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The lime saturator is a process unit, designed to make saturated lime water for control of the pH and alkalinity of water in the Water Treatment Plant.
The unit consists of a saturator-clarifier tank and weirs, a hopper, and a sludge rake. The unit includes an inlet and outlet, lime recirculation and slurry dosing, and spent lime solids sludge wasting. Sampling points are also provided.
Hydroflux Epco have extensive expertise and references for Lime Saturators/Clarifiers as follows:
Key Advantages include:
- • Proven bridge construction
- • Elimination of dead zones
- • Free standing design in steel construction
Lime slurry (calcium hydroxide) is fed into the centre of the saturator tank from an inlet pipe, which also carries treated feed water into the tank. The lime-dosed feed water mixes with recirculated flow from the saturator inside a baffle, flowing down through diffuser plates and underneath the baffle to equalise flow into the remainder of the clarifier.
The lime water then slowly rises to the top of the clarifier and flows over V-notch weirs into a collection trough, leading to storage in a limewater tank. The lime-treated water has a higher pH and alkalinity compared to the treated water feed.
This allows for its use in controlling the quality of water for other treatment processes that affect pH and alkalinity, such as coagulation. Excess lime remaining (after the treated water is saturated in the baffle) settles to the bottom of the clarifier to form a slurry, which is kept slowly moving and disposed of through a sludge line at the bottom of the hopper. The saturator also features a recirculation line at the bottom of the hopper, which returns unused lime to the feed well for re-mixing.
As a pioneer in Australia, Hydroflux Epco continues to offer EPCO Australia’s complete design, build, install and refurbishment service. Our commitment to our clients does not end with the delivery of the project and we support our clients so that that their plants continue to operate at their full design capacity well into the future.