setting a timer for desired
Capability
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Unique operating principal generates widespread water movement of up to 100 meters in all directions above the surfaces while simultaneously perpetuating a massive toroidal vortex beneath the surface for thorough and deep mixing.
The level of sub-surface mixing can be tailored to suit various applications, for instance, completely curbed to avoid mixing the anaerobic layer of a facultative lagoon. High solids handling capabilities are enhanced with the aid of accessories such as chopper pumps. Further expandability allows for real-time data-logging of water quality
Safety
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Compact, lightweight, accessible and maneuverable are characteristics that translate into safe and inexpensive installation and operation. The low operating noise level of less than 40 decibels ensures a peaceful work environment and no hearing damage
There are no blades, rotors or rotating and protruding shafts. No gantries or walkways need to be constructed to install or access the aerators. There are no deep pits to fall into, nor large masses of concrete to fall onto. Complete installation can safely be carried out by two people. Occupational health and safety is barely an issue.
Efficiency
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Low energy consumption and high oxygen transfer rates mean that you can save thousands of dollars in power bills and expect a very short payback period. Low power rating per aerator means that solar power is now an option; resulting in zero power bills.
The included Control Panel ensures that no power fed to the aerator goes to waste. Self-aspiration and ‘flow-through’ design (using natural principles rather than extra parts) results in less total material required, no moving parts (and subsequent parasitic load and friction losses) and less unit workload (hence wear and tear). This ultimately leads to savings in production costs (which are passed on to you), operating energy required and a relatively miniscule carbon footprint.