Zero Liquid Discharge Plant

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KELVIN offers complete thermal and non-thermal ZLD solutions to manage tough-to-treat wastewaters. KELVIN’S proprietary evaporators, brine concentrators, and crystallizers can help recover more than 95% of your wastewater while reducing the remaining brine as a product or solid. KELVIN’S Sievers total organic carbon (TOC) analyzers help control the quality of water to be reclaimed or recycled in semiconductor operations.

Zero liquid discharge technologies help plants meet discharge and water reuse requirements, enabling your business to:

  • Meet stringent cooling tower blowdown and Flue Gas Desulfurization (FGD) discharge regulations.

  • Treat and recover valuable products from wastewater sources.

  • Better manage the generated output water.

  • Control the water quality that is to be reclaimed or recycled.

    What’s included in a basic ZLD treatment system?

    The exact components of a ZLD treatment system will largely depend on the volume of dissolved material present in the waste, the system’s required flow rate what specific contaminants are present. But in general, a basic ZLD treatment system typically includes some type of:

    • clarifier and/or reactor to precipitate out metals, hardness, and silica

    • chemical feed to help facilitate the precipitation, flocculation, or coagulation of any metals and suspended solids

    • filter press to concentrate secondary solid waste after pre-treatment or alongside an evaporator

    • ultrafiltration (UF) to remove all the leftover trace amounts of suspended solids and prevent fouling, scaling, and/or corrosion down the line of treatment

    • reverse osmosis (RO) to remove the bulk of dissolved solids from the water stream in the primary phases of concentration

    • brine concentrators to further concentrate the reject RO stream or reject from electrodialysis to further reduce waste volume

    • evaporator for vaporizing access water in the final phases of waste concentration before crystallizer.

    • crystallizer to boil off any remaining liquid, leaving you with a dry, solid cake for disposal

      ZLD Treatment Process Stages
      Stage 1

      • Preliminary Treatment

      • Effluent Screening Process

      • Oil Removal Process

      • Effluent Mixing Process

      • pH Correction Process

    • Stage 2

      • Electrochemical Coagulation and Flocculation Process

      • Primary Sludge Settling, treatment process.

      • TSS, Colour & Associated BOD/COD Removal Process

      • Hardness & heavy metals removal process.

    • Stage 3

      • Biological Treatment Process

      • Secondary sludge settling process.

      • Sludge Treatment Process

      • BID & COD removal process.

    • Stage 4

      • Depth Filtration/ Polishing Process

      • Polishing of TSS, SDI, Color, Turbidity, Virus, etc.

    • Stage 5

      • TDS removal process.

      • Salt Crystallization process.

    • Benefits of ZLD Plant
      Zero liquid discharge plant technology is growing globally as an important wastewater management strategy to reduce water pollution and extend water supply.
      The main benefits of ZLD are:

      • Minimizes wastewater discharge.

      • Maximizes water recovery.

      • Create a valuable product for sale.

      • Removing environmental issues.

      • Reduction of dependence on local water sources and local legislation.

        About ZLD
        Zero Liquid Discharge (ZLD) is a water treatment process with a goal of recirculation of all of the possible water back to the process with zero liquid waste. The ultimate treatment process has zero or nearly zero adverse impact on the environment.
        Pre-treatment – reducing TSS, COD, Turbidity to filter out particle impurities or precipitation of sparingly soluble compounds to allow additional treatment.
        The concentration of dissolved solids – by membrane technologies, either by a combination of reverse osmosis (RO) with electrodialysis (EDR). The way of concentrating RO brine by EDR. Or a single step electrodialysis. Using these technologies to concentrate the stream we can achieve more than 98 % of the recovery.
        Thermal treatment – the last step is usually consisting of Evaporator/Crystallizer to generate solids. Final evaporation of remaining water for re-use together with precipitation of solid waste for disposal in a controlled landfill or to be sold as a valuable product.
        To know more, please check Kelvin India.

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