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chlorinator Applications

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    Oxidation Reduction Potential (ORP)/Redox

    Oxidation Reduction Potential or Redox is the activity or strength of oxidizers and reducers in relation to their concentration. Oxidizers accept electrons, reducers lose electrons. Examples of oxidizers are: chlorine, hydrogen peroxide, bromine, ozone, and chlorine dioxide. Examples of reducers are sodium sulfite, sodium bisulfate and hydrogen sulfide. Like acidity and alkalinity, the increase of one is at the expense of the other.

    By Myron L Company based in Carlsbad, CALIFORNIA (USA).

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    Hazardous waste treatment solutions for chlorine industry

    The mercury cell process is a formerly widely-used production technique for the production of chlorine and caustic soda. The liquid metal, mercury, acts as cathode (negative pole) in this process. In the past, the loss of mercury during the process (to air, soil and water) led to serious health and environmental problems. Therefore, most European chlorine producers have decided to phase out the mercury cell process by 2020. Nevertheless, even today, almost 6000 tons of mercury is used per year for chlorine...

    By econ industries services GmbH based in Starnberg, GERMANY.

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    Gas analyzers for plant protection and process optimization

    Problem: Analyze total chlorines as well as organic compounds with a quick time response. Motive:Protects and authorizes the incinerator functioning : VOC limits the ability to incinerate Chlorine and fluorides limits the ability to incinerate to protect the incinerator Analytical Solution: VOC analyzed from the FID GC The total Halogenated compounds Installation of a reactor to convert the chlorines and the fluorides into HCl and HF Halogenated compounds analysis with our instrument Hx analyzer Technical...

    By Chromatotec Group based in Val de Virvée, FRANCE.

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    Mercury Waste Plants for Oil & Gas Industry

    Mercury-contaminated wastes are a major challenge for many industries including the chlorine industry, oil & gas drilling, oil & gas refineries (catalysts) and fluorescent lamps recycling. Due to strict legal restrictions and HSE requirements, mercury-contaminated waste is required to be handled with special care. We at econ industries have the best solution for each specific mercury waste stream, with plants that are recognised as being state of the art from approval authorities worldwide.

    By econ industries services GmbH based in Starnberg, GERMANY.

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    Ultraviolet disinfection systems for the de-chlorination industry

    The purpose of de-chlorination is the removal of free chlorine and combined chlorine compounds from potable water, as supplied by municipal water supplies. Chlorine will oxidize the surface of thin film composite polyamide membranes, causing the membrane to lose its ability to repel or reject salts. As a result, the membranes used in Reverse Osmosis (RO) or Electro-deionisation (EDI) systems will exhibit shorter lifetimes when exposed to chlorine in the water they are treating and membrane manufacturers will...

    By atg UV Technology based in Wigan, UNITED KINGDOM.

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    Industrial manufacturing solutions for the pulp & paper industry

    Paper manufacturing involves many chemical processes that drive the emission of nitrogen dioxide (NO2), sulfur dioxide (SO2), and carbon dioxide (CO2). Nitrogen dioxide and sulfur dioxide are major contributors of acid rain, whereas CO2 is a greenhouse gas responsible for climate change. In addition, wastewater discharge for pulp and paper mills often contains alcohols, chelating agents, and inorganic materials like chlorates and transition metal compounds. Furthermore, chlorine and compounds of chlorine are used...

    By CECO Environmental based in Dallas, TEXAS (USA).

  • Organic Light for Surface Disinfection Proof of Concept

    Third Party Validation Study – Organic Light reduces Surface APC counts by 85% and eliminating several microbials not effected by Chlorine Wash, Organic Light proves to be a viable technology in replacing traditional precooling Chlorine Washes.

    By Radiant Industrial Solutions based in Houston, TEXAS (USA).

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    Chlorinated hydrocarbons

    Example: Pharmaceutical industry. Similar tasks: Chemical industry.

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    Ultraviolet disinfection systems for the water parks industry

    As water features, wave machines, flumes and splash pads raise the fun factor in swimming pools, traditional methods of disinfecting water, using chlorine, are causing problems for operators and customers alike. Higher water temperatures and increased turbulence in leisure pools requires increased dosages of chlorine, leading to pool users complaining of burning eyes, red or itchy skin and an over powering chlorine smell throughout the facility. In some extreme cases the fabric of the building has also been...

    By atg UV Technology based in Wigan, UNITED KINGDOM.

  • On-site chlorine and sodium hypochlorite generation systems for Pulp and paper bleaching industry

    Chlorine has typically been used as a bleaching agent in pulp and paper mills; however, safety concerns regarding the use of chlorine gas in the industry have recently come under focus. Klorigen™ chlorine generation systems alleviate the risk inherent with the usage of large quantities of pressurized chlorine gas in these facilities.

    By Electrolytic Technologies Systems LLC based in North Miami Beach, FLORIDA (USA).

  • On-site chlorine and sodium hypochlorite generation systems for Metallurgical and chemical engineering

    Many metallurgical processes require chlorine gas for refining or purification. Klorigen™ chlorine generation systems alleviate the risk inherent with the usage of large quantities of pressurized chlorine gas in these facilities. Klorigen™ systems produce chlorine gas on-demand and under vacuum, eliminating the storage and use of pressurized chlorine gas and the risks associated with chlorine gas currently facing many metallurgical applications. In addition, Klorigen™ systems produce a 15%...

    By Electrolytic Technologies Systems LLC based in North Miami Beach, FLORIDA (USA).

  • Determination of chlorate, perchlorate, and chlorite ions in drinking water including bottled water

    Introduction Chlorination remains the most widespread way of disinfecting water in the world. Its flaws are: high toxicity of chlorine and other chlorinating reagents, also formation of various chlorine-containing compounds, including chlorite-, chlorate, and perchlorate anions. Maximum permitted levels (MPL) of these components are established in WHO Guidelines for drinking water and other regional and national regulations.

    By Lumex Instruments Group based in Mission, BRITISH COLUMBIA (CANADA).

  • Online monitoring solutions for determination of impurities in dry chlorine

    The purpose of determining impurities in dry chlorine (after compression) is a quality control measure to avoid contamination and off-spec product batches. Alternatively, chlorine purity can also be determined by measuring absolute levels of chlorine in dry chlorine, by means of multi-wavelength UV analysis.

    By AppliTek NV based in Nazareth, BELGIUM.

  • Water treatment

    As a selective oxidizing agent, chlorine dioxide possesses several chemical advantages when compared to the traditional use of chlorine in wastewater treatment. Chlorine dioxide does not hydrolyze in water, and thus it retains its biocidal activity over a broader range of pH. It is also non reactive with ammonia and most nitrogen-containing compounds, and thus effective at lower dose levels than chlorine. It also eliminates phenols, simple cyanides and sulfides by oxidation. Likewise it is effective at odor...

    By Applied Oxidation LLC based in Chattanooga, TENNESSEE (USA).

  • Online monitoring solutions for the determination of ethylene in vent gases

    The purpose of determining ethylene in the chlorination process is to minimize ethylene losses by feedback control of C2H4 / Cl2 ratio in the chlorination reactor. The on-line analyzer system uses selective C2H4 measurement by means of multi-wavelength infrared with automatic optical span possibility. For all other analytical solutions in the chlorination process.

    By AppliTek NV based in Nazareth, BELGIUM.

  • Measurement solution for liquid TiCl4 vanadium oxychloride monitor

    The chloride process of titanium dioxide (TiO2) pigment manufacture first converts titania-containing ores to TiCl4 via a carbochlorination reaction at a high temperature in a chlorinator in the presence of chlorine gas and petroleum coke added as a reductant.

    By Protea Limited based in Middlewich, UNITED KINGDOM.

  • Potable water treatment

    As a selective oxidizing agent, chlorine dioxide possesses several chemical advantages when compared to the traditional use of chlorine in wastewater treatment. Chlorine dioxide does not hydrolyze in water, and thus it retains its biocidal activity over a broader range of pH. It is also non reactive with ammonia and most nitrogen-containing compounds, and thus effective at lower dose levels than chlorine. It also eliminates phenols, simple cyanides and sulfides by oxidation. Likewise it is effective at odor...

    By Applied Oxidation LLC based in Chattanooga, TENNESSEE (USA).

  • Chlorine Dioxide Water Treatment for the Municipal Drinking Water Treatment

    Chlorine dioxide is a well-known disinfectant for drinking water with many advantages over chlorination. Today there are estimated to be over 900 public water systems using chlorine dioxide for water disinfection world-wide. Also in Australia it is approved for a wide range of uses. However, the acceptance of chlorine dioxide in Australia as a disinfecting agent for drinking water has been hampered by the crude methods available for generating chlorine dioxide – methods that require relatively complex...

    By NW Solutions based in Perth, AUSTRALIA.

  • Water treatment for water distribution systems

    As a selective oxidizing agent, chlorine dioxide possesses several chemical advantages when compared to the traditional use of chlorine in wastewater treatment. Chlorine dioxide does not hydrolyze in water, and thus it retains its biocidal activity over a broader range of pH. It is also non reactive with ammonia and most nitrogen-containing compounds, and thus effective at lower dose levels than chlorine. It also eliminates phenols, simple cyanides and sulfides by oxidation. Likewise it is effective at odor...

    By Applied Oxidation LLC based in Chattanooga, TENNESSEE (USA).

  • Water quality monitoring systems for wastewater & effluents monitoring industry

    Instruments for monitoring the aeration-process, nitrification and de-nitrification; chlorination and de-chlorination; as well as the final discharge into the environment.

    By SWAN Analytische Instrumente AG based in Hinwil, SWITZERLAND.

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