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sodium hypochlorite Applications

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    Gray Water remediation utlizing sodium hypochlorite (bleach) Poly Tanks

    Sodium Hypochorite tanks in double wall (safe tanks), vertical, horizontal, cone bottom or IBC tanks. Poly tanks in sulfuric acid service as well as containment assemblies fully manufactured. Custom Fiberglass (FRP) tanks and on-site fiberglass tank repair of existing FRP tanks.

    By Sierra Sales Double Wall Plastic Tanks based in Perkasie, PENNSYLVANIA (USA).

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    Albin peristaltic`s pumps for water treatment

    Pumping / transfert / dosing of sewage thickened, sludge dewatered, sludge clarifier, waste activated sludge, digested sludge, primary sludge, lime milk, raw sludge, sodium hypochlorite, ferric chloride, sodium bisulphite, fluoride, polymers, aqueous am­monia, potassium permanganate, caustic soda.

    By Albin Pump SAS based in Goteborg, SWEDEN.

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    Dosing pumps for water and wastewater treatment industry

    Peristaltic pumps are proven performers in water and waste treatment solving problems including: Dosing and metering treatment chemicals and reagents including ferric chloride (“Ferric”), sodium hypochlorite (“Hypo”), chlorine water, lime (Kalic or Kalkmilch), caustic soda, powder activated carbon and polymers, sludge transfer, filter press feeds.

    By Verderflex Peristaltic Pumps - part of the Verder Group based in Castleford, UNITED KINGDOM.

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    Caustic, Sulfuric Acid & Bleach Double Wall Containment Tanks for On-site Processing

    Our safe tank vessels are independently designed for each project and to the requirements required by th engineer. Chemicals we design HDLPE & XLPE (HDXLPE) vessels for include: Acetic Acid, Aluminum Sulfate, Ammonium Sulfate, Calcium Chloride, Ethylene Glycol, Ferric Chloride, Ferric Sulfate, Ferrous Sulfate, Hydrochloric Acid, Hydrofluoric Acid, Hydrofluosilicic Acid, Hydrogen Peroxide, Magnesium Chloride, Phosphoric Acid, Polymers (Deposition), Potassium Hydroxide, Sodium Hypochlorite, Sulfuric Acid, Surfactants & water.

    By Sierra Sales Double Wall Plastic Tanks based in Perkasie, PENNSYLVANIA (USA).

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    Applications and Air Pollutants Removed in the Pulp and Paper Industry

    Equipment and systems for Kraft and Sulfite mills. Control chlorine and chlorine dioxide emissions from bleaching operations. Brown stock washer emissions. Control particulate emissions from lime kilns, lime slakers, black liquor recovery boilers, furnaces and gasification units. Particulate from bark and sludge boilers and sulfur dioxide and trioxide removal from those sources. Control of hydrogen sulfide, TRS and methanol emissions from LVHC and HVLC gas streams. Complete fugitive lime dust collection systems to handle emissions from conveyors, elevators and feeders. Smelt dissolving tank particulate and TRS gases. Direct contact waste heat recovery. Black liquor evaporation. Treatment and subcooling of boiler and kiln gases to remove particulate, sulfur dioxide and TRS for precipitated calcium carbonate production (PCC). Dust from tissue and paper rollers and dryers. NASH and sodium hypochlorite scrubbing. Waste heat recovery with direct contact heat exchangers.

    By Bionomic Industries Inc. based in Mahwah, NEW JERSEY (USA).

  • Dust collection and odor control in waste management sites

    Th turn key plant is composed by three different wet stages. The first stage is a venturi jet scrubber to collect dust and particles, then the second and third stages are deputed to absorb bad smells, such as H2S, Ammonia and Ammines. The absorption takes place thanks to the injection of chemicals (such as Sulphuric Acid, Sodium Hypochlorite and Sodium hydroxide.

    By F.G.M. engineering srl based in Santa Croce sull`Arno, ITALY.

  • Odor Scrubbers Applications with Hydrogen Peroxide

    Hydrogen Peroxide as a Replacement for Sodium Hypochlorite Hydrogen peroxide may be used in both mist scrubbers and packed tower scrubbers as a replacement for sodium hypochlorite (bleach). Like bleach, the process involves two concurrent mechanisms: 1) absorption of the odors (H2S) into the alkaline scrubbing solution; and 2) oxidation of the absorbed sulfide in solution. Step 1: H2S + NaOH → NaSH + H2O Step 2: 4H2O2 + H2S → H2SO4 + 4H2O Typical dose ratios are 5 parts H2O2 per part H2S or, when used in place of bleach, one gallon 50% H2O2 for every 10 gallons of 15% sodium hypochlorite (NaOCl). This generally translates into a break-even cost scenario. Sufficient caustic soda (NaOH) is added to maintain a pH of 10.0 - 10.5 in the scrubbing solution. There is also in practice a process which uses H2O2 in series with bleach to scrub composting odors. This process relies on a series of three packed tower scrubbers: the first is a pH neutral water wash (to remove ammonia and amine odors); the second uses a conventional caustic/bleach solution in which the bleach is purposely overdosed (to oxidize the complex organic sulfur odors); and the third uses a caustic/H2O2 solution (to remove the unreacted chlorine vapors carried over from the second stage). H2O2 + HOCl → HCl + H2O + O2 Typical dose ratios are 0.5 parts H2O2 per part hypochlorite (OCl-), with sufficient caustic soda (NaOH) added to maintain a pH of 8.5 in the scrubbing solution.

    By USP Technologies based in Atlanta, GEORGIA (US) (USA).

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